Your search keyword '"Marin-Felix, Y"' showing total 118 results

1. Plant-growth promoting activity of three fungal endophytes isolated from plants living in dehesas and their effect on Lolium multiflorum

Author

García-Latorre, C., Rodrigo, S., Marin-Felix, Y., Stadler, M., and Santamaria, O.

Published

2023

2. Fusarium: more than a node or a foot-shaped basal cell.

Author

Crous, PW, Lombard, L, Sandoval-Denis, M, Seifert, KA, Schroers, H-J, Chaverri, P, Gené, J, Guarro, J, Hirooka, Y, Bensch, K, Kema, GHJ, Lamprecht, SC, Cai, L, Rossman, AY, Stadler, M, Summerbell, RC, Taylor, JW, Ploch, S, Visagie, CM, Yilmaz, N, Frisvad, JC, Abdel-Azeem, AM, Abdollahzadeh, J, Abdolrasouli, A, Akulov, A, Alberts, JF, Araújo, JPM, Ariyawansa, HA, Bakhshi, M, Bendiksby, M, Ben Hadj Amor, A, Bezerra, JDP, Boekhout, T, Câmara, MPS, Carbia, M, Cardinali, G, Castañeda-Ruiz, RF, Celis, A, Chaturvedi, V, Collemare, J, Croll, D, Damm, U, Decock, CA, de Vries, RP, Ezekiel, CN, Fan, XL, Fernández, NB, Gaya, E, González, CD, Gramaje, D, Groenewald, JZ, Grube, M, Guevara-Suarez, M, Gupta, VK, Guarnaccia, V, Haddaji, A, Hagen, F, Haelewaters, D, Hansen, K, Hashimoto, A, Hernández-Restrepo, M, Houbraken, J, Hubka, V, Hyde, KD, Iturriaga, T, Jeewon, R, Johnston, PR, Jurjević, Ž, Karalti, I, Korsten, L, Kuramae, EE, Kušan, I, Labuda, R, Lawrence, DP, Lee, HB, Lechat, C, Li, HY, Litovka, YA, Maharachchikumbura, SSN, Marin-Felix, Y, Matio Kemkuignou, B, Matočec, N, McTaggart, AR, Mlčoch, P, Mugnai, L, Nakashima, C, Nilsson, RH, Noumeur, SR, Pavlov, IN, Peralta, MP, Phillips, AJL, Pitt, JI, Polizzi, G, Quaedvlieg, W, Rajeshkumar, KC, Restrepo, S, Rhaiem, A, Robert, J, Robert, V, and Rodrigues, AM

Subjects

Apiognomonia platani (Lév.) L. Lombard, Atractium ciliatum Link, Atractium pallidum Bonord., Calloria tremelloides (Grev.) L. Lombard, Cephalosporium sacchari E.J. Butler, Cosmosporella cavisperma (Corda) Sand.-Den., L. Lombard & Crous, Cylindrodendrum orthosporum (Sacc. & P. Syd.) L. Lombard, Dialonectria volutella (Ellis & Everh.) L. Lombard & Sand.-Den., Fusarium aeruginosum Delacr., Fusarium agaricorum Sarrazin, Fusarium albidoviolaceum Dasz., Fusarium aleyrodis Petch, Fusarium amentorum Lacroix, Fusarium annuum Leonian, Fusarium arcuatum Berk. & M.A. Curtis, Fusarium aridum O.A. Pratt, Fusarium armeniacum (G.A. Forbes et al.) L.W. Burgess & Summerell, Fusarium arthrosporioides Sherb., Fusarium asparagi Delacr., Fusarium batatas Wollenw., Fusarium biforme Sherb., Fusarium buharicum Jacz. ex Babajan & Teterevn.-Babajan, Fusarium cactacearum Pasin. & Buzz.-Trav., Fusarium cacti-maxonii Pasin. & Buzz.-Trav., Fusarium caudatum Wollenw., Fusarium cavispermum Corda, Fusarium cepae Hanzawa, Fusarium cesatii Rabenh., Fusarium citriforme Jamal., Fusarium citrinum Wollenw., Fusarium citrulli Taubenh., Fusarium clavatum Sherb., Fusarium coccinellum Kalchbr., Fusarium cromyophthoron Sideris, Fusarium cucurbitae Taubenh., Fusarium cuneiforme Sherb., Fusarium delacroixii Sacc., Fusarium dimerum var. nectrioides Wollenw., Fusarium echinatum Sand.-Den. & G.J. Marais, Fusarium epicoccum McAlpine, Fusarium eucheliae Sartory, R. Sartory & J. Mey., Fusarium fissum Peyl, Fusarium flocciferum Corda, Fusarium gemmiperda Aderh., Fusarium genevense Dasz., Fusarium graminearum Schwabe, Fusarium graminum Corda, Fusarium heterosporioides Fautrey, Fusarium heterosporum Nees & T. Nees, Fusarium idahoanum O.A. Pratt, Fusarium juruanum Henn., Fusarium lanceolatum O.A. Pratt, Fusarium lateritium Nees, Fusarium loncheceras Sideris, Fusarium longipes Wollenw. & Reinking, Fusarium lyarnte J.L. Walsh, Sangal., L.W. Burgess, E.C.Y. Liew & Summerell, Fusarium malvacearum Taubenh., Fusarium martii f. phaseoli Burkh., Fusarium muentzii Delacr., Fusarium nigrum O.A. Pratt, Fusarium oxysporum var. asclerotium Sherb., Fusarium palczewskii Jacz., Fusarium palustre W.H. Elmer & Marra, Fusarium polymorphum Matr., Fusarium poolense Taubenh., Fusarium prieskaense G.J. Marais & Sand.-Den., Fusarium prunorum McAlpine, Fusarium pusillum Wollenw., Fusarium putrefaciens Osterw., Fusarium redolens Wollenw., Fusarium reticulatum Mont., Fusarium rhizochromatistes Sideris, Fusarium rhizophilum Corda, Fusarium rhodellum McAlpine, Fusarium roesleri Thüm., Fusarium rostratum Appel & Wollenw., Fusarium rubiginosum Appel & Wollenw., Fusarium rubrum Parav., Fusarium samoense Gehrm., Fusarium scirpi Lambotte & Fautrey, Fusarium secalis Jacz., Fusarium spinaciae Hungerf., Fusarium sporotrichioides Sherb., Fusarium stercoris Fuckel, Fusarium stilboides Wollenw., Fusarium stillatum De Not. ex Sacc., Fusarium sublunatum Reinking, Fusarium succisae Schröt. ex Sacc., Fusarium tabacivorum Delacr., Fusarium trichothecioides Wollenw., Fusarium tritici Liebman, Fusarium tuberivorum Wilcox & G.K. Link, Fusarium tumidum var. humi Reinking, Fusarium ustilaginis Kellerm. & Swingle, Fusarium viticola Thüm., Fusarium werrikimbe J.L. Walsh, L.W. Burgess, E.C.Y. Liew & B.A. Summerell, Fusarium willkommii Lindau, Fusarium xylarioides Steyaert, Fusarium zygopetali Delacr., Fusicolla meniscoidea L. Lombard & Sand.-Den., Fusicolla quarantenae J.D.P. Bezerra, Sand.-Den., Crous & Souza-Motta, Fusicolla sporellula Sand.-Den. & L. Lombard, Fusisporium andropogonis Cooke ex Thüm., Fusisporium anthophilum A. Braun, Fusisporium arundinis Corda, Fusisporium avenaceum Fr., Fusisporium clypeaster Corda, Fusisporium culmorum Wm.G. Sm., Fusisporium didymum Harting, Fusisporium elasticae Thüm., Fusisporium episphaericum Cooke & Ellis, Fusisporium flavidum Bonord., Fusisporium hordei Wm.G. Sm., Fusisporium incarnatum Roberge ex Desm., Fusisporium lolii Wm.G. Sm., Fusisporium pandani Corda, Gibberella phyllostachydicola W. Yamam., Hymenella aurea (Corda) L. Lombard, Hymenella spermogoniopsis (Jul. Müll.) L. Lombard & Sand.-Den., Luteonectria Sand.-Den., L. Lombard, Schroers & Rossman, Luteonectria albida (Rossman) Sand.-Den. & L. Lombard, Luteonectria nematophila (Nirenberg & Hagedorn) Sand.-Den. & L. Lombard, Macroconia bulbipes Crous & Sand.-Den., Macroconia phlogioides Sand.-Den. & Crous, Menispora penicillata Harz, Multi-gene phylogeny, Mycotoxins, Nectriaceae, Neocosmospora, Neocosmospora epipeda Quaedvl. & Sand.-Den., Neocosmospora floridana (T. Aoki et al.) L. Lombard & Sand.-Den., Neocosmospora merkxiana Quaedvl. & Sand.-Den., Neocosmospora neerlandica Crous & Sand.-Den., Neocosmospora nelsonii Crous & Sand.-Den., Neocosmospora obliquiseptata (T. Aoki et al.) L. Lombard & Sand.-Den., Neocosmospora pseudopisi Sand.-Den. & L. Lombard, Neocosmospora rekana (Lynn & Marinc.) L. Lombard & Sand.-Den., Neocosmospora tuaranensis (T. Aoki et al.) L. Lombard & Sand.-Den., Nothofusarium Crous, Sand.-Den. & L. Lombard, Nothofusarium devonianum L. Lombard, Crous & Sand.-Den., Novel taxa, Pathogen, Scolecofusarium L. Lombard, Sand.-Den. & Crous, Scolecofusarium ciliatum (Link) L. Lombard, Sand.-Den. & Crous, Selenosporium equiseti Corda, Selenosporium hippocastani Corda, Selenosporium sarcochroum Desm, Selenosporium urticearum Corda., Setofusarium (Nirenberg & Samuels) Crous & Sand.-Den., Setofusarium setosum (Samuels & Nirenberg) Sand.-Den. & Crous., Sphaeria sanguinea var. cicatricum Berk., Sporotrichum poae Peck., Stylonectria corniculata Gräfenhan, Crous & Sand.-Den., Stylonectria hetmanica Akulov, Crous & Sand.-Den., Taxonomy, Mycology & Parasitology, Microbiology

Abstract

Recent publications have argued that there are potentially serious consequences for researchers in recognising distinct genera in the terminal fusarioid clade of the family Nectriaceae. Thus, an alternate hypothesis, namely a very broad concept of the genus Fusarium was proposed. In doing so, however, a significant body of data that supports distinct genera in Nectriaceae based on morphology, biology, and phylogeny is disregarded. A DNA phylogeny based on 19 orthologous protein-coding genes was presented to support a very broad concept of Fusarium at the F1 node in Nectriaceae. Here, we demonstrate that re-analyses of this dataset show that all 19 genes support the F3 node that represents Fusarium sensu stricto as defined by F. sambucinum (sexual morph synonym Gibberella pulicaris). The backbone of the phylogeny is resolved by the concatenated alignment, but only six of the 19 genes fully support the F1 node, representing the broad circumscription of Fusarium. Furthermore, a re-analysis of the concatenated dataset revealed alternate topologies in different phylogenetic algorithms, highlighting the deep divergence and unresolved placement of various Nectriaceae lineages proposed as members of Fusarium. Species of Fusarium s. str. are characterised by Gibberella sexual morphs, asexual morphs with thin- or thick-walled macroconidia that have variously shaped apical and basal cells, and trichothecene mycotoxin production, which separates them from other fusarioid genera. Here we show that the Wollenweber concept of Fusarium presently accounts for 20 segregate genera with clear-cut synapomorphic traits, and that fusarioid macroconidia represent a character that has been gained or lost multiple times throughout Nectriaceae. Thus, the very broad circumscription of Fusarium is blurry and without apparent synapomorphies, and does not include all genera with fusarium-like macroconidia, which are spread throughout Nectriaceae (e.g., Cosmosporella, Macroconia, Microcera). In this study four new genera are introduced, along with 18 new species and 16 new combinations. These names convey information about relationships, morphology, and ecological preference that would otherwise be lost in a broader definition of Fusarium. To assist users to correctly identify fusarioid genera and species, we introduce a new online identification database, Fusarioid-ID, accessible at www.fusarium.org. The database comprises partial sequences from multiple genes commonly used to identify fusarioid taxa (act1, CaM, his3, rpb1, rpb2, tef1, tub2, ITS, and LSU). In this paper, we also present a nomenclator of names that have been introduced in Fusarium up to January 2021 as well as their current status, types, and diagnostic DNA barcode data. In this study, researchers from 46 countries, representing taxonomists, plant pathologists, medical mycologists, quarantine officials, regulatory agencies, and students, strongly support the application and use of a more precisely delimited Fusarium (= Gibberella) concept to accommodate taxa from the robust monophyletic node F3 on the basis of a well-defined and unique combination of morphological and biochemical features. This F3 node includes, among others, species of the F. fujikuroi, F. incarnatum-equiseti, F. oxysporum, and F. sambucinum species complexes, but not species of Bisifusarium [F. dimerum species complex (SC)], Cyanonectria (F. buxicola SC), Geejayessia (F. staphyleae SC), Neocosmospora (F. solani SC) or Rectifusarium (F. ventricosum SC). The present study represents the first step to generating a new online monograph of Fusarium and allied fusarioid genera (www.fusarium.org).

Published

2021

3. Fungal Planet description sheets: 1697-1780.

Author

Crous, P. W., Wingfield, M. J., Jurjević, Ž., Balashov, S., Osieck, E. R., Marin-Felix, Y., Luangsa-ard, J. J., Mejía, L. C., Cappelli, A., Parra, L. A., Lucchini, G., Chen, J., Moreno, G., Faraoni, M., Zhao, R. L., Weholt, Ø., Borovička, J., Jansen, G. M., Shivas, R. G., and Tan, Y. P.

Subjects

FUNGI, HYGROCYBE, GENETIC barcoding, TWIGS

Abstract

Novel species of fungi described in this study include those from various countries as follows: Antarctica, Leuconeurospora bharatiensis from accumulated snow sediment sample. Argentina, Pseudocercospora quetri on leaf spots of Luma apiculata. Australia, Polychaetomyces verrucosus on submerged decaying wood in sea water, Ustilaginoidea cookiorum on Scleria levis, Xylaria guardiae as endophyte from healthy leaves of Macaranga tanarius. Belgium, Iodophanus taxi on leaf of Taxus baccata. Belize, Hygrocybe mirabilis on soil. Brazil, Gongronella irregularis from soil, Linodochium splendidum on decaying sheath of Euterpe oleracea, Nothophysalospora agapanthi (incl. Nothophysalospora gen. nov.) on flower stalks of Agapanthus praecox, Phaeosphaeria tabebuiae on leaf of Tabebuia sp., Verrucohypha endophytica (incl. Verrucohypha gen. nov.) from healthy roots of Acrocomia aculeata. Estonia, Inosperma apricum on soil under Quercus robur. Greece, Monosporascus solitarius isolated from surfacesterilised, asymptomatic roots of Microthlaspi perfoliatum. India, Diaporthe neocapsici on young seedling stems of Capsicum annuum, Fuscoporia naditirana on dead wood, Sebacina spongicarpa on soil, Torula kanvae from the gut of a Copris signatus beetle. Iran, Sarcinomyces pruni from twig and petiole tissues of Prunus persica and Prunus armeniaca, Xenodidymella quercicola from leaf spots of Quercus brantii. Italy, Agaricus aereiceps on grass, Agaricus bellui in meadows, Agaricus fabrianensis in urban grasslands, Beaucarneamyces muscorum on moss growing in forest, Xenoanthostomella quercus on leaf litter of Quercus ilex. Netherlands, Alfaria neerlandica on stem lesions of Cortaderia selloana, Neodictyosporium juncicola on culms of Juncus maritimus, Penicillium geertdesnooi from soil under Papaver rhoeas, Russula abscondita on rich calcareous soil with Quercus, Russula multiseptata on rich clay soil with Quercus, Russula purpureopallescens on soil with Populus, Sarocladium caricicola on leaves of Carex riparia. Pakistan, Circinaria shimlaensis on limestone rocks. Panama, Acrocalymma philodendri on leaf spots of Philodendron sp., Caligospora panamaensis on leaf litter, Chlamydocillium simulans associated with a Xylaria sp., Corynesporina panamaensis on leaf litter, Cylindromonium panamaense on twig litter of angiosperm, Cyphellophora panamaensis on twig litter of angiosperm, Microcera panamensis on leaf litter of fern, Pseudotricholoma pusillum in tropical montane forest dominated by Quercus spp., Striaticonidium panamaense on leaf litter, Yunnanomyces panamaensis on leaf litter. Poland, Albocremella abscondita (incl. Albocremella gen. nov.) from rhizoids of liverwort Conocephalum salebrosum. Portugal, Agaricus occidualis in meadows. South Africa, Alternaria elsarustiae on culms of unidentified Poaceae, Capronia capensis on dead twig of unidentified angiosperm, Codinaeella bulbinicola on dead leaves of Bulbine frutescens, Cytospora carpobroticola on leaf of Carpobrotus quadrifidus, Neophaeomoniella watsoniae on leaf of Watsonia sp., Neoplatysporoides aloigena on leaf of Aloe khamiesensis, Nothodactylaria comitabilis on living leaf of Itea rhamnoides, Nothopenidiella beaucarneae (incl. Nothopenidiella gen. nov.) on dead leaves of Beaucarnea stricta, Orbilia kirstenboschensis on dead flower stalks of Agapanthus praecox, Phragmocephala agapanthi on dead flower stalks of Agapanthus praecox, Podocarpigena hagahagaensis (incl. Podocarpigena gen. nov.) on leaf spots of Podocarpus falcatus, Sporisorium enterogonipteri from the gut of Gonipterus sp., Synnemapestaloides searsiae on leaf of Searsia populifolia, Xenophragmocapnias diospyri (incl. Xenophragmocapnias gen. nov.) on leaf spots of Diospyros sp., Yunnanomyces hagahagaensis on leaf spots of Sideroxylon inerme. Spain, Agaricus basicinctus in meadows, Agaricus quercetorum among leaf litter in oak forests, Coprinopsis palaciosii on degraded woody debris, Inocybe complutensis in calcareous loamy soil, Inocybe tanitiae in calcareous sandy soil, Mycena subfragosa on dead leaves of Salix atrocinerea, Pseudobaeospora cortegadensis in laurel forests, Trichoderma sedimenticola from fluvial sediments. Sweden, Inocybe badjelanndana on calcareous soil. Ukraine, Beaucarneamyces lupini on overwintered stems of Lupinus polyphyllus, Protocreopsis globulosa on thallus and apothecia of Lecania cyrtella on bark of Populus sp., Thyridium tiliae on dead twigs of Tilia sp. USA, Cladosporium louisianense, Cyphellophora americana from a bedroom vent, Extremus massachusettsianus from lyse buffer, Myxotrichum tapetae on carpet in basement, Neospissiomyces floridanus (incl. Neospissiomyces gen. nov.) on swab from hospital, Polychaetomyces marinus (incl. Polychaetomyces gen. nov.) on submerged driftwood in sea water, Steccherinum fragrans on hardwood fallen on the beach, Steinbeckomyces carnegieae (incl. Steinbeckomyces gen. nov.) on Carnegiea gigantea, Tolypocladium pennsylvanicum from air sampled in basement. Vietnam, Acidomyces ducanhii from Aglaia flowers, Acidomyces paludis from dead bark of Acacia sp., Phakopsora sageretiae on Sageretia theezans, Puccinia stixis on Stixis scandens. Morphological and culture characteristics are supported by DNA barcodes. [ABSTRACT FROM AUTHOR]

Published

2024

4. What are the 100 most cited fungal genera?

Author

Bhunjun, C.S., Chen, Y.J., Phukhamsakda, C., Boekhout, T., Groenewald, J.Z., Mckenzie, E.H.C., Francisco, E.C., Frisvad, J.C., Groenewald, M., Hurdeal, V.G., Luangsa-Ard, J., Perrone, G., Visagie, C.M., Bai, F.Y., Błaszkowski, J., Braun, U., de Souza, F.A., de Queiroz, M.B., Dutta, A.K., Gonkhom, D., Goto, B.T., Guarnaccia, V., Hagen, F., Houbraken, J., Lachance, M.A., Li, J.J., Luo, K.Y., Magurno, F., Mongkolsamrit, S., Robert, V., Roy, N., Tibpromma, S., Wanasinghe, D.N., Wang, D.Q., Wei, D.P., Zhao, C.L., Aiphuk, W., Ajayi-Oyetunde, O., Arantes, T.D., Araujo, J.C., Begerow, D., Bakhshi, M., Barbosa, R.N., Behrens, F.H., Bensch, K., Bezerra, J.D.P., Bilaski, P., Bradley, C.A., Bubner, B., Burgess, T.I., Buyck, B., Adež, N., Cai, L., Calaça, F.J.S., Campbell, L.J., Chaverri, P., Chethana, K.W.T., Coetzee, B., Costa, M.M., Chen, Q., Custódio, F.A., Dai, Y.C., Damm, U., Santiago, A.L.C.M.A., De Angelini, R.M. Miccolis, Dijksterhuis, J., Dissanayake, A.J., Doilom, M., Dong, W., álvarez-Duarte, E., Fischer, M., Gajanayake, A.J., Gené, J., Gomdola, D., Gomes, A.A.M., Hausner, G., He, M.Q., Hou, L., Iturrieta-González, I., Jami, F., Jankowiak, R., Jayawardena, R.S., Kandemir, H., Kiss, L., Kobmoo, N., Kowalski, T., Landi, L., Lin, C.G., Liu, J.K., Liu, X.B., Loizides, M., Luangharn, T., Maharachchikumbura, S.S.N., Mkhwanazi, G.J. Makhathini, Manawasinghe, I.S., Marin-Felix, Y., Mctaggart, A.R., Moreau, P.A., Morozova, O.V., Mostert, L., Osiewacz, H.D., Pem, D., Phookamsak, R., Pollastro, S., Pordel, A., Poyntner, C., Phillips, A.J.L., Phonemany, M., Promputtha, I., Rathnayaka, A.R., Rodrigues, A.M., Romanazzi, G., Rothmann, L., Salgado-Salazar, C., Sandoval-Denis, M., Saupe, S.J., Scholler, M., Scott, P., Shivas, R.G., Silar, P., Silva-Filho, A.G.S., Souza-Motta, C.M., Spies, C.F.J., Stchigel, A.M., Sterflinger, K., Summerbell, R.C., Svetasheva, T.Y., Takamatsu, S., Theelen, B., Theodoro, R.C., Thines, M., Thongklang, N., Torres, R., Turchetti, B., Van Den Brule, T., Wang, X.W., Wartchow, F., Welti, S., Wijesinghe, S.N., Wu, F., Xu, R., Yang, Z.L., Yilmaz, N., Yurkov, A., Zhao, L., Zhao, R.L., Zhou, N., Hyde, K.D., Crous, P.W., Bhunjun, C.S., Chen, Y.J., Phukhamsakda, C., Boekhout, T., Groenewald, J.Z., Mckenzie, E.H.C., Francisco, E.C., Frisvad, J.C., Groenewald, M., Hurdeal, V.G., Luangsa-Ard, J., Perrone, G., Visagie, C.M., Bai, F.Y., Błaszkowski, J., Braun, U., de Souza, F.A., de Queiroz, M.B., Dutta, A.K., Gonkhom, D., Goto, B.T., Guarnaccia, V., Hagen, F., Houbraken, J., Lachance, M.A., Li, J.J., Luo, K.Y., Magurno, F., Mongkolsamrit, S., Robert, V., Roy, N., Tibpromma, S., Wanasinghe, D.N., Wang, D.Q., Wei, D.P., Zhao, C.L., Aiphuk, W., Ajayi-Oyetunde, O., Arantes, T.D., Araujo, J.C., Begerow, D., Bakhshi, M., Barbosa, R.N., Behrens, F.H., Bensch, K., Bezerra, J.D.P., Bilaski, P., Bradley, C.A., Bubner, B., Burgess, T.I., Buyck, B., Adež, N., Cai, L., Calaça, F.J.S., Campbell, L.J., Chaverri, P., Chethana, K.W.T., Coetzee, B., Costa, M.M., Chen, Q., Custódio, F.A., Dai, Y.C., Damm, U., Santiago, A.L.C.M.A., De Angelini, R.M. Miccolis, Dijksterhuis, J., Dissanayake, A.J., Doilom, M., Dong, W., álvarez-Duarte, E., Fischer, M., Gajanayake, A.J., Gené, J., Gomdola, D., Gomes, A.A.M., Hausner, G., He, M.Q., Hou, L., Iturrieta-González, I., Jami, F., Jankowiak, R., Jayawardena, R.S., Kandemir, H., Kiss, L., Kobmoo, N., Kowalski, T., Landi, L., Lin, C.G., Liu, J.K., Liu, X.B., Loizides, M., Luangharn, T., Maharachchikumbura, S.S.N., Mkhwanazi, G.J. Makhathini, Manawasinghe, I.S., Marin-Felix, Y., Mctaggart, A.R., Moreau, P.A., Morozova, O.V., Mostert, L., Osiewacz, H.D., Pem, D., Phookamsak, R., Pollastro, S., Pordel, A., Poyntner, C., Phillips, A.J.L., Phonemany, M., Promputtha, I., Rathnayaka, A.R., Rodrigues, A.M., Romanazzi, G., Rothmann, L., Salgado-Salazar, C., Sandoval-Denis, M., Saupe, S.J., Scholler, M., Scott, P., Shivas, R.G., Silar, P., Silva-Filho, A.G.S., Souza-Motta, C.M., Spies, C.F.J., Stchigel, A.M., Sterflinger, K., Summerbell, R.C., Svetasheva, T.Y., Takamatsu, S., Theelen, B., Theodoro, R.C., Thines, M., Thongklang, N., Torres, R., Turchetti, B., Van Den Brule, T., Wang, X.W., Wartchow, F., Welti, S., Wijesinghe, S.N., Wu, F., Xu, R., Yang, Z.L., Yilmaz, N., Yurkov, A., Zhao, L., Zhao, R.L., Zhou, N., Hyde, K.D., and Crous, P.W.

Abstract

The global diversity of fungi has been estimated between 2 to 11 million species, of which only about 155 000 have been named. Most fungi are invisible to the unaided eye, but they represent a major component of biodiversity on our planet, and play essential ecological roles, supporting life as we know it. Although approximately 20 000 fungal genera are presently recognised, the ecology of most remains undetermined. Despite all this diversity, the mycological community actively researches some fungal genera more commonly than others. This poses an interesting question: why have some fungal genera impacted mycology and related fields more than others? To address this issue, we conducted a bibliometric analysis to identify the top 100 most cited fungal genera. A thorough database search of the Web of Science, Google Scholar, and PubMed was performed to establish which genera are most cited. The most cited 10 genera are Saccharomyces, Candida, Aspergillus, Fusarium, Penicillium, Trichoderma, Botrytis, Pichia, Cryptococcus and Alternaria. Case studies are presented for the 100 most cited genera with general background, notes on their ecology and economic significance and important research advances. This paper provides a historic overview of scientific research of these genera and the prospect for further research.

Published

2024

5. Multi-locus phylogeny of the genus Curvularia and description of ten new species

Author

Marin-Felix, Y., Hernández-Restrepo, M., and Crous, P. W.

Published

2020

6. Genera of phytopathogenic fungi: GOPHY 3

Author

Marin-Felix, Y., Hernández-Restrepo, M., Iturrieta-González, I., García, D., Gené, J., Groenewald, J.Z., Cai, L., Chen, Q., Quaedvlieg, W., Schumacher, R.K., Taylor, P.W.J., Ambers, C., Bonthond, G., Edwards, J., Krueger-Hadfield, S.A., Luangsa-ard, J.J., Morton, L., Moslemi, A., Sandoval-Denis, M., Tan, Y.P., Thangavel, R., Vaghefi, N., Cheewangkoon, R., and Crous, P.W.

Published

2019

7. Genera of phytopathogenic fungi: GOPHY 2

Author

Marin-Felix, Y., Hernández-Restrepo, M., Wingfield, M.J., Akulov, A., Carnegie, A.J., Cheewangkoon, R., Gramaje, D., Groenewald, J.Z., Guarnaccia, V., Halleen, F., Lombard, L., Luangsa-ard, J., Marincowitz, S., Moslemi, A., Mostert, L., Quaedvlieg, W., Schumacher, R.K., Spies, C.F.J., Thangavel, R., Taylor, P.W.J., Wilson, A.M., Wingfield, B.D., Wood, A.R., and Crous, P.W.

Published

2019

8. Genera of phytopathogenic fungi: GOPHY 1

Author

Marin-Felix, Y., Groenewald, J.Z., Cai, L., Chen, Q., Marincowitz, S., Barnes, I., Bensch, K., Braun, U., Camporesi, E., Damm, U., de Beer, Z.W., Dissanayake, A., Edwards, J., Giraldo, A., Hernández-Restrepo, M., Hyde, K.D., Jayawardena, R.S., Lombard, L., Luangsa-ard, J., McTaggart, A.R., Rossman, A.Y., Sandoval-Denis, M., Shen, M., Shivas, R.G., Tan, Y.P., van der Linde, E.J., Wingfield, M.J., Wood, A.R., Zhang, J.Q., Zhang, Y., and Crous, P.W.

Published

2017

9. Global consortium for the classification of fungi and fungus-like taxa

Author

Hyde, K.D., Abdel-Wahab, M.A., Abdollahzadeh, J., Abeywickrama, P.D., Absalan, S., Afshari, N., Ainsworth, A.M., Akulov, O.Y., Aleoshin, V.V., Al-Sadi, A.M., Alvarado, P., Alves, A., Alves-Silva, G., Amalfi, M., Amira, Y., Amuhenage, T.B., Anderson, J., Antonín, V., Aouali, S., Aptroot, A., Apurillo, C.C.S., Araújo, J.P.M., Ariyawansa, H.A., Armand, A., Arumugam, E., Asghari, R., Assis, D.M.A., Atienza, V., Avasthi, S., Azevedo, E., Bahkali, A.H., Bakhshi, M., Banihashemi, Z., Bao, D.F., Baral, H.O., Barata, M., Barbosa, F., Barbosa, R.N., Barreto, R.W., Baschien, C., Belamesiatseva, D.B., Bennett Reuel, M., Bera, I., Bezerra, J.D.P., Bezerra, J.L., Bhat, D.J., Bhunjun, C.S., Bianchinotti, M.V., Błaszkowski, J., Blondelle, A., Boekhout, T., Bonito, G., Boonmee, S., Boonyuen, N., Bregant, C., Buchanan, P., Bundhun, D., Burgaud, G., Burgess, T., Buyck, B., Cabarroi-Hernández, M., Cáceres, M.E.S., Caeiro, M.F., Cai, L., Cai, M.F., Calabon, M.S., Calaça, F.J.S., Callalli, M., Camara, M.P.S., Cano-Lira, J.F., Cantillo, T., Cao, B., Carlavilla, J.R., Carvalho, A., Castañeda-Ruiz, R.F., Castlebury, L., Castro-Jauregui, O., Catania, M.D.V., Cavalcanti, L.H., Cazabonne, J., Cedeño-Sanchez, M.L., Chaharmiri-Dokhaharani, S., Chaiwan, N., Chakraborty, N., Chaverri, P., Cheewangkoon, R., Chen, C., Chen, C.Y., Chen, K.H., Chen, J., Chen, Q., Chen, W.H., Chen, Y.P., Chethana, K.W.T., Coleine, C., Condé, T.O., Corazon-Guivin, M.A., Cortés-Pérez, A., Costa-Rezende, D.H., Courtecuisse, R., Crouch, J.A., Crous, P.W., Cui, B.K., Cui, Y.Y., da Silva, D.K.A., da Silva, G.A., da Silva, I.R., da Silva, R.M.F., da Silva Santos, A.C., Dai, D.Q., Dai, Y.C., Damm, U., Darmostuk, V., Daroodi, Z., Das, K., Davoodian, N., Davydov, E.A., Dayarathne, M.C., Decock, C., de Groot, M.D., De Kesel, A., dela Cruz, T.E.E., De Lange, R., Delgado, G., Denchev, C.M., Denchev, T.T., de Oliveira, N.T., de Silva, N.I., de Souza, F.A., Dentinger, B., Devadatha, B., Dianese, J.C., Dima, B., Diniz, A.G., Dissanayake, A.J., Dissanayake, L.S., Doğan, H.H., Doilom, M., Dolatabadi, S., Dong, W., Dong, Z.Y., Dos Santos, L.A., Drechsler-Santos, E.R., Du, T.Y., Dubey, M.K., Dutta, A.K., Egidi, E., Elliott, T.F., Elshahed, M.S., Erdoğdu, M., Ertz, D., Etayo, J., Evans, H.C., Fan, X.L., Fan, Y.G., Fedosova, A.G., Fell, J., Fernandes, I., Firmino, A.L., Fiuza, P.O., Flakus, A., Fragoso de Souza, C.A., Frisvad, J.C., Fryar, S.C., Gabaldón, T., Gajanayake, A.J., Galindo, L.J., Gannibal, P.B., García, D., García-Sandoval, S.R., Garrido-Benavent, I., Garzoli, L., Gautam, A.K., Ge, Z.W., Gené, D.J., Gentekaki, E., Ghobad-Nejhad, M., Giachini, A.J., T.b., Gibertoni, Góes-Neto, A., Gomdola, D., Gomes de Farias, A.R., Gorjón, S.P., Goto, B.T., Granados-Montero, M.M., Griffith, G.W., Groenewald, J.Z., Groenewald, M., Grossart, H.P., Gueidan, C., Gunarathne, A., Gunaseelan, S., Gusmão, L.F.P., Gutierrez, A.C., Guzmán-Dávalos, L., Haelewaters, D., Halling, R., Han, Y.F., Hapuarachchi, K.K., Harder, C.B., Harrington, T.C., Hattori, T., He, M.Q., He, S., He, S.H., Healy, R., Herández-Restrepo, M., Heredia, G., Hodge, K.T., Holgado-Rojas, M., Hongsanan, S., Horak, E., Hosoya, T., Houbraken, J., Huang, S.K., Huanraluek, N., Hur, J.S., Hurdeal, V.G., Hustad, V.P., Iotti, M., Iturriaga, T., Jafar, E., Janik, P., Jayalal, R.G.U., Jayasiri, S.C., Jayawardena, R.S., Jeewon, R., Jerônimo, G.H., Jesus, A.L., Jin, J., Johnston, P.R., Jones, E.B.G., Joshi, Y., Justo, A., Kaishian, P., Kakishima, M., Kaliyaperumal, M., Kang, G.P., Kang, J.C., Karimi, O., Karpov, S.A., Karunarathna, S.C., Kaufmann, M., Kemler, M., Kezo, K., Khyaju, S., Kirchmair, M., Kirk, P.M., Kitaura, M.J., Klawonn, I., Kolarik, M., Kong, A., Kuhar, F., Kukwa, M., Kumar, S., Kušan, I., Lado, C., Larsson, K.H., Latha, K.P.D., Lee, H.B., Leonardi, M., Leontyev, D.L., Lestari, A.S., Li, C.J.Y., Li, D.W., Li, H., Li, H.Y., Li, L., Li, Q.R., Li, W.L., Li, Y., Li, Y.C., Liao, C.F., Liimatainen, K., Lim, Y.W., Lin, C.G., Linaldeddu, B.T., Linde, C.C., Linn, M.M., Liu, F., Liu, J.K., Liu, N.G., Liu, S., Liu, S.L., Liu, X.F., Liu, X.Y., Liu, X.Z., Liu, Z.B., Lu, L., Lu, Y.Z., Luangharn, T., Luangsa-ard, J.J., Lumbsch, H.T., Lumyong, S., Luo, L., Luo, M., Luo, Z.L., Ma, J., Machado, A.R., Madagammana, A.D., Madrid, H., Magurno, F., Magyar, D., Mahadevan, N., Maharachchikumbura, S.S.N., Maimaiti, Y., Malosso, E., Manamgoda, D.S., Manawasinghe, I.S., Mapook, A., Marasinghe, D.S., Mardones, M., Marin-Felix, Y., Márquez, R., Masigol, H., Matočec, N., May, Tom W., McKenzie, E.H.C., Meiras-Ottoni, A., Melo, R.F.R., Mendes, A.R.L., Mendieta, S., Meng, Q.F., Menkis, A., Menolli, N Jr., Mešić, A., Meza Calvo, J.G., Mikhailov, K.V., Miller, S.L., Moncada, B., Moncalvo, J.M., Monteiro, J.S., Monteiro, M., Mora-Montes, H.M., Moreau, P.A., Mueller, G.M., Mukhopadyay, S., Murugadoss, R., Nagy, L.G., Najafiniya, M., Nanayakkara, C.M., Nascimento, C.C., Nei, Y., Neves, M.A., Neuhauser, S., Niego, A.G.T., Nilsson, R.H., Niskanen, T., Niveiro, N., Noorabadi, M.T., Noordeloos, M.E., Norphanphoun, C., Nuñez Otaño, N.B., O’Donnell, R.P., Oehl, F., Olariaga, I., Orlando, F.P., Pang, K.L., Papp, V., Pawłowska, J., Peintner, U., Pem, D., Pereira, Olinto Liparini, Perera, R.H., Perez-Moreno, J., Perez-Ortega, S., Péter, G., Phillips, A.J.L., Phonemany, M., Phukhamsakda, C., Phutthacharoen, K., Piepenbring, M., Pires-Zottarelli, C.L.A., Poinar, G., Pošta, A., Prieto, M., Promputtha, I., Quandt, C.A., Radek, R., Rahnama, K., Raj, K.N.A., Rajeshkumar, K.C., Rämä, Teppo, Rambold, G., Ramírez-Cruz, V., Rasconi, S., Rathnayaka, A.R., Raza, M., Ren, G.C., Robledo, G.L., Rodriguez-Flakus, P., Ronikier, A., Rossi, W., Ryberg, M., Ryvarden, L.R., Salvador-Montoya, C.A., Samant, B., Samarakoon, B.C., Samarakoon, M.C., Sánchez-Castro, I., Sánchez-García, M., Sandoval-Denis, M., Santiago, A.L.C.M.A., Santamaria, B., Santos, A.C.S., Sarma, V.V., Savchenko, A., Savchenko, K., Saxena, R.K., Scholler, M., Schoutteten, N., Seifollahi, E., Selbmann, Laura, Selcuk, F., Senanayake, I.C., Seto, K., Shabashova, T.G., Shen, H.W., Shen, Y.M., Silva-Filho, A.G.S., Simmons, D.R., Singh, R., Sir, E.B., Song, C.G., Souza-Motta C.M. Sruthi, O.P., Stadler, M., Stchigel, A.M., Stemler, J., Stephenson, S.L., Strassert, J.F.H., Su, H.L., Su, L., Suetrong, S., Sulistyo, B., Sun, Y.F., Sun, Y.R., Svantesson, S., Sysouphanthong, P., Takamatsu, S., Tan, T.H., Tanaka, Kazuaki, Tang, A.M.C., Tang, X., Tanney, J.B., Tavakol, N.M., Taylor, J.E., Taylor, P.W.J., Tedersoo, L., Tennakoon, D.S., Thamodini, G.K., Thines, Marco, Thiyagaraja, V., Thongklang, N., Tiago, P.V., Tian, Q., Tian, W.H., Tibell, L., Tibell, S., Tibpromma, S., Tkalčec, Z., Tomšovský, M., Toome-Heller, M., Torruella, G., Tsurykau, A., Udayanga, Dhanushka, Ulukapi, M., Untereiner, W.A., Uzunov, B.A., Valle, L.G., Van Caenegem, W., Van den Wyngaert, S., Van Vooren, N., Velez, P., Verma, R.K., Vieira, L.C., Vieira, W.A.S., Vizzini, A., Walker, A., Walker, A.K., Wanasinghe, D.N., Wang, C.G., Wang, K., Wang, S.X., Wang, X.Y., Wang, Y., Wannasawang, N., Wartchow, F., Wei, D.P., Wei, X.L., White, J.F., Wijayawardene, N.N., Wijesinghe, S.N., Wijesundara, D.S.A., Wisitrassameewong, K., Worthy, F.R., Wu, F., Wu, G., Wu, H.X., Wu, N., Wu, W.P., Wurzbacher, C., Xiao, Y.P., Xiong, Y.R., Xu, L.J., Xu, R., Xu, R.F., Xu, R.J., Xu, T.M., Yakovchenko, L., Yan, J.Y., Yang, H., Yang, J., Yang, Z.L., Yang, Y.H., Yapa, N., Yasanthika, E., Youssef, N.H., Yu, F.M., Yu, Q., Yu, X.D., Yu, Y.X., Yu, Z.F., Yuan, H.S., Yuan, Y., Yurkov, Andrey, Zafari, D., Zamora, Juan Carlos, Zare, Rasoul, Zeng, M., Zeng, N.K., Zeng, X.Y., Zhang, F., Zhang, H., Zhang, J.F., Zhang, J.Y., Zhang, Q.Y., Zhang, S.N., Zhang, W., Zhang, Y., Zhang, Y.X., Zhao, C.L., Zhao, H., Zhao, Q., Zhao, R.L., Zhou, L.W., Zhou, M., Zhurbenko, M.P., Zin, H.H., Zucconi, L., Hyde, K.D., Abdel-Wahab, M.A., Abdollahzadeh, J., Abeywickrama, P.D., Absalan, S., Afshari, N., Ainsworth, A.M., Akulov, O.Y., Aleoshin, V.V., Al-Sadi, A.M., Alvarado, P., Alves, A., Alves-Silva, G., Amalfi, M., Amira, Y., Amuhenage, T.B., Anderson, J., Antonín, V., Aouali, S., Aptroot, A., Apurillo, C.C.S., Araújo, J.P.M., Ariyawansa, H.A., Armand, A., Arumugam, E., Asghari, R., Assis, D.M.A., Atienza, V., Avasthi, S., Azevedo, E., Bahkali, A.H., Bakhshi, M., Banihashemi, Z., Bao, D.F., Baral, H.O., Barata, M., Barbosa, F., Barbosa, R.N., Barreto, R.W., Baschien, C., Belamesiatseva, D.B., Bennett Reuel, M., Bera, I., Bezerra, J.D.P., Bezerra, J.L., Bhat, D.J., Bhunjun, C.S., Bianchinotti, M.V., Błaszkowski, J., Blondelle, A., Boekhout, T., Bonito, G., Boonmee, S., Boonyuen, N., Bregant, C., Buchanan, P., Bundhun, D., Burgaud, G., Burgess, T., Buyck, B., Cabarroi-Hernández, M., Cáceres, M.E.S., Caeiro, M.F., Cai, L., Cai, M.F., Calabon, M.S., Calaça, F.J.S., Callalli, M., Camara, M.P.S., Cano-Lira, J.F., Cantillo, T., Cao, B., Carlavilla, J.R., Carvalho, A., Castañeda-Ruiz, R.F., Castlebury, L., Castro-Jauregui, O., Catania, M.D.V., Cavalcanti, L.H., Cazabonne, J., Cedeño-Sanchez, M.L., Chaharmiri-Dokhaharani, S., Chaiwan, N., Chakraborty, N., Chaverri, P., Cheewangkoon, R., Chen, C., Chen, C.Y., Chen, K.H., Chen, J., Chen, Q., Chen, W.H., Chen, Y.P., Chethana, K.W.T., Coleine, C., Condé, T.O., Corazon-Guivin, M.A., Cortés-Pérez, A., Costa-Rezende, D.H., Courtecuisse, R., Crouch, J.A., Crous, P.W., Cui, B.K., Cui, Y.Y., da Silva, D.K.A., da Silva, G.A., da Silva, I.R., da Silva, R.M.F., da Silva Santos, A.C., Dai, D.Q., Dai, Y.C., Damm, U., Darmostuk, V., Daroodi, Z., Das, K., Davoodian, N., Davydov, E.A., Dayarathne, M.C., Decock, C., de Groot, M.D., De Kesel, A., dela Cruz, T.E.E., De Lange, R., Delgado, G., Denchev, C.M., Denchev, T.T., de Oliveira, N.T., de Silva, N.I., de Souza, F.A., Dentinger, B., Devadatha, B., Dianese, J.C., Dima, B., Diniz, A.G., Dissanayake, A.J., Dissanayake, L.S., Doğan, H.H., Doilom, M., Dolatabadi, S., Dong, W., Dong, Z.Y., Dos Santos, L.A., Drechsler-Santos, E.R., Du, T.Y., Dubey, M.K., Dutta, A.K., Egidi, E., Elliott, T.F., Elshahed, M.S., Erdoğdu, M., Ertz, D., Etayo, J., Evans, H.C., Fan, X.L., Fan, Y.G., Fedosova, A.G., Fell, J., Fernandes, I., Firmino, A.L., Fiuza, P.O., Flakus, A., Fragoso de Souza, C.A., Frisvad, J.C., Fryar, S.C., Gabaldón, T., Gajanayake, A.J., Galindo, L.J., Gannibal, P.B., García, D., García-Sandoval, S.R., Garrido-Benavent, I., Garzoli, L., Gautam, A.K., Ge, Z.W., Gené, D.J., Gentekaki, E., Ghobad-Nejhad, M., Giachini, A.J., T.b., Gibertoni, Góes-Neto, A., Gomdola, D., Gomes de Farias, A.R., Gorjón, S.P., Goto, B.T., Granados-Montero, M.M., Griffith, G.W., Groenewald, J.Z., Groenewald, M., Grossart, H.P., Gueidan, C., Gunarathne, A., Gunaseelan, S., Gusmão, L.F.P., Gutierrez, A.C., Guzmán-Dávalos, L., Haelewaters, D., Halling, R., Han, Y.F., Hapuarachchi, K.K., Harder, C.B., Harrington, T.C., Hattori, T., He, M.Q., He, S., He, S.H., Healy, R., Herández-Restrepo, M., Heredia, G., Hodge, K.T., Holgado-Rojas, M., Hongsanan, S., Horak, E., Hosoya, T., Houbraken, J., Huang, S.K., Huanraluek, N., Hur, J.S., Hurdeal, V.G., Hustad, V.P., Iotti, M., Iturriaga, T., Jafar, E., Janik, P., Jayalal, R.G.U., Jayasiri, S.C., Jayawardena, R.S., Jeewon, R., Jerônimo, G.H., Jesus, A.L., Jin, J., Johnston, P.R., Jones, E.B.G., Joshi, Y., Justo, A., Kaishian, P., Kakishima, M., Kaliyaperumal, M., Kang, G.P., Kang, J.C., Karimi, O., Karpov, S.A., Karunarathna, S.C., Kaufmann, M., Kemler, M., Kezo, K., Khyaju, S., Kirchmair, M., Kirk, P.M., Kitaura, M.J., Klawonn, I., Kolarik, M., Kong, A., Kuhar, F., Kukwa, M., Kumar, S., Kušan, I., Lado, C., Larsson, K.H., Latha, K.P.D., Lee, H.B., Leonardi, M., Leontyev, D.L., Lestari, A.S., Li, C.J.Y., Li, D.W., Li, H., Li, H.Y., Li, L., Li, Q.R., Li, W.L., Li, Y., Li, Y.C., Liao, C.F., Liimatainen, K., Lim, Y.W., Lin, C.G., Linaldeddu, B.T., Linde, C.C., Linn, M.M., Liu, F., Liu, J.K., Liu, N.G., Liu, S., Liu, S.L., Liu, X.F., Liu, X.Y., Liu, X.Z., Liu, Z.B., Lu, L., Lu, Y.Z., Luangharn, T., Luangsa-ard, J.J., Lumbsch, H.T., Lumyong, S., Luo, L., Luo, M., Luo, Z.L., Ma, J., Machado, A.R., Madagammana, A.D., Madrid, H., Magurno, F., Magyar, D., Mahadevan, N., Maharachchikumbura, S.S.N., Maimaiti, Y., Malosso, E., Manamgoda, D.S., Manawasinghe, I.S., Mapook, A., Marasinghe, D.S., Mardones, M., Marin-Felix, Y., Márquez, R., Masigol, H., Matočec, N., May, Tom W., McKenzie, E.H.C., Meiras-Ottoni, A., Melo, R.F.R., Mendes, A.R.L., Mendieta, S., Meng, Q.F., Menkis, A., Menolli, N Jr., Mešić, A., Meza Calvo, J.G., Mikhailov, K.V., Miller, S.L., Moncada, B., Moncalvo, J.M., Monteiro, J.S., Monteiro, M., Mora-Montes, H.M., Moreau, P.A., Mueller, G.M., Mukhopadyay, S., Murugadoss, R., Nagy, L.G., Najafiniya, M., Nanayakkara, C.M., Nascimento, C.C., Nei, Y., Neves, M.A., Neuhauser, S., Niego, A.G.T., Nilsson, R.H., Niskanen, T., Niveiro, N., Noorabadi, M.T., Noordeloos, M.E., Norphanphoun, C., Nuñez Otaño, N.B., O’Donnell, R.P., Oehl, F., Olariaga, I., Orlando, F.P., Pang, K.L., Papp, V., Pawłowska, J., Peintner, U., Pem, D., Pereira, Olinto Liparini, Perera, R.H., Perez-Moreno, J., Perez-Ortega, S., Péter, G., Phillips, A.J.L., Phonemany, M., Phukhamsakda, C., Phutthacharoen, K., Piepenbring, M., Pires-Zottarelli, C.L.A., Poinar, G., Pošta, A., Prieto, M., Promputtha, I., Quandt, C.A., Radek, R., Rahnama, K., Raj, K.N.A., Rajeshkumar, K.C., Rämä, Teppo, Rambold, G., Ramírez-Cruz, V., Rasconi, S., Rathnayaka, A.R., Raza, M., Ren, G.C., Robledo, G.L., Rodriguez-Flakus, P., Ronikier, A., Rossi, W., Ryberg, M., Ryvarden, L.R., Salvador-Montoya, C.A., Samant, B., Samarakoon, B.C., Samarakoon, M.C., Sánchez-Castro, I., Sánchez-García, M., Sandoval-Denis, M., Santiago, A.L.C.M.A., Santamaria, B., Santos, A.C.S., Sarma, V.V., Savchenko, A., Savchenko, K., Saxena, R.K., Scholler, M., Schoutteten, N., Seifollahi, E., Selbmann, Laura, Selcuk, F., Senanayake, I.C., Seto, K., Shabashova, T.G., Shen, H.W., Shen, Y.M., Silva-Filho, A.G.S., Simmons, D.R., Singh, R., Sir, E.B., Song, C.G., Souza-Motta C.M. Sruthi, O.P., Stadler, M., Stchigel, A.M., Stemler, J., Stephenson, S.L., Strassert, J.F.H., Su, H.L., Su, L., Suetrong, S., Sulistyo, B., Sun, Y.F., Sun, Y.R., Svantesson, S., Sysouphanthong, P., Takamatsu, S., Tan, T.H., Tanaka, Kazuaki, Tang, A.M.C., Tang, X., Tanney, J.B., Tavakol, N.M., Taylor, J.E., Taylor, P.W.J., Tedersoo, L., Tennakoon, D.S., Thamodini, G.K., Thines, Marco, Thiyagaraja, V., Thongklang, N., Tiago, P.V., Tian, Q., Tian, W.H., Tibell, L., Tibell, S., Tibpromma, S., Tkalčec, Z., Tomšovský, M., Toome-Heller, M., Torruella, G., Tsurykau, A., Udayanga, Dhanushka, Ulukapi, M., Untereiner, W.A., Uzunov, B.A., Valle, L.G., Van Caenegem, W., Van den Wyngaert, S., Van Vooren, N., Velez, P., Verma, R.K., Vieira, L.C., Vieira, W.A.S., Vizzini, A., Walker, A., Walker, A.K., Wanasinghe, D.N., Wang, C.G., Wang, K., Wang, S.X., Wang, X.Y., Wang, Y., Wannasawang, N., Wartchow, F., Wei, D.P., Wei, X.L., White, J.F., Wijayawardene, N.N., Wijesinghe, S.N., Wijesundara, D.S.A., Wisitrassameewong, K., Worthy, F.R., Wu, F., Wu, G., Wu, H.X., Wu, N., Wu, W.P., Wurzbacher, C., Xiao, Y.P., Xiong, Y.R., Xu, L.J., Xu, R., Xu, R.F., Xu, R.J., Xu, T.M., Yakovchenko, L., Yan, J.Y., Yang, H., Yang, J., Yang, Z.L., Yang, Y.H., Yapa, N., Yasanthika, E., Youssef, N.H., Yu, F.M., Yu, Q., Yu, X.D., Yu, Y.X., Yu, Z.F., Yuan, H.S., Yuan, Y., Yurkov, Andrey, Zafari, D., Zamora, Juan Carlos, Zare, Rasoul, Zeng, M., Zeng, N.K., Zeng, X.Y., Zhang, F., Zhang, H., Zhang, J.F., Zhang, J.Y., Zhang, Q.Y., Zhang, S.N., Zhang, W., Zhang, Y., Zhang, Y.X., Zhao, C.L., Zhao, H., Zhao, Q., Zhao, R.L., Zhou, L.W., Zhou, M., Zhurbenko, M.P., Zin, H.H., and Zucconi, L.

Abstract

The Global Consortium for the Classification of Fungi and fungus-like taxa is an international initiative of more than 550 mycologists to develop an electronic structure for the classification of these organisms. The members of the Consortium originate from 55 countries/regions worldwide, from a wide range of disciplines, and include senior, mid-career and early-career mycologists and plant pathologists. The Consortium will publish a biannual update of the Outline of Fungi and fungus-like taxa, to act as an international scheme for other scientists. Notes on all newly published taxa at or above the level of species will be prepared and published online on the Outline of Fungi website (https://www.outlineoffungi.org/), and these will be finally published in the biannual edition of the Outline of Fungi and fungus-like taxa. Comments on recent important taxonomic opinions on controversial topics will be included in the biannual outline. For example, ‘to promote a more stable taxonomy in Fusarium given the divergences over its generic delimitation’, or ‘are there too many genera in the Boletales?’ and even more importantly, ‘what should be done with the tremendously diverse ‘dark fungal taxa?’ There are undeniable differences in mycologists’ perceptions and opinions regarding species classification as well as the establishment of new species. Given the pluralistic nature of fungal taxonomy and its implications for species concepts and the nature of species, this consortium aims to provide a platform to better refine and stabilise fungal classification, taking into consideration views from different parties. In the future, a confidential voting system will be set up to gauge the opinions of all mycologists in the Consortium on important topics. The results of such surveys will be presented to the International Commission on the Taxonomy of Fungi (ICTF) and the Nomenclature Committee for Fungi (NCF) with opinions and percentages of votes for and against. Criticisms based

Published

2023

10. Global consortium for the classification of fungi and fungus-like taxa

Author

Hyde, KD, Abdel-Wahab, MA, Abdollahzadeh, J, Abeywickrama, PD, Absalan, S, Afshari, N, Ainsworth, AM, Akulov, OY, Aleoshin, VV, Al-Sadi, AM, Alvarado, P, Alves, A, Alves-Silva, G, Amalfi, M, Amira, Y, Amuhenage, TB, Anderson, J, Antonín, V, Aouali, S, Aptroot, A, Apurillo, CCS, Araújo, JPM, Ariyawansa, HA, Armand, A, Arumugam, E, Asghari, R, Assis, DMA, Atienza, V, Avasthi, S, Azevedo, E, Bahkali, AH, Bakhshi, M, Banihashemi, Z, Bao, DF, Baral, HO, Barata, M, Barbosa, F, Barbosa, RN, Barreto, RW, Baschien, C, Belamesiatseva, DB, Bennett Reuel, M, Bera, I, Bezerra, JDP, Bezerra, JL, Bhat, DJ, Bhunjun, CS, Bianchinotti, MV, Błaszkowski, J, Blondelle, A, Boekhout, T, Bonito, G, Boonmee, S, Boonyuen, N, Bregant, C, Buchanan, P, Bundhun, D, Burgaud, G, Burgess, T, Buyck, B, Cabarroi-Hernández, M, Cáceres, MES, Caeiro, MF, Cai, L, Cai, MF, Calabon, MS, Calaça, FJS, Callalli, M, Cano-Lira, JF, Cantillo, T, Cao, B, Carlavilla, JR, Carvalho, A, Castañeda-Ruiz, RF, Castlebury, L, Castro-Jauregui, O, Catania, MDV, Cavalcanti, LH, Cazabonne, J, Cedeño-Sanchez, ML, Chaharmiri-Dokhaharani, S, Chaiwan, N, Chakraborty, N, Chaverri, P, Cheewangkoon, R, Chen, C, Chen, CY, Chen, KH, Chen, J, Chen, Q, Chen, WH, Chen, YP, Chethana, KWT, Coleine, C, Condé, TO, Corazon-Guivin, MA, Cortés-Pérez, A, Costa-Rezende, DH, Courtecuisse, R, Crouch, JA, Crous, PW, Cui, BK, Cui, YY, da Silva, DKA, da Silva, GA, da Silva, IR, da Silva, RMF, da Silva Santos, AC, Dai, DQ, Dai, YC, Damm, U, Darmostuk, V, Daroodi, Zoha, Das, K, Davoodian, N, Davydov, EA, Dayarathne, MC, Decock, C, de Groot, MD, De Kesel, A, dela Cruz, TEE, De Lange, R, Delgado, G, Denchev, CM, Denchev, TT, de Oliveira, NT, de Silva, NI, de Souza, FA, Dentinger, B, Devadatha, B, Dianese, JC, Dima, B, Diniz, AG, Dissanayake, AJ, Dissanayake, LS, Doğan, HH, Doilom, M, Dolatabadi, S, Dong, W, Dong, ZY, Dos Santos, LA, Drechsler-Santos, ER, Du, TY, Dubey, MK, Dutta, AK, Egidi, E, Elliott, TF, Elshahed, MS, Erdoğdu, M, Ertz, D, Etayo, J, Evans, HC, Fan, XL, Fan, YG, Fedosova, AG, Fell, J, Fernandes, I, Firmino, AL, Fiuza, PO, Flakus, A, Fragoso de Souza, CA, Frisvad, JC, Fryar, SC, Gabaldón, T, Gajanayake, AJ, Galindo, LJ, Gannibal, PB, García, D, García-Sandoval, SR, Garrido-Benavent, I, Garzoli, L, Gautam, AK, Ge, ZW, Gené, DJ, Gentekaki, E, Ghobad-Nejhad, M, Giachini, AJ, Gibertoni, TB, Góes-Neto, A, Gomdola, D, Gomes de Farias, AR, Gorjón, SP, Goto, BT, Granados-Montero, MM, Griffith, GW, Groenewald, JZ, Groenewald, M, Grossart, HP, Gueidan, C, Gunarathne, A, Gunaseelan, S, Gusmão, LFP, Gutierrez, AC, Guzmán-Dávalos, L, Haelewaters, D, Halling, R, Han, YF, Hapuarachchi, KK, Harder, CB, Harrington, TC, Hattori, T, He, MQ, He, S, He, SH, Healy, R, Herández-Restrepo, M, Heredia, G, Hodge, KT, Holgado-Rojas, M, Hongsanan, S, Horak, E, Hosoya, T, Houbraken, J, Huang, SK, Huanraluek, N, Hur, JS, Hurdeal, VG, Hustad, VP, Iotti, M, Iturriaga, T, Jafar, E, Janik, P, Jayalal, RGU, Jayasiri, SC, Jayawardena, RS, Jeewon, R, Jerônimo, GH, Jesus, AL, Jin, J, Johnston, PR, Jones, EBG, Joshi, Y, Justo, A, Kaishian, P, Kakishima, M, Kaliyaperumal, M, Kang, GP, Kang, JC, Karimi, O, Karpov, SA, Karunarathna, SC, Kaufmann, M, Kemler, M, Kezo, K, Khyaju, S, Kirchmair, M, Kirk, PM, Kitaura, MJ, Klawonn, I, Kolarik, M, Kong, A, Kuhar, F, Kukwa, M, Kumar, S, Kušan, I, Lado, C, Larsson, KH, Latha, KPD, Lee, HB, Leonardi, M, Leontyev, DL, Lestari, AS, Li, CJY, Li, DW, Li, H, Li, HY, Li, L, Li, QR, Li, WL, Li, Y, Li, YC, Liao, CF, Liimatainen, K, Lim, YW, Lin, CG, Linaldeddu, BT, Linde, CC, Linn, MM, Liu, F, Liu, JK, Liu, NG, Liu, S, Liu, SL, Liu, XF, Liu, XY, Liu, XZ, Liu, ZB, Lu, L, Lu, YZ, Luangharn, T, Luangsaard, JJ, Lumbsch, HT, Lumyong, S, Luo, L, Luo, M, Luo, ZL, Ma, J, Machado, AR, Madagammana, AD, Madrid, H, Magurno, F, Magyar, D, Mahadevan, N, Maharachchikumbura, SSN, Maimaiti, Y, Malosso, E, Manamgoda, DS, Manawasinghe, IS, Mapook, A, Marasinghe, DS, Mardones, M, Marin-Felix, Y, Márquez, R, Masigol, H, Matočec, N, May, T, McKenzie, EHC, Meiras-Ottoni, A, Melo, RFR, Mendes, ARL, Mendieta, S, Meng, QF, Menkis, A, Menolli Jr, N, Mešić, A, Meza Calvo, JG, Mikhailov, KV, Miller, SL, Moncada, B, Moncalvo, JM, Monteiro, JS, Monteiro, M, Mora-Montes, HM, Moreau, PA, Mueller, GM, Mukhopadyay, S, Murugadoss, R, Nagy, LG, Najafiniya, M, Nanayakkara, CM, Nascimento, CC, Nei, Y, Neves, MA, Neuhauser, S, Niego, AGT, Nilsson, RH, Niskanen, T, Niveiro, N, Noorabadi, MT, Noordeloos, (Machiel E.), Norphanphoun, C, Nuñez Otaño, NB, O’Donnell, RP, Oehl, F, Olariaga, I, Orlando, FP, Pang, KL, Papp, V, Pawłowska, J, Peintner, U, Pem, D, Pereira, OL, Perera, RH, Perez-Moreno, J, Perez-Ortega, S, Péter, G, Phillips, AJL, Phonemany, M, Phukhamsakda, C, Phutthacharoen, K, Piepenbring, M, Pires-Zottarelli, CLA, Poinar, G, Pošta, A, Prieto, M, Promputtha, I, Quandt, CA, Radek, R, Rahnama, K, Raj, KNA, Rajeshkumar, KC, Rämä, T, Rambold, G, Ramírez-Cruz, V, Rasconi, S, Rathnayaka, AR, Raza, M, Ren, GC, Robledo, GL, Rodriguez-Flakus, P, Ronikier, A, Rossi, W, Ryberg, M, Ryvarden, LR, Salvador‑Montoya, CA, Samant, B, Samarakoon, BC, Samarakoon, MC, Sánchez-Castro, I, Sánchez-García, M, Sandoval-Denis, M, Santiago, ALCMA, Santamaria, B, Santos, ACS, Sarma, VV, Savchenko, A, Savchenko, K, Saxena, RK, Scholler, M, Schoutteten, N, Seifollahi, E, Selbmann, L, Selcuk, F, Senanayake, IC, Shabashova, TG, Shen, HW, Shen, YM, SilvaFilho, AGS, Simmons, DR, Singh, R, Sir, EB, Song, Chang-Ge, Souza-Motta, CM, Sruthi, OP, Stadler, M, Stchigel, AM, Stemler, J, Stephenson, SL, Strassert, JFH, Su, HL, Su, L, Suetrong, S, Sulistyo, B, Sun, YF, Sun, YR, Svantesson, Sten, Sysouphanthong, P, Takamatsu, S, Tan, TH, Tanaka, K, Tang, AMC, Tang, X, Tanney, JB, Tavakol, NM, Taylor, JE, Taylor, PWJ, Tedersoo, L, Tennakoon, DS, Thamodini, GK, Thines, M, Thiyagaraja, V, Thongklang, N, Tiago, PV, Tian, Q, Tian, WH, Tibell, L, Tibell, S, Tibpromma, S, Tkalčec, Z, Tomšovský, M, Toome-Heller, M, Torruella, G, Tsurykau, A, Udayanga, D, Ulukapi, M, Untereiner, WA, Uzunov, BA, Valle, LG, Van Caenegem, W, Van den Wyngaert, S, Van Vooren, N, Velez, P, Verma, RK, Vieira, LC, Vieira, WAS, Vizzini, A, Walker, A, Walker, AK, Wanasinghe, DN, Wang, CG, Wang, K, Wang, SX, Wang, XY, Wang, Y, Wannasawang, N, Wartchow, F, Wei, DP, Wei, XL, White, JF, Wijayawardene, NN, Wijesinghe, SN, Wijesundara, DSA, Wisitrassameewong, K, Worthy, FR, Wu, F, Wu, G, Wu, HX, Wu, N, Wu, WP, Wurzbacher, C, Xiao, YP, Xiong, YR, Xu, LJ, Xu, R, Xu, RF, Xu, RJ, Xu, TM, Yakovchenko, L, Yan, JY, Yang, H, Yang, J, Yang, ZL, Yang, YH, Yapa, N, Yasanthika, E, Youssef, NH, Yu, FM, Yu, Q, Yu, YX, Yu, ZF, Yuan, HS, Yuan, Y, Yurkov, A, Zafari, D, Zamora, JC, Zare, R, Zeng, M, Zeng, NK, Zeng, XY, Zhang, F, Zhang, H, Zhang, JF, Zhang, JY, Zhang, QY, Zhang, SN, Zhang, W, Zhang, Y, Zhang, YX, Zhao, CL, Zhao, H, Zhao, Q, Zhao, RL, Zhou, LW, Zhou, M, Zhurbenko, MP, Zin, HH, Zucconi, L, Hyde, KD, Abdel-Wahab, MA, Abdollahzadeh, J, Abeywickrama, PD, Absalan, S, Afshari, N, Ainsworth, AM, Akulov, OY, Aleoshin, VV, Al-Sadi, AM, Alvarado, P, Alves, A, Alves-Silva, G, Amalfi, M, Amira, Y, Amuhenage, TB, Anderson, J, Antonín, V, Aouali, S, Aptroot, A, Apurillo, CCS, Araújo, JPM, Ariyawansa, HA, Armand, A, Arumugam, E, Asghari, R, Assis, DMA, Atienza, V, Avasthi, S, Azevedo, E, Bahkali, AH, Bakhshi, M, Banihashemi, Z, Bao, DF, Baral, HO, Barata, M, Barbosa, F, Barbosa, RN, Barreto, RW, Baschien, C, Belamesiatseva, DB, Bennett Reuel, M, Bera, I, Bezerra, JDP, Bezerra, JL, Bhat, DJ, Bhunjun, CS, Bianchinotti, MV, Błaszkowski, J, Blondelle, A, Boekhout, T, Bonito, G, Boonmee, S, Boonyuen, N, Bregant, C, Buchanan, P, Bundhun, D, Burgaud, G, Burgess, T, Buyck, B, Cabarroi-Hernández, M, Cáceres, MES, Caeiro, MF, Cai, L, Cai, MF, Calabon, MS, Calaça, FJS, Callalli, M, Cano-Lira, JF, Cantillo, T, Cao, B, Carlavilla, JR, Carvalho, A, Castañeda-Ruiz, RF, Castlebury, L, Castro-Jauregui, O, Catania, MDV, Cavalcanti, LH, Cazabonne, J, Cedeño-Sanchez, ML, Chaharmiri-Dokhaharani, S, Chaiwan, N, Chakraborty, N, Chaverri, P, Cheewangkoon, R, Chen, C, Chen, CY, Chen, KH, Chen, J, Chen, Q, Chen, WH, Chen, YP, Chethana, KWT, Coleine, C, Condé, TO, Corazon-Guivin, MA, Cortés-Pérez, A, Costa-Rezende, DH, Courtecuisse, R, Crouch, JA, Crous, PW, Cui, BK, Cui, YY, da Silva, DKA, da Silva, GA, da Silva, IR, da Silva, RMF, da Silva Santos, AC, Dai, DQ, Dai, YC, Damm, U, Darmostuk, V, Daroodi, Zoha, Das, K, Davoodian, N, Davydov, EA, Dayarathne, MC, Decock, C, de Groot, MD, De Kesel, A, dela Cruz, TEE, De Lange, R, Delgado, G, Denchev, CM, Denchev, TT, de Oliveira, NT, de Silva, NI, de Souza, FA, Dentinger, B, Devadatha, B, Dianese, JC, Dima, B, Diniz, AG, Dissanayake, AJ, Dissanayake, LS, Doğan, HH, Doilom, M, Dolatabadi, S, Dong, W, Dong, ZY, Dos Santos, LA, Drechsler-Santos, ER, Du, TY, Dubey, MK, Dutta, AK, Egidi, E, Elliott, TF, Elshahed, MS, Erdoğdu, M, Ertz, D, Etayo, J, Evans, HC, Fan, XL, Fan, YG, Fedosova, AG, Fell, J, Fernandes, I, Firmino, AL, Fiuza, PO, Flakus, A, Fragoso de Souza, CA, Frisvad, JC, Fryar, SC, Gabaldón, T, Gajanayake, AJ, Galindo, LJ, Gannibal, PB, García, D, García-Sandoval, SR, Garrido-Benavent, I, Garzoli, L, Gautam, AK, Ge, ZW, Gené, DJ, Gentekaki, E, Ghobad-Nejhad, M, Giachini, AJ, Gibertoni, TB, Góes-Neto, A, Gomdola, D, Gomes de Farias, AR, Gorjón, SP, Goto, BT, Granados-Montero, MM, Griffith, GW, Groenewald, JZ, Groenewald, M, Grossart, HP, Gueidan, C, Gunarathne, A, Gunaseelan, S, Gusmão, LFP, Gutierrez, AC, Guzmán-Dávalos, L, Haelewaters, D, Halling, R, Han, YF, Hapuarachchi, KK, Harder, CB, Harrington, TC, Hattori, T, He, MQ, He, S, He, SH, Healy, R, Herández-Restrepo, M, Heredia, G, Hodge, KT, Holgado-Rojas, M, Hongsanan, S, Horak, E, Hosoya, T, Houbraken, J, Huang, SK, Huanraluek, N, Hur, JS, Hurdeal, VG, Hustad, VP, Iotti, M, Iturriaga, T, Jafar, E, Janik, P, Jayalal, RGU, Jayasiri, SC, Jayawardena, RS, Jeewon, R, Jerônimo, GH, Jesus, AL, Jin, J, Johnston, PR, Jones, EBG, Joshi, Y, Justo, A, Kaishian, P, Kakishima, M, Kaliyaperumal, M, Kang, GP, Kang, JC, Karimi, O, Karpov, SA, Karunarathna, SC, Kaufmann, M, Kemler, M, Kezo, K, Khyaju, S, Kirchmair, M, Kirk, PM, Kitaura, MJ, Klawonn, I, Kolarik, M, Kong, A, Kuhar, F, Kukwa, M, Kumar, S, Kušan, I, Lado, C, Larsson, KH, Latha, KPD, Lee, HB, Leonardi, M, Leontyev, DL, Lestari, AS, Li, CJY, Li, DW, Li, H, Li, HY, Li, L, Li, QR, Li, WL, Li, Y, Li, YC, Liao, CF, Liimatainen, K, Lim, YW, Lin, CG, Linaldeddu, BT, Linde, CC, Linn, MM, Liu, F, Liu, JK, Liu, NG, Liu, S, Liu, SL, Liu, XF, Liu, XY, Liu, XZ, Liu, ZB, Lu, L, Lu, YZ, Luangharn, T, Luangsaard, JJ, Lumbsch, HT, Lumyong, S, Luo, L, Luo, M, Luo, ZL, Ma, J, Machado, AR, Madagammana, AD, Madrid, H, Magurno, F, Magyar, D, Mahadevan, N, Maharachchikumbura, SSN, Maimaiti, Y, Malosso, E, Manamgoda, DS, Manawasinghe, IS, Mapook, A, Marasinghe, DS, Mardones, M, Marin-Felix, Y, Márquez, R, Masigol, H, Matočec, N, May, T, McKenzie, EHC, Meiras-Ottoni, A, Melo, RFR, Mendes, ARL, Mendieta, S, Meng, QF, Menkis, A, Menolli Jr, N, Mešić, A, Meza Calvo, JG, Mikhailov, KV, Miller, SL, Moncada, B, Moncalvo, JM, Monteiro, JS, Monteiro, M, Mora-Montes, HM, Moreau, PA, Mueller, GM, Mukhopadyay, S, Murugadoss, R, Nagy, LG, Najafiniya, M, Nanayakkara, CM, Nascimento, CC, Nei, Y, Neves, MA, Neuhauser, S, Niego, AGT, Nilsson, RH, Niskanen, T, Niveiro, N, Noorabadi, MT, Noordeloos, (Machiel E.), Norphanphoun, C, Nuñez Otaño, NB, O’Donnell, RP, Oehl, F, Olariaga, I, Orlando, FP, Pang, KL, Papp, V, Pawłowska, J, Peintner, U, Pem, D, Pereira, OL, Perera, RH, Perez-Moreno, J, Perez-Ortega, S, Péter, G, Phillips, AJL, Phonemany, M, Phukhamsakda, C, Phutthacharoen, K, Piepenbring, M, Pires-Zottarelli, CLA, Poinar, G, Pošta, A, Prieto, M, Promputtha, I, Quandt, CA, Radek, R, Rahnama, K, Raj, KNA, Rajeshkumar, KC, Rämä, T, Rambold, G, Ramírez-Cruz, V, Rasconi, S, Rathnayaka, AR, Raza, M, Ren, GC, Robledo, GL, Rodriguez-Flakus, P, Ronikier, A, Rossi, W, Ryberg, M, Ryvarden, LR, Salvador‑Montoya, CA, Samant, B, Samarakoon, BC, Samarakoon, MC, Sánchez-Castro, I, Sánchez-García, M, Sandoval-Denis, M, Santiago, ALCMA, Santamaria, B, Santos, ACS, Sarma, VV, Savchenko, A, Savchenko, K, Saxena, RK, Scholler, M, Schoutteten, N, Seifollahi, E, Selbmann, L, Selcuk, F, Senanayake, IC, Shabashova, TG, Shen, HW, Shen, YM, SilvaFilho, AGS, Simmons, DR, Singh, R, Sir, EB, Song, Chang-Ge, Souza-Motta, CM, Sruthi, OP, Stadler, M, Stchigel, AM, Stemler, J, Stephenson, SL, Strassert, JFH, Su, HL, Su, L, Suetrong, S, Sulistyo, B, Sun, YF, Sun, YR, Svantesson, Sten, Sysouphanthong, P, Takamatsu, S, Tan, TH, Tanaka, K, Tang, AMC, Tang, X, Tanney, JB, Tavakol, NM, Taylor, JE, Taylor, PWJ, Tedersoo, L, Tennakoon, DS, Thamodini, GK, Thines, M, Thiyagaraja, V, Thongklang, N, Tiago, PV, Tian, Q, Tian, WH, Tibell, L, Tibell, S, Tibpromma, S, Tkalčec, Z, Tomšovský, M, Toome-Heller, M, Torruella, G, Tsurykau, A, Udayanga, D, Ulukapi, M, Untereiner, WA, Uzunov, BA, Valle, LG, Van Caenegem, W, Van den Wyngaert, S, Van Vooren, N, Velez, P, Verma, RK, Vieira, LC, Vieira, WAS, Vizzini, A, Walker, A, Walker, AK, Wanasinghe, DN, Wang, CG, Wang, K, Wang, SX, Wang, XY, Wang, Y, Wannasawang, N, Wartchow, F, Wei, DP, Wei, XL, White, JF, Wijayawardene, NN, Wijesinghe, SN, Wijesundara, DSA, Wisitrassameewong, K, Worthy, FR, Wu, F, Wu, G, Wu, HX, Wu, N, Wu, WP, Wurzbacher, C, Xiao, YP, Xiong, YR, Xu, LJ, Xu, R, Xu, RF, Xu, RJ, Xu, TM, Yakovchenko, L, Yan, JY, Yang, H, Yang, J, Yang, ZL, Yang, YH, Yapa, N, Yasanthika, E, Youssef, NH, Yu, FM, Yu, Q, Yu, YX, Yu, ZF, Yuan, HS, Yuan, Y, Yurkov, A, Zafari, D, Zamora, JC, Zare, R, Zeng, M, Zeng, NK, Zeng, XY, Zhang, F, Zhang, H, Zhang, JF, Zhang, JY, Zhang, QY, Zhang, SN, Zhang, W, Zhang, Y, Zhang, YX, Zhao, CL, Zhao, H, Zhao, Q, Zhao, RL, Zhou, LW, Zhou, M, Zhurbenko, MP, Zin, HH, and Zucconi, L

Abstract

The Global Consortium for the Classification of Fungi and fungus-like taxa is an international initiative of more than 550 mycologists to develop an electronic structure for the classification of these organisms. The members of the Consortium originate from 55 countries/regions worldwide, from a wide range of disciplines, and include senior, mid-career and early-career mycologists and plant pathologists. The Consortium will publish a biannual update of the Outline of Fungi and funguslike taxa, to act as an international scheme for other scientists. Notes on all newly published taxa at or above the level of species will be prepared and published online on the Outline of Fungi website (https://www.outlineoffungi.org/), and these will be finally published in the biannual edition of the Outline of Fungi and fungus-like taxa. Comments on recent important taxonomic opinions on controversial topics will be included in the biannual outline. For example, ‘to promote a more stable taxonomy in Fusarium given the divergences over its generic delimitation’, or ‘are there too many genera in the Boletales?’ and even more importantly, ‘what should be done with the tremendously diverse ‘dark fungal taxa?’ There are undeniable differences in mycologists’ perceptions and opinions regarding species classification as well as the establishment of new species. Given the pluralistic nature of fungal taxonomy and its implications for species concepts and the nature of species, this consortium aims to provide a platform to better refine and stabilise fungal classification, taking into consideration views from different parties. In the future, a confidential voting system will be set up to gauge the opinions of all mycologists in the Consortium on important topics. The results of such surveys will be presented to the International Commission on the Taxonomy of Fungi (ICTF) and the Nomenclature Committee for Fungi (NCF) with opinions and percentages of votes for and against. Criticisms based o

Published

2023

11. Global consortium for the classification of fungi and fungus-like taxa

Author

Hyde, K. D., Abdel-Wahab, M. A., Abdollahzadeh, J., Abeywickrama, P. D., Absalan, S., Afshari, N., Ainsworth, A. M., Akulov, O. Y., Aleoshin, V. V., Al-Sadi, A. M., Alvarado, P., Alves, A., Alves-Silva, G., Amalfi, M., Amira, Y., Amuhenage, T. B., Anderson, J. L., Antonín, V., Aouali, S., Aptroot, A., Apurillo, C. C. S., Araújo, J. P.M., Ariyawansa, H. A., Armand, A., Arumugam, E., Asghari, R., Assis, D. M.A., Atienza, V., Avasthi, S., Azevedo, E., Bahkali, A. H., Bakhshi, M., Banihashemi, Z., Bao, D. F., Baral, H. O., Barata, M., Barbosa, F. R., Barbosa, R. N., Barreto, R. W., Baschien, C., Belamesiatseva, D. B., Reuel, M. Bennett, Bera, I., Bezerra, J. D. P., Bezerra, J. L., Bhat, D. J., Bhunjun, C. S., Bianchinotti, M. V., Błaszkowski, J., Blondelle, A., Boekhout, T., Bonito, G., Boonmee, S., Boonyuen, N., Bregant, C., Buchanan, P., Bundhun, D., Burgaud, G., Burgess, T., Buyck, B., Cabarroi-Hernández, M., Cáceres, M. E. S., Caeiro, M. F., Cai, L., Cai, M. F., Calabon, M. S., Calaça, F. J. S., Callalli, M., Camara, M. P. S., Cano-Lira, J. F., Cantillo, T., Cao, B., Carlavilla, J. R., Carvalho, A., Castañeda-Ruiz, R. F., Castlebury, L., Castro-Jauregui, O., Catania, M. D., Cavalcanti, L. H., Cazabonne, J., Cedeño-Sanchez, M. L., Chaharmiri-Dokhaharani, S., Chaiwan, N., Chakraborty, N., Chaverri, P., Cheewangkoon, R., Chen, C., Chen, C. Y., Chen, K. H., Chen, J., Chen, Q., Chen, W. H., Chen, Y. P., Chethana, K. W. T., Coleine, C., Condé, T. O., Corazon-Guivin, M. A., Cortés-Pérez, A., Costa-Rezende, D. H., Courtecuisse, R., Crouch, J. A., Crous, P. W., Cui, B. K., Cui, Y. Y., da Silva, D. K. A., da Silva, G. A., da Silva, I. R., da Silva, R. M. F., da Silva Santos, A. C., Dai, D. Q., Dai, Y. C., Damm, U., Darmostuk, V., Zoha, Daroodi, Das, K., Davoodian, N., Davydov, E. A., Dayarathne, M. C., Decock, C., de Groot, M. D., De Kesel, A., de la Cruz, T. E. E., De Lange, R., Delgado, G., Denchev, C. M., Denchev, T. T., de Oliveira, N. T., de Silva, N. I., de Souza, F. A., Dentinger, B., Devadatha, B., Dianese, J. C., Dima, B., Diniz, A. G., Dissanayake, A. J., Dissanayake, L. S., Doğan, H. H., Doilom, M., Dolatabadi, S., Dong, W., Dong, Z. Y., Dos Santos, L. A., Drechsler-Santos, E. R., Du, T. Y., Dubey, M. K., Dutta, A. K., Egidi, E., Elliott, T. F., Elshahed, M. S., Erdoğdu, M., Ertz, D., Etayo, J., Evans, H. C., Fan, X. L., Fan, Y. G., Fedosova, A. G., Fell, J., Fernandes, I., Firmino, A. L., Fiuza, P. O., Flakus, A., de Souza, C. A.Fragoso, Frisvad, J. C., Fryar, S. C., Gabaldón, T., Gajanayake, A. J., Galindo, L. J., Gannibal, P. B., García, D., García-Sandoval, S. R., Garrido-Benavent, I., Garzoli, L., Gautam, A. K., Ge, Z. W., Gené, D. J., Gentekaki, E., Ghobad-Nejhad, M., Giachini, A. J., Gibertoni, T. B., Góes-Neto, A., Gomdola, D., de Farias, A. R. Gomes, Gorjón, S. P., Goto, B. T., Granados-Montero, M. M., Griffith, G. W., Groenewald, J. Z., Groenewald, M., Grossart, H. P., Gueidan, C., Gunarathne, A., Gunaseelan, S., Gusmão, L. F.P., Gutierrez, A. C., Guzmán-Dávalos, L., Haelewaters, D., Halling, R., Han, Y. F., Hapuarachchi, K. K., Harder, C. B., Harrington, T. C., Hattori, T., He, M. Q., He, S., He, S. H., Healy, R., Herández-Restrepo, M., Heredia, G., Hodge, K. T., Holgado-Rojas, M., Hongsanan, S., Horak, E., Hosoya, T., Houbraken, J., Huang, S. K., Huanraluek, N., Hur, J. S., Hurdeal, V. G., Hustad, V. P., Iotti, M., Iturriaga, T., Jafar, E., Janik, P., Jany, J. L., Jayalal, R. G.U., Jayasiri, S. C., Jayawardena, R. S., Jeewon, R., Jerônimo, G. H., Jesus, A. L., Jin, J., Johnston, P. R., Jones, E. B.G., Joshi, Y., Justo, A., Kaishian, P., Kakishima, M., Kaliyaperumal, M., Kang, G. P., Kang, J. C., Karakehian, J. M., Karimi, O., Karpov, S. A., Karunarathna, S. C., Kaufmann, M., Kemler, M., Kezo, K., Khyaju, S., Kirchmair, M., Kirk, P. M., Kitaura, M. J., Klawonn, I., Kolarik, M., Kong, A., Kuhar, F., Kukwa, M., Kumar, S., Kušan, I., Lado, C., Larsson, K. H., Latha, K. P.D., Lee, H. B., Leonardi, M., Leontyev, D. L., Lestari, A. S., Li, C. J.Y., Li, D. W., Li, H. Y., Li, L., Li, Q. R., Li, W. L., Li, Y., Li, Y. C., Liao, C. F., Liimatainen, K., Lim, Y. W., Lin, C. G., Linaldeddu, B. T., Linde, C. C., Linn, M. M., Liu, F., Liu, J. K., Liu, N. G., Liu, S., Liu, X. F., Liu, X. Z., Liu, Z. B., Lu, L., Lu, Y. Z., Luangharn, T., Luangsa-ard, J. J., Lumbsch, H. T., Lumyong, S., Luo, L., Luo, M., Luo, Z. L., Ma, J., Machado, A. R., Madagammana, A. D., Madrid, H., Magurno, F., Magyar, D., Mahadevan, N., Maharachchikumbura, S. S.N., Maimaiti, Y., Malosso, E., Manamgoda, D. S., Manawasinghe, I. S., Mapook, A., Marasinghe, D. S., Mardones, M., Marin-Felix, Y., Márquez, R., Masigol, H., Matočec, N., May, T. W., McKenzie, E. H.C., Meiras-Ottoni, A., Melo, R. F.R., Mendes-Alvarenga, R. L., Mendieta, S., Meng, Q. F., Menkis, A., Menolli, N., Mešić, A., Calvo, J. G.Meza, Mikhailov, K. V., Miller, S. L., Moncada, B., Moncalvo, J. M., Monteiro, J. S., Monteiro, M., Mora-Montes, H. M., Moreau, P. A., Mueller, G. M., Mukhopadyay, S., Murugadoss, R., Nagy, L. G., Najafiniya, M., Nanayakkara, C. M., Nascimento, C. C., Nei, Y., Neves, M. A., Neuhauser, S., Niego, A. G.T., Nilsson, R. H., Niskanen, T., Niveiro, N., Noorabadi, M. T., Noordeloos, M. E., Norphanphoun, C., Otaño, N. B.Nuñez, O’Donnell, R. P., Oehl, F., Olariaga, I., Orlando, O. P., Pang, K. L., Papp, V., Pawłowska, J., Peintner, U., Pem, D., Pereira, O. L., Perera, R. H., Perez-Moreno, J., Perez-Ortega, S., Péter, G., Phillips, A. J.L., Phonemany, M., Phukhamsakda, C., Phutthacharoen, K., Piepenbring, M., Pires-Zottarelli, C. L.A., Poinar, G., Pošta, A., Prieto, M., Promputtha, I., Quandt, C. A., Radek, R., Rahnama, K., Raj, K. N.A., Rajeshkumar, K. C., Rämä, T., Rambold, G., Ramírez-Cruz, V., Rasconi, S., Rathnayaka, A. R., Raza, M., Ren, G. C., Robledo, G. L., Rodriguez-Flakus, P., Ronikier, A., Rossi, W., Ryberg, M., Ryvarden, L. R., Salvador-Montoya, C. A., Samant, B., Samarakoon, B. C., Samarakoon, M. C., Sánchez-Castro, I., Sánchez-García, M., Sandoval-Denis, M., Santamaria, B., Santiago, A. L.C.M.A., Sarma, V. V., Savchenko, A., Savchenko, K., Saxena, R. K., Scholler, M., Schoutteten, N., Seifollahi, E., Selbmann, L., Selcuk, F., Senanayake, I. C., Shabashova, T. G., Shen, H. W., Shen, Y. M., Silva-Filho, A. G.S., Simmons, D. R., Singh, R., Sir, E. B., Song, C. G., Souza-Motta, C. M., Sruthi, O. P., Stadler, M., Stchigel, A. M., Stemler, J., Stephenson, S. L., Strassert, J. F.H., Su, H. L., Su, L., Suetrong, S., Sulistyo, B., Sun, Y. R., Svantesson, S., Sysouphanthong, P., Takamatsu, S., Tan, T. H., Tanaka, K., Tang, A. M.C., Tang, X., Tanney, J. B., Tavakol, N. M., Taylor, J. E., Taylor, P. W.J., Tedersoo, L., Tennakoon, D. S., Thamodini, G. K., Thines, M., Thiyagaraja, V., Thongklang, N., Tiago, P. V., Tian, Q., Tian, W. H., Tibell, L., Tibell, S., Tibpromma, S., Tkalčec, Z., Tomšovský, M., Toome-Heller, M., Torruella, G., Tsurykau, A., Udayanga, D., Ulukapi, M., Untereiner, W. A., Uzunov, B. A., Valle, L. G., Van Caenegem, W., Van den Wyngaert, S., Van Vooren, N., Velez, P., Verma, R. K., Vieira, L. C., Vieira, W. A.S., Vizzini, A., Walker, A., Walker, A. K., Wanasinghe, D. N., Wang, C. G., Wang, K., Wang, S. X., Wang, X. Y., Wang, Y., Wannasawang, N., Wartchow, F., Wei, D. P., Wei, X. L., White, J. F., Wijayawardene, N. N., Wijesinghe, S. N., Wijesundara, D. S.A., Wisitrassameewong, K., Worthy, F. R., Wu, F., Wu, G., Wu, H. X., Wu, N., Wu, W. P., Wurzbacher, C., Xiao, Y. P., Xiong, Y. R., Xu, B., Xu, L. J., Xu, R., Xu, T. M., Yakovchenko, L., Yan, J. Y., Yang, H. D., Yang, J., Yang, Z. L., Yang, Y. H., Yapa, N., Yasanthika, E., Youssef, N. H., Yu, F. M., Yu, Q., Yu, X. D., Yu, Y. X., Yu, Z. F., Yuan, H. S., Yuan, Y., Yurkov, A., Zafari, D., Zamora, J. C., Zare, R., Zeng, M., Zeng, N. K., Zeng, X. Y., Zhang, F., Zhang, H., Zhang, J. F., Zhang, J. Y., Zhang, Q. Y., Zhang, S. N., Zhang, W., Zhang, Y., Zhao, C. L., Zhao, H., Zhao, Q., Zhao, R. L., Zhou, L. W., Zhou, M., Zhurbenko, M. P., Zin, H. H., Zucconi, L., Hyde, K. D., Abdel-Wahab, M. A., Abdollahzadeh, J., Abeywickrama, P. D., Absalan, S., Afshari, N., Ainsworth, A. M., Akulov, O. Y., Aleoshin, V. V., Al-Sadi, A. M., Alvarado, P., Alves, A., Alves-Silva, G., Amalfi, M., Amira, Y., Amuhenage, T. B., Anderson, J. L., Antonín, V., Aouali, S., Aptroot, A., Apurillo, C. C. S., Araújo, J. P.M., Ariyawansa, H. A., Armand, A., Arumugam, E., Asghari, R., Assis, D. M.A., Atienza, V., Avasthi, S., Azevedo, E., Bahkali, A. H., Bakhshi, M., Banihashemi, Z., Bao, D. F., Baral, H. O., Barata, M., Barbosa, F. R., Barbosa, R. N., Barreto, R. W., Baschien, C., Belamesiatseva, D. B., Reuel, M. Bennett, Bera, I., Bezerra, J. D. P., Bezerra, J. L., Bhat, D. J., Bhunjun, C. S., Bianchinotti, M. V., Błaszkowski, J., Blondelle, A., Boekhout, T., Bonito, G., Boonmee, S., Boonyuen, N., Bregant, C., Buchanan, P., Bundhun, D., Burgaud, G., Burgess, T., Buyck, B., Cabarroi-Hernández, M., Cáceres, M. E. S., Caeiro, M. F., Cai, L., Cai, M. F., Calabon, M. S., Calaça, F. J. S., Callalli, M., Camara, M. P. S., Cano-Lira, J. F., Cantillo, T., Cao, B., Carlavilla, J. R., Carvalho, A., Castañeda-Ruiz, R. F., Castlebury, L., Castro-Jauregui, O., Catania, M. D., Cavalcanti, L. H., Cazabonne, J., Cedeño-Sanchez, M. L., Chaharmiri-Dokhaharani, S., Chaiwan, N., Chakraborty, N., Chaverri, P., Cheewangkoon, R., Chen, C., Chen, C. Y., Chen, K. H., Chen, J., Chen, Q., Chen, W. H., Chen, Y. P., Chethana, K. W. T., Coleine, C., Condé, T. O., Corazon-Guivin, M. A., Cortés-Pérez, A., Costa-Rezende, D. H., Courtecuisse, R., Crouch, J. A., Crous, P. W., Cui, B. K., Cui, Y. Y., da Silva, D. K. A., da Silva, G. A., da Silva, I. R., da Silva, R. M. F., da Silva Santos, A. C., Dai, D. Q., Dai, Y. C., Damm, U., Darmostuk, V., Zoha, Daroodi, Das, K., Davoodian, N., Davydov, E. A., Dayarathne, M. C., Decock, C., de Groot, M. D., De Kesel, A., de la Cruz, T. E. E., De Lange, R., Delgado, G., Denchev, C. M., Denchev, T. T., de Oliveira, N. T., de Silva, N. I., de Souza, F. A., Dentinger, B., Devadatha, B., Dianese, J. C., Dima, B., Diniz, A. G., Dissanayake, A. J., Dissanayake, L. S., Doğan, H. H., Doilom, M., Dolatabadi, S., Dong, W., Dong, Z. Y., Dos Santos, L. A., Drechsler-Santos, E. R., Du, T. Y., Dubey, M. K., Dutta, A. K., Egidi, E., Elliott, T. F., Elshahed, M. S., Erdoğdu, M., Ertz, D., Etayo, J., Evans, H. C., Fan, X. L., Fan, Y. G., Fedosova, A. G., Fell, J., Fernandes, I., Firmino, A. L., Fiuza, P. O., Flakus, A., de Souza, C. A.Fragoso, Frisvad, J. C., Fryar, S. C., Gabaldón, T., Gajanayake, A. J., Galindo, L. J., Gannibal, P. B., García, D., García-Sandoval, S. R., Garrido-Benavent, I., Garzoli, L., Gautam, A. K., Ge, Z. W., Gené, D. J., Gentekaki, E., Ghobad-Nejhad, M., Giachini, A. J., Gibertoni, T. B., Góes-Neto, A., Gomdola, D., de Farias, A. R. Gomes, Gorjón, S. P., Goto, B. T., Granados-Montero, M. M., Griffith, G. W., Groenewald, J. Z., Groenewald, M., Grossart, H. P., Gueidan, C., Gunarathne, A., Gunaseelan, S., Gusmão, L. F.P., Gutierrez, A. C., Guzmán-Dávalos, L., Haelewaters, D., Halling, R., Han, Y. F., Hapuarachchi, K. K., Harder, C. B., Harrington, T. C., Hattori, T., He, M. Q., He, S., He, S. H., Healy, R., Herández-Restrepo, M., Heredia, G., Hodge, K. T., Holgado-Rojas, M., Hongsanan, S., Horak, E., Hosoya, T., Houbraken, J., Huang, S. K., Huanraluek, N., Hur, J. S., Hurdeal, V. G., Hustad, V. P., Iotti, M., Iturriaga, T., Jafar, E., Janik, P., Jany, J. L., Jayalal, R. G.U., Jayasiri, S. C., Jayawardena, R. S., Jeewon, R., Jerônimo, G. H., Jesus, A. L., Jin, J., Johnston, P. R., Jones, E. B.G., Joshi, Y., Justo, A., Kaishian, P., Kakishima, M., Kaliyaperumal, M., Kang, G. P., Kang, J. C., Karakehian, J. M., Karimi, O., Karpov, S. A., Karunarathna, S. C., Kaufmann, M., Kemler, M., Kezo, K., Khyaju, S., Kirchmair, M., Kirk, P. M., Kitaura, M. J., Klawonn, I., Kolarik, M., Kong, A., Kuhar, F., Kukwa, M., Kumar, S., Kušan, I., Lado, C., Larsson, K. H., Latha, K. P.D., Lee, H. B., Leonardi, M., Leontyev, D. L., Lestari, A. S., Li, C. J.Y., Li, D. W., Li, H. Y., Li, L., Li, Q. R., Li, W. L., Li, Y., Li, Y. C., Liao, C. F., Liimatainen, K., Lim, Y. W., Lin, C. G., Linaldeddu, B. T., Linde, C. C., Linn, M. M., Liu, F., Liu, J. K., Liu, N. G., Liu, S., Liu, X. F., Liu, X. Z., Liu, Z. B., Lu, L., Lu, Y. Z., Luangharn, T., Luangsa-ard, J. J., Lumbsch, H. T., Lumyong, S., Luo, L., Luo, M., Luo, Z. L., Ma, J., Machado, A. R., Madagammana, A. D., Madrid, H., Magurno, F., Magyar, D., Mahadevan, N., Maharachchikumbura, S. S.N., Maimaiti, Y., Malosso, E., Manamgoda, D. S., Manawasinghe, I. S., Mapook, A., Marasinghe, D. S., Mardones, M., Marin-Felix, Y., Márquez, R., Masigol, H., Matočec, N., May, T. W., McKenzie, E. H.C., Meiras-Ottoni, A., Melo, R. F.R., Mendes-Alvarenga, R. L., Mendieta, S., Meng, Q. F., Menkis, A., Menolli, N., Mešić, A., Calvo, J. G.Meza, Mikhailov, K. V., Miller, S. L., Moncada, B., Moncalvo, J. M., Monteiro, J. S., Monteiro, M., Mora-Montes, H. M., Moreau, P. A., Mueller, G. M., Mukhopadyay, S., Murugadoss, R., Nagy, L. G., Najafiniya, M., Nanayakkara, C. M., Nascimento, C. C., Nei, Y., Neves, M. A., Neuhauser, S., Niego, A. G.T., Nilsson, R. H., Niskanen, T., Niveiro, N., Noorabadi, M. T., Noordeloos, M. E., Norphanphoun, C., Otaño, N. B.Nuñez, O’Donnell, R. P., Oehl, F., Olariaga, I., Orlando, O. P., Pang, K. L., Papp, V., Pawłowska, J., Peintner, U., Pem, D., Pereira, O. L., Perera, R. H., Perez-Moreno, J., Perez-Ortega, S., Péter, G., Phillips, A. J.L., Phonemany, M., Phukhamsakda, C., Phutthacharoen, K., Piepenbring, M., Pires-Zottarelli, C. L.A., Poinar, G., Pošta, A., Prieto, M., Promputtha, I., Quandt, C. A., Radek, R., Rahnama, K., Raj, K. N.A., Rajeshkumar, K. C., Rämä, T., Rambold, G., Ramírez-Cruz, V., Rasconi, S., Rathnayaka, A. R., Raza, M., Ren, G. C., Robledo, G. L., Rodriguez-Flakus, P., Ronikier, A., Rossi, W., Ryberg, M., Ryvarden, L. R., Salvador-Montoya, C. A., Samant, B., Samarakoon, B. C., Samarakoon, M. C., Sánchez-Castro, I., Sánchez-García, M., Sandoval-Denis, M., Santamaria, B., Santiago, A. L.C.M.A., Sarma, V. V., Savchenko, A., Savchenko, K., Saxena, R. K., Scholler, M., Schoutteten, N., Seifollahi, E., Selbmann, L., Selcuk, F., Senanayake, I. C., Shabashova, T. G., Shen, H. W., Shen, Y. M., Silva-Filho, A. G.S., Simmons, D. R., Singh, R., Sir, E. B., Song, C. G., Souza-Motta, C. M., Sruthi, O. P., Stadler, M., Stchigel, A. M., Stemler, J., Stephenson, S. L., Strassert, J. F.H., Su, H. L., Su, L., Suetrong, S., Sulistyo, B., Sun, Y. R., Svantesson, S., Sysouphanthong, P., Takamatsu, S., Tan, T. H., Tanaka, K., Tang, A. M.C., Tang, X., Tanney, J. B., Tavakol, N. M., Taylor, J. E., Taylor, P. W.J., Tedersoo, L., Tennakoon, D. S., Thamodini, G. K., Thines, M., Thiyagaraja, V., Thongklang, N., Tiago, P. V., Tian, Q., Tian, W. H., Tibell, L., Tibell, S., Tibpromma, S., Tkalčec, Z., Tomšovský, M., Toome-Heller, M., Torruella, G., Tsurykau, A., Udayanga, D., Ulukapi, M., Untereiner, W. A., Uzunov, B. A., Valle, L. G., Van Caenegem, W., Van den Wyngaert, S., Van Vooren, N., Velez, P., Verma, R. K., Vieira, L. C., Vieira, W. A.S., Vizzini, A., Walker, A., Walker, A. K., Wanasinghe, D. N., Wang, C. G., Wang, K., Wang, S. X., Wang, X. Y., Wang, Y., Wannasawang, N., Wartchow, F., Wei, D. P., Wei, X. L., White, J. F., Wijayawardene, N. N., Wijesinghe, S. N., Wijesundara, D. S.A., Wisitrassameewong, K., Worthy, F. R., Wu, F., Wu, G., Wu, H. X., Wu, N., Wu, W. P., Wurzbacher, C., Xiao, Y. P., Xiong, Y. R., Xu, B., Xu, L. J., Xu, R., Xu, T. M., Yakovchenko, L., Yan, J. Y., Yang, H. D., Yang, J., Yang, Z. L., Yang, Y. H., Yapa, N., Yasanthika, E., Youssef, N. H., Yu, F. M., Yu, Q., Yu, X. D., Yu, Y. X., Yu, Z. F., Yuan, H. S., Yuan, Y., Yurkov, A., Zafari, D., Zamora, J. C., Zare, R., Zeng, M., Zeng, N. K., Zeng, X. Y., Zhang, F., Zhang, H., Zhang, J. F., Zhang, J. Y., Zhang, Q. Y., Zhang, S. N., Zhang, W., Zhang, Y., Zhao, C. L., Zhao, H., Zhao, Q., Zhao, R. L., Zhou, L. W., Zhou, M., Zhurbenko, M. P., Zin, H. H., and Zucconi, L.

Abstract

The Global Consortium for the Classification of Fungi and fungus-like taxa is an international initiative of more than 550 mycologists to develop an electronic structure for the classification of these organisms. The members of the Consortium originate from 55 countries/regions worldwide, from a wide range of disciplines, and include senior, mid-career and early-career mycologists and plant pathologists. The Consortium will publish a biannual update of the Outline of Fungi and fungus-like taxa, to act as an international scheme for other scientists. Notes on all newly published taxa at or above the level of species will be prepared and published online on the Outline of Fungi website (https://www.outlineoffungi.org/), and these will be finally published in the biannual edition of the Outline of Fungi and fungus-like taxa. Comments on recent important taxonomic opinions on controversial topics will be included in the biannual outline. For example, 'to promote a more stable taxonomy in Fusarium given the divergences over its generic delimitation', or 'are there too many genera in the Boletales?' and even more importantly, 'what should be done with the tremendously diverse 'dark fungal taxa?' There are undeniable differences in mycologists' perceptions and opinions regarding species classification as well as the establishment of new species. Given the pluralistic nature of fungal taxonomy and its implications for species concepts and the nature of species, this consortium aims to provide a platform to better refine and stabilise fungal classification, taking into consideration views from different parties. In the future, a confidential voting system will be set up to gauge the opinions of all mycologists in the Consortium on important topics. The results of such surveys will be presented to the International Commission on the Taxonomy of Fungi (ICTF) and the Nomenclature Committee

Published

2023

12. Amesia hispanica sp. nov., Producer of the Antifungal Class of Antibiotics Dactylfungins

Author

Universitat Rovira i Virgili, Charria-Girón, E; Stchigel, AM; Cmoková, A; Kolarík, M; Surup, F; Marin-Felix, Y, Universitat Rovira i Virgili, and Charria-Girón, E; Stchigel, AM; Cmoková, A; Kolarík, M; Surup, F; Marin-Felix, Y

Abstract

During a study of the diversity of soilborne fungi from Spain, a strain belonging to the family Chaetomiaceae (Sordariales) was isolated. The multigene phylogenetic inference using five DNA loci showed that this strain represents an undescribed species of the genus Amesia, herein introduced as A. hispanica sp. nov. Investigation of its secondary metabolome led to the isolation of two new derivatives (2 and 3) of the known antifungal antibiotic dactylfungin A (1), together with the known compound cochliodinol (4). The planar structures of 1–4 were determined by ultrahigh performance liquid chromatography coupled with diode array detection and ion mobility tandem mass spectrometry (UHPLC-DAD-IM-MS/MS) and extensive 1D and 2D nuclear magnetic resonance (NMR) spectroscopy after isolation by HPLC. All isolated secondary metabolites were tested for their antimicrobial and cytotoxic activities. Dactylfungin A (1) showed selective and strong antifungal activity against some of the tested human pathogens (Aspergillus fumigatus and Cryptococcus neoformans). The additional hydroxyl group in 2 resulted in the loss of activity against C. neoformans but still retained the inhibition of As. fumigatus in a lower concentration than that of the respective control, without showing any cytotoxic effects. In contrast, 25″-dehydroxy-dactylfungin A (3) exhibited improved activity against yeasts (Schizosaccharomyces pombe and Rhodotorula glutinis) than 1 and 2, but resulted in the appearance of slight cytotoxicity. The present study exemplifies how even in a well-studied taxonomic group such as the Chaetomiaceae, the investigation of novel taxa still brings chemistry novelty, as demonstrated in this first report of this antibiotic class for chaetomiaceous and sordarialean taxa.

Published

2023

13. Emmonsiellopsis, a new genus related to the thermally dimorphic fungi of the family Ajellomycetaceae

Author

Marin-Felix, Y., Stchigel, A. M., Cano-Lira, J. F., Sanchis, M., Mayayo, E., and Guarro, J.

Published

2015

14. Fusarium: more than a node or a foot-shaped basal cell

Author

Crous, P. W., Lombard, L., Sandoval-Denis, M., Seifert, K. A., Schroers, H. J., Chaverri, P., Gené, J., Guarro, J., Hirooka, Y., Bensch, K., Kema, G. H.J., Lamprecht, S. C., Cai, L., Rossman, A. Y., Stadler, M., Summerbell, R. C., Taylor, J. W., Ploch, S., Visagie, C. M., Yilmaz, N., Frisvad, J. C., Abdel-Azeem, A. M., Abdollahzadeh, J., Abdolrasouli, A., Akulov, A., Alberts, J. F., Araújo, J. P.M., Ariyawansa, H. A., Bakhshi, M., Bendiksby, M., Ben Hadj Amor, A., Bezerra, J. D.P., Boekhout, T., Câmara, M. P.S., Carbia, M., Cardinali, G., Castañeda-Ruiz, R. F., Celis, A., Chaturvedi, V., Collemare, J., Croll, D., Damm, U., Decock, C. A., de Vries, R. P., Ezekiel, C. N., Fan, X. L., Fernández, N. B., Gaya, E., González, C. D., Gramaje, D., Groenewald, J. Z., Grube, M., Guevara-Suarez, M., Gupta, V. K., Guarnaccia, V., Haddaji, A., Hagen, F., Haelewaters, D., Hansen, K., Hashimoto, A., Hernández-Restrepo, M., Houbraken, J., Hubka, V., Hyde, K. D., Iturriaga, T., Jeewon, R., Johnston, P. R., Jurjević, Karalti, Korsten, L., Kuramae, E. E., Kušan, I., Labuda, R., Lawrence, D. P., Lee, H. B., Lechat, C., Li, H. Y., Litovka, Y. A., Maharachchikumbura, S. S.N., Marin-Felix, Y., Matio Kemkuignou, B., Matočec, N., McTaggart, A. R., Mlčoch, P., Mugnai, L., Nakashima, C., Nilsson, R. H., Noumeur, S. R., Pavlov, I. N., Peralta, M. P., Phillips, A. J.L., Pitt, J. I., Polizzi, G., Quaedvlieg, W., Rajeshkumar, K. C., Restrepo, S., Rhaiem, A., Robert, J., Robert, V., Rodrigues, A. M., Salgado-Salazar, C., Samson, R. A., Santos, A. C.S., Shivas, R. G., Souza-Motta, C. M., Sun, G. Y., Swart, W. J., Szoke, S., Tan, Y. P., Taylor, J. E., Taylor, P. W.J., Tiago, P. V., Váczy, K. Z., van de Wiele, N., van der Merwe, N. A., Verkley, G. J.M., Vieira, W. A.S., Vizzini, A., Weir, B. S., Wijayawardene, N. N., Xia, J. W., Yáñez-Morales, M. J., Yurkov, A., Zamora, J. C., Zare, R., Zhang, C. L., Thines, M., Crous, P. W., Lombard, L., Sandoval-Denis, M., Seifert, K. A., Schroers, H. J., Chaverri, P., Gené, J., Guarro, J., Hirooka, Y., Bensch, K., Kema, G. H.J., Lamprecht, S. C., Cai, L., Rossman, A. Y., Stadler, M., Summerbell, R. C., Taylor, J. W., Ploch, S., Visagie, C. M., Yilmaz, N., Frisvad, J. C., Abdel-Azeem, A. M., Abdollahzadeh, J., Abdolrasouli, A., Akulov, A., Alberts, J. F., Araújo, J. P.M., Ariyawansa, H. A., Bakhshi, M., Bendiksby, M., Ben Hadj Amor, A., Bezerra, J. D.P., Boekhout, T., Câmara, M. P.S., Carbia, M., Cardinali, G., Castañeda-Ruiz, R. F., Celis, A., Chaturvedi, V., Collemare, J., Croll, D., Damm, U., Decock, C. A., de Vries, R. P., Ezekiel, C. N., Fan, X. L., Fernández, N. B., Gaya, E., González, C. D., Gramaje, D., Groenewald, J. Z., Grube, M., Guevara-Suarez, M., Gupta, V. K., Guarnaccia, V., Haddaji, A., Hagen, F., Haelewaters, D., Hansen, K., Hashimoto, A., Hernández-Restrepo, M., Houbraken, J., Hubka, V., Hyde, K. D., Iturriaga, T., Jeewon, R., Johnston, P. R., Jurjević, Karalti, Korsten, L., Kuramae, E. E., Kušan, I., Labuda, R., Lawrence, D. P., Lee, H. B., Lechat, C., Li, H. Y., Litovka, Y. A., Maharachchikumbura, S. S.N., Marin-Felix, Y., Matio Kemkuignou, B., Matočec, N., McTaggart, A. R., Mlčoch, P., Mugnai, L., Nakashima, C., Nilsson, R. H., Noumeur, S. R., Pavlov, I. N., Peralta, M. P., Phillips, A. J.L., Pitt, J. I., Polizzi, G., Quaedvlieg, W., Rajeshkumar, K. C., Restrepo, S., Rhaiem, A., Robert, J., Robert, V., Rodrigues, A. M., Salgado-Salazar, C., Samson, R. A., Santos, A. C.S., Shivas, R. G., Souza-Motta, C. M., Sun, G. Y., Swart, W. J., Szoke, S., Tan, Y. P., Taylor, J. E., Taylor, P. W.J., Tiago, P. V., Váczy, K. Z., van de Wiele, N., van der Merwe, N. A., Verkley, G. J.M., Vieira, W. A.S., Vizzini, A., Weir, B. S., Wijayawardene, N. N., Xia, J. W., Yáñez-Morales, M. J., Yurkov, A., Zamora, J. C., Zare, R., Zhang, C. L., and Thines, M.

Abstract

Recent publications have argued that there are potentially serious consequences for researchers in recognising distinct genera in the terminal fusarioid clade of the family Nectriaceae. Thus, an alternate hypothesis, namely a very broad concept of the genus Fusarium was proposed. In doing so, however, a significant body of data that supports distinct genera in Nectriaceae based on morphology, biology, and phylogeny is disregarded. A DNA phylogeny based on 19 orthologous protein-coding genes was presented to support a very broad concept of Fusarium at the F1 node in Nectriaceae. Here, we demonstrate that re-analyses of this dataset show that all 19 genes support the F3 node that represents Fusarium sensu stricto as defined by F. sambucinum (sexual morph synonym Gibberella pulicaris). The backbone of the phylogeny is resolved by the concatenated alignment, but only six of the 19 genes fully support the F1 node, representing the broad circumscription of Fusarium. Furthermore, a re-analysis of the concatenated dataset revealed alternate topologies in different phylogenetic algorithms, highlighting the deep divergence and unresolved placement of various Nectriaceae lineages proposed as members of Fusarium. Species of Fusarium s. str. are characterised by Gibberella sexual morphs, asexual morphs with thin- or thick-walled macroconidia that have variously shaped apical and basal cells, and trichothecene mycotoxin production, which separates them from other fusarioid genera. Here we show that the Wollenweber concept of Fusarium presently accounts for 20 segregate genera with clear-cut synapomorphic traits, and that fusarioid macroconidia represent a character that has been gained or lost multiple times throughout Nectriaceae. Thus, the very broad circumscription of Fusarium is blurry and without apparent synapomorphies, and does not include all genera with fusarium-like macroconidia, which are spread throughout Nectriaceae (e.g., Cosmosporella, Macroconia, Microcera). In

Published

2021

15. Fusarium: more than a node or a foot-shaped basal cell

Author

Sub Molecular Microbiology, Sub Molecular Plant Physiology, Sub Ecology and Biodiversity, Molecular Microbiology, Molecular Plant Physiology, Ecology and Biodiversity, Crous, P. W., Lombard, L., Sandoval-Denis, M., Seifert, K. A., Schroers, H. J., Chaverri, P., Gené, J., Guarro, J., Hirooka, Y., Bensch, K., Kema, G. H.J., Lamprecht, S. C., Cai, L., Rossman, A. Y., Stadler, M., Summerbell, R. C., Taylor, J. W., Ploch, S., Visagie, C. M., Yilmaz, N., Frisvad, J. C., Abdel-Azeem, A. M., Abdollahzadeh, J., Abdolrasouli, A., Akulov, A., Alberts, J. F., Araújo, J. P.M., Ariyawansa, H. A., Bakhshi, M., Bendiksby, M., Ben Hadj Amor, A., Bezerra, J. D.P., Boekhout, T., Câmara, M. P.S., Carbia, M., Cardinali, G., Castañeda-Ruiz, R. F., Celis, A., Chaturvedi, V., Collemare, J., Croll, D., Damm, U., Decock, C. A., de Vries, R. P., Ezekiel, C. N., Fan, X. L., Fernández, N. B., Gaya, E., González, C. D., Gramaje, D., Groenewald, J. Z., Grube, M., Guevara-Suarez, M., Gupta, V. K., Guarnaccia, V., Haddaji, A., Hagen, F., Haelewaters, D., Hansen, K., Hashimoto, A., Hernández-Restrepo, M., Houbraken, J., Hubka, V., Hyde, K. D., Iturriaga, T., Jeewon, R., Johnston, P. R., Jurjević, Karalti, Korsten, L., Kuramae, E. E., Kušan, I., Labuda, R., Lawrence, D. P., Lee, H. B., Lechat, C., Li, H. Y., Litovka, Y. A., Maharachchikumbura, S. S.N., Marin-Felix, Y., Matio Kemkuignou, B., Matočec, N., McTaggart, A. R., Mlčoch, P., Mugnai, L., Nakashima, C., Nilsson, R. H., Noumeur, S. R., Pavlov, I. N., Peralta, M. P., Phillips, A. J.L., Pitt, J. I., Polizzi, G., Quaedvlieg, W., Rajeshkumar, K. C., Restrepo, S., Rhaiem, A., Robert, J., Robert, V., Rodrigues, A. M., Salgado-Salazar, C., Samson, R. A., Santos, A. C.S., Shivas, R. G., Souza-Motta, C. M., Sun, G. Y., Swart, W. J., Szoke, S., Tan, Y. P., Taylor, J. E., Taylor, P. W.J., Tiago, P. V., Váczy, K. Z., van de Wiele, N., van der Merwe, N. A., Verkley, G. J.M., Vieira, W. A.S., Vizzini, A., Weir, B. S., Wijayawardene, N. N., Xia, J. W., Yáñez-Morales, M. J., Yurkov, A., Zamora, J. C., Zare, R., Zhang, C. L., Thines, M., Sub Molecular Microbiology, Sub Molecular Plant Physiology, Sub Ecology and Biodiversity, Molecular Microbiology, Molecular Plant Physiology, Ecology and Biodiversity, Crous, P. W., Lombard, L., Sandoval-Denis, M., Seifert, K. A., Schroers, H. J., Chaverri, P., Gené, J., Guarro, J., Hirooka, Y., Bensch, K., Kema, G. H.J., Lamprecht, S. C., Cai, L., Rossman, A. Y., Stadler, M., Summerbell, R. C., Taylor, J. W., Ploch, S., Visagie, C. M., Yilmaz, N., Frisvad, J. C., Abdel-Azeem, A. M., Abdollahzadeh, J., Abdolrasouli, A., Akulov, A., Alberts, J. F., Araújo, J. P.M., Ariyawansa, H. A., Bakhshi, M., Bendiksby, M., Ben Hadj Amor, A., Bezerra, J. D.P., Boekhout, T., Câmara, M. P.S., Carbia, M., Cardinali, G., Castañeda-Ruiz, R. F., Celis, A., Chaturvedi, V., Collemare, J., Croll, D., Damm, U., Decock, C. A., de Vries, R. P., Ezekiel, C. N., Fan, X. L., Fernández, N. B., Gaya, E., González, C. D., Gramaje, D., Groenewald, J. Z., Grube, M., Guevara-Suarez, M., Gupta, V. K., Guarnaccia, V., Haddaji, A., Hagen, F., Haelewaters, D., Hansen, K., Hashimoto, A., Hernández-Restrepo, M., Houbraken, J., Hubka, V., Hyde, K. D., Iturriaga, T., Jeewon, R., Johnston, P. R., Jurjević, Karalti, Korsten, L., Kuramae, E. E., Kušan, I., Labuda, R., Lawrence, D. P., Lee, H. B., Lechat, C., Li, H. Y., Litovka, Y. A., Maharachchikumbura, S. S.N., Marin-Felix, Y., Matio Kemkuignou, B., Matočec, N., McTaggart, A. R., Mlčoch, P., Mugnai, L., Nakashima, C., Nilsson, R. H., Noumeur, S. R., Pavlov, I. N., Peralta, M. P., Phillips, A. J.L., Pitt, J. I., Polizzi, G., Quaedvlieg, W., Rajeshkumar, K. C., Restrepo, S., Rhaiem, A., Robert, J., Robert, V., Rodrigues, A. M., Salgado-Salazar, C., Samson, R. A., Santos, A. C.S., Shivas, R. G., Souza-Motta, C. M., Sun, G. Y., Swart, W. J., Szoke, S., Tan, Y. P., Taylor, J. E., Taylor, P. W.J., Tiago, P. V., Váczy, K. Z., van de Wiele, N., van der Merwe, N. A., Verkley, G. J.M., Vieira, W. A.S., Vizzini, A., Weir, B. S., Wijayawardene, N. N., Xia, J. W., Yáñez-Morales, M. J., Yurkov, A., Zamora, J. C., Zare, R., Zhang, C. L., and Thines, M.

Published

2021

16. Fusarium: more than a node or a foot-shaped basal cell

Author

Crous, P.W., Lombard, L., Sandoval-Denis, M., Seifert, K.A., Schroers, H.-J., Chaverri, P., Gené, J., Guarro, J., Hirooka, Y., Bensch, K., Kema, G.H.J., Lamprecht, S.C., Cai, L., Rossman, A.Y., Stadler, M., Summerbell, R.C., Taylor, J.W., Ploch, S., Visagie, C.M., Yilmaz, N., Frisvad, J.C., Abdel-Azeem, A.M., Abdollahzadeh, J., Abdolrasouli, A., Akulov, A., Alberts, J.F., Araújo, J.P.M., Ariyawansa, H.A., Bakhshi, M., Bendiksby, M., Amor, A. Ben Hadj, Bezerra, J.D.P., Boekhout, T., Câmara, M.P.S., Carbia, M., Cardinali, G., Castañeda-Ruiz, R.F., Celis, A., Chaturvedi, V., Collemare, J., Croll, D., Damm, U., Decock, C.A., Vries, R.P. de, Ezekiel, C.N., Fan, X.L., Fernández, N.B., Gaya, E., González, C.D., Gramaje, D., Groenewald, J.Z., Grube, M., Guevara-Suarez, M., Gupta, V.K., Guarnaccia, V., Haddaji, A., Hagen, F., Haelewaters, D., Hansen, K., Hashimoto, A., Hernández-Restrepo, M., Houbraken, J., Hubka, V., Hyde, K.D., Iturriaga, T., Jeewon, R., Johnston, P.R., Jurjević, Ž., Karalti, İ., Korsten, L., Kuramae, E.E., Kušan, I., Labuda, R., Lawrence, D.P., Lee, H.B., Lechat, C., Li, H.Y., Litovka, Y.A., Maharachchikumbura, S.S.N., Marin-Felix, Y., Kemkuignou, B. Matio, Matočec, N., McTaggart, A.R., Mlčoch, P., Mugnai, L., Nakashima, C., Nilsson, R.H., Noumeur, S.R., Pavlov, I.N., Peralta, M.P., Phillips, A.J.L., Pitt, J.I., Polizzi, G., Quaedvlieg, W., Rajeshkumar, K.C., Restrepo, S., Rhaiem, A., Robert, J., Robert, V., Rodrigues, A.M., Salgado-Salazar, C., Samson, R.A., Santos, A.C.S., Shivas, R.G., Souza-Motta, C.M., Sun, G.Y., Swart, W.J., Szoke, S., Tan, Y.P., Taylor, J.E., Taylor, P.W.J., Tiago, P.V., Váczy, K.Z., Wiele, N. van de, Merwe, N.A. van der, Verkley, G.J.M., Vieira, W.A.S., Vizzini, A., Weir, B.S., Wijayawardene, N.N., Xia, J.W., Yáñez-Morales, M.J., Yurkov, A., Zamora, J.C., Zare, R., Zhang, C.L., Thines, M., Crous, P.W., Lombard, L., Sandoval-Denis, M., Seifert, K.A., Schroers, H.-J., Chaverri, P., Gené, J., Guarro, J., Hirooka, Y., Bensch, K., Kema, G.H.J., Lamprecht, S.C., Cai, L., Rossman, A.Y., Stadler, M., Summerbell, R.C., Taylor, J.W., Ploch, S., Visagie, C.M., Yilmaz, N., Frisvad, J.C., Abdel-Azeem, A.M., Abdollahzadeh, J., Abdolrasouli, A., Akulov, A., Alberts, J.F., Araújo, J.P.M., Ariyawansa, H.A., Bakhshi, M., Bendiksby, M., Amor, A. Ben Hadj, Bezerra, J.D.P., Boekhout, T., Câmara, M.P.S., Carbia, M., Cardinali, G., Castañeda-Ruiz, R.F., Celis, A., Chaturvedi, V., Collemare, J., Croll, D., Damm, U., Decock, C.A., Vries, R.P. de, Ezekiel, C.N., Fan, X.L., Fernández, N.B., Gaya, E., González, C.D., Gramaje, D., Groenewald, J.Z., Grube, M., Guevara-Suarez, M., Gupta, V.K., Guarnaccia, V., Haddaji, A., Hagen, F., Haelewaters, D., Hansen, K., Hashimoto, A., Hernández-Restrepo, M., Houbraken, J., Hubka, V., Hyde, K.D., Iturriaga, T., Jeewon, R., Johnston, P.R., Jurjević, Ž., Karalti, İ., Korsten, L., Kuramae, E.E., Kušan, I., Labuda, R., Lawrence, D.P., Lee, H.B., Lechat, C., Li, H.Y., Litovka, Y.A., Maharachchikumbura, S.S.N., Marin-Felix, Y., Kemkuignou, B. Matio, Matočec, N., McTaggart, A.R., Mlčoch, P., Mugnai, L., Nakashima, C., Nilsson, R.H., Noumeur, S.R., Pavlov, I.N., Peralta, M.P., Phillips, A.J.L., Pitt, J.I., Polizzi, G., Quaedvlieg, W., Rajeshkumar, K.C., Restrepo, S., Rhaiem, A., Robert, J., Robert, V., Rodrigues, A.M., Salgado-Salazar, C., Samson, R.A., Santos, A.C.S., Shivas, R.G., Souza-Motta, C.M., Sun, G.Y., Swart, W.J., Szoke, S., Tan, Y.P., Taylor, J.E., Taylor, P.W.J., Tiago, P.V., Váczy, K.Z., Wiele, N. van de, Merwe, N.A. van der, Verkley, G.J.M., Vieira, W.A.S., Vizzini, A., Weir, B.S., Wijayawardene, N.N., Xia, J.W., Yáñez-Morales, M.J., Yurkov, A., Zamora, J.C., Zare, R., Zhang, C.L., and Thines, M.

Abstract

Recent publications have argued that there are potentially serious consequences for researchers in recognising distinct genera in the terminal fusarioid clade of the family Nectriaceae. Thus, an alternate hypothesis, namely a very broad concept of the genus Fusarium was proposed. In doing so, however, a significant body of data that supports distinct genera in Nectriaceae based on morphology, biology, and phylogeny is disregarded. A DNA phylogeny based on 19 orthologous protein-coding genes was presented to support a very broad concept of Fusarium at the F1 node in Nectriaceae. Here, we demonstrate that re-analyses of this dataset show that all 19 genes support the F3 node that represents Fusarium sensu stricto as defined by F. sambucinum (sexual morph synonym Gibberella pulicaris). The backbone of the phylogeny is resolved by the concatenated alignment, but only six of the 19 genes fully support the F1 node, representing the broad circumscription of Fusarium. Furthermore, a re-analysis of the concatenated dataset revealed alternate topologies in different phylogenetic algorithms, highlighting the deep divergence and unresolved placement of various Nectriaceae lineages proposed as members of Fusarium. Species of Fusarium s. str. are characterised by Gibberella sexual morphs, asexual morphs with thin- or thick-walled macroconidia that have variously shaped apical and basal cells, and trichothecene mycotoxin production, which separates them from other fusarioid genera. Here we show that the Wollenweber concept of Fusarium presently accounts for 20 segregate genera with clear-cut synapomorphic traits, and that fusarioid macroconidia represent a character that has been gained or lost multiple times throughout Nectriaceae. Thus, the very broad circumscription of Fusarium is blurry and without apparent synapomorphies, and does not include all genera with fusarium-like macroconidia, which are spread throughout Nectriaceae (e.g., Cosmosporella, Macroconia, Microcera). In th

Published

2021

17. Fusarium: more than a node or a foot-shaped basal cell

Author

Universitat Rovira i Virgili, Crous, P. W.; Lombard, L.; Sandoval-Denis, M.; Seifert, K. A.; Schroers, H-J; Chaverri, P.; Gene, J.; Guarro, J.; Hirooka, Y.; Bensch, K.; Kema, G. H. J.; Lamprecht, S. C.; Cai, L.; Rossman, A. Y.; Stadler, M.; Summerbell, R. C.; Taylor, J. W.; Ploch, S.; Visagie, C. M.; Yilmaz, N.; Frisvad, J. C.; Abdel-Azeem, A. M.; Abdollahzadeh, J.; Abdolrasouli, A.; Akulov, A.; Alberts, J. F.; Araujo, J. P. M.; Ariyawansa, H. A.; Bakhshi, M.; Bendiksby, M.; Amor, A. Ben Hadj; Bezerra, J. D. P.; Boekhout, T.; Camara, M. P. S.; Carbia, M.; Cardinali, G.; Castaneda-Ruiz, R. F.; Celis, A.; Chaturvedi, V; Collemare, J.; Croll, D.; Damm, U.; Decock, C. A.; de Vries, R. P.; Ezekiel, C. N.; Fan, X. L.; Fernandez, N. B.; Gaya, E.; Gonzalez, C. D.; Gramaje, D.; Groenewald, J. Z.; Grube, M.; Guevara-Suarez, M.; Gupta, V. K.; Guarnaccia, V; Haddaji, A.; Hagen, F.; Haelewaters, D.; Hansen, K.; Hashimoto, A.; Hernandez-Restrepo, M.; Houbraken, J.; Hubka, V; Hyde, K. D.; Iturriaga, T.; Jeewon, R.; Johnston, P. R.; Jurjevic, Z.; Karalti, I; Korsten, L.; Kuramae, E. E.; Kusan, I; Labuda, R.; Lawrence, D. P.; Lee, H. B.; Lechat, C.; Li, H. Y.; Litovka, Y. A.; Maharachchikumbura, S. S. N.; Marin-Felix, Y.; Kemkuignou, B. Matio; Matocec, N.; McTaggart, A. R.; Mlcoch, P.; Mugnai, L.; Nakashima, C.; Nilsson, R. H.; Noumeur, S. R.; Pavlov, I. N.; Peralta, M. P.; Phillips, A. J. L.; Pitt, J., I; Polizzi, G.; Quaedvlieg, W.; Rajeshkumar, K. C.; Restrepo, S.; Rhaiem, A.; Robert, J.; Robert, V; Rodrigues, A. M.; Salgado-Salazar, C.; Samson, R. A.; Santos, A. C. S.; Shivas, R. G.; Souza-Motta, C. M.; Sun, G. Y.; Swart, W. J.; Szoke, S.; Tan, Y. P.; Taylor, J. E.; Taylor, P. W. J.; Tiago, P., V; Vaczy, K. Z.; van de Wiele, N.; van der Merwe, N. A.; Verkley, G. J. M.; Vieira, W. A. S.; Vizzini, A.; Weir, B. S., Universitat Rovira i Virgili, and Crous, P. W.; Lombard, L.; Sandoval-Denis, M.; Seifert, K. A.; Schroers, H-J; Chaverri, P.; Gene, J.; Guarro, J.; Hirooka, Y.; Bensch, K.; Kema, G. H. J.; Lamprecht, S. C.; Cai, L.; Rossman, A. Y.; Stadler, M.; Summerbell, R. C.; Taylor, J. W.; Ploch, S.; Visagie, C. M.; Yilmaz, N.; Frisvad, J. C.; Abdel-Azeem, A. M.; Abdollahzadeh, J.; Abdolrasouli, A.; Akulov, A.; Alberts, J. F.; Araujo, J. P. M.; Ariyawansa, H. A.; Bakhshi, M.; Bendiksby, M.; Amor, A. Ben Hadj; Bezerra, J. D. P.; Boekhout, T.; Camara, M. P. S.; Carbia, M.; Cardinali, G.; Castaneda-Ruiz, R. F.; Celis, A.; Chaturvedi, V; Collemare, J.; Croll, D.; Damm, U.; Decock, C. A.; de Vries, R. P.; Ezekiel, C. N.; Fan, X. L.; Fernandez, N. B.; Gaya, E.; Gonzalez, C. D.; Gramaje, D.; Groenewald, J. Z.; Grube, M.; Guevara-Suarez, M.; Gupta, V. K.; Guarnaccia, V; Haddaji, A.; Hagen, F.; Haelewaters, D.; Hansen, K.; Hashimoto, A.; Hernandez-Restrepo, M.; Houbraken, J.; Hubka, V; Hyde, K. D.; Iturriaga, T.; Jeewon, R.; Johnston, P. R.; Jurjevic, Z.; Karalti, I; Korsten, L.; Kuramae, E. E.; Kusan, I; Labuda, R.; Lawrence, D. P.; Lee, H. B.; Lechat, C.; Li, H. Y.; Litovka, Y. A.; Maharachchikumbura, S. S. N.; Marin-Felix, Y.; Kemkuignou, B. Matio; Matocec, N.; McTaggart, A. R.; Mlcoch, P.; Mugnai, L.; Nakashima, C.; Nilsson, R. H.; Noumeur, S. R.; Pavlov, I. N.; Peralta, M. P.; Phillips, A. J. L.; Pitt, J., I; Polizzi, G.; Quaedvlieg, W.; Rajeshkumar, K. C.; Restrepo, S.; Rhaiem, A.; Robert, J.; Robert, V; Rodrigues, A. M.; Salgado-Salazar, C.; Samson, R. A.; Santos, A. C. S.; Shivas, R. G.; Souza-Motta, C. M.; Sun, G. Y.; Swart, W. J.; Szoke, S.; Tan, Y. P.; Taylor, J. E.; Taylor, P. W. J.; Tiago, P., V; Vaczy, K. Z.; van de Wiele, N.; van der Merwe, N. A.; Verkley, G. J. M.; Vieira, W. A. S.; Vizzini, A.; Weir, B. S.

Abstract

Microbiology, Forestry and Agricultural Biotechnology Institute (FABI), Faculty of Natural and Agricultural Sciences, University of Pretoria, P. Bag X20, Hatfield, 0028, Pretoria, South Africa; 20Department of Biotechnology and Biomedicine, DTU-Bioengineering, Technical University of Denmark, 2800, Kongens Lyngby, Denmark; 21Systematic Mycology Lab., Botany and Microbiology Department, Faculty of Science, Suez Canal University, Ismailia, 41522, Egypt; 22Department of Plant Protection, Faculty of Agriculture, University of Kurdistan, P.O. Box 416, Sanandaj, Iran; 23Department of Medical Microbiology, King's College Hospital, London, UK;24Department of Infectious Diseases, Imperial College London, London, UK;25Department of Mycology and Plant Resistance, V. N. Karazin Kharkiv National University, Maidan Svobody 4, 61022, Kharkiv, Ukraine; 26Department of Food Science and Technology, Cape Peninsula University of Technology, P.O. Box 1906, Bellville, 7535, South Africa; 27School of Forest Resources and Conservation, University of Florida, Gainesville, FL, USA; 28Department of Plant Pathology and Microbiology, College of Bio-Resources and Agriculture, National Taiwan University, No.1, Sec.4, Roosevelt Road, Taipei, 106, Taiwan, ROC

Published

2021

18. Seven new cytotoxic and antimicrobial xanthoquinodins from jugulospora vestita

Author

Universitat Rovira i Virgili, Shao L; Marin-Felix Y; Surup F; Stchigel AM; Stadler M, Universitat Rovira i Virgili, and Shao L; Marin-Felix Y; Surup F; Stchigel AM; Stadler M

Abstract

© 2020 by the authors. Licensee MDPI, Basel, Switzerland. During the course of a screening for novel biologically active secondary metabolites produced by the Sordariomycetes (Ascomycota, Fungi), the ex-type strain of Jugulospora vestita was found to produce seven novel xanthone-anthraquinone heterodimers, xanthoquinodin A11 (1) and xanthoquinodins B10–15 (2–7), together with the already known compound xanthoquinodin B4 (8). The structures of the xanthoquinodins were determined by analysis of the nuclear magnetic resonance (NMR) spectroscopic and mass spectrometric data. Moreover, the absolute configurations of these metabolites were established by analysis of the1H−1H coupling constants, nuclear Overhauser effect spectroscopy (NOESY) correlations, and Electronic Circular Dichroism (ECD) spectroscopic data. Antifungal and antibacterial activities as well as cytotoxicity of all compounds were tested. Xanthoquinodin B11 showed fungicidal activities against Mucor hiemalis [minimum inhibitory concentration (MIC) 2.1 µg/mL], Rhodotorula glutinis (MIC 2.1 µg/mL), and Pichia anomala (MIC 8.3 µg/mL). All the compounds 1–8 displayed anti-Gram-positive bacteria activity (MIC 0.2–8.3 µg/mL). In addition, all these eight compounds showed cytotoxicity against KB 3.1, L929, A549, SK-OV-3, PC-3, A431, and MCF-7 mammalian cell lines. The six novel compounds (1–3, 5–7), together with xanthoquinodin B4, were also found in the screening of other strains belonging to Jugulospora rotula, revealing the potential chemotaxonomic significance of the compound class for the genus.

Published

2020

19. Genera of phytopathogenic fungi: GOPHY 2

Author

Marin-Felix, Y, Hernandez-Restrepo, M, Wingfield, MJ, Akulov, A, Carnegie, AJ, Cheewangkoon, R, Gramaje, D, Groenewald, JZ, Guarnaccia, V, Halleen, F, Lombard, L, Luangsa-ard, J, Marincowitz, S, Moslemi, A, Mostert, L, Quaedvlieg, W, Schumacher, RK, Spies, CFJ, Thangavel, R, Taylor, PWJ, Wilson, AM, Wingfield, BD, Wood, AR, Crous, PW, Marin-Felix, Y, Hernandez-Restrepo, M, Wingfield, MJ, Akulov, A, Carnegie, AJ, Cheewangkoon, R, Gramaje, D, Groenewald, JZ, Guarnaccia, V, Halleen, F, Lombard, L, Luangsa-ard, J, Marincowitz, S, Moslemi, A, Mostert, L, Quaedvlieg, W, Schumacher, RK, Spies, CFJ, Thangavel, R, Taylor, PWJ, Wilson, AM, Wingfield, BD, Wood, AR, and Crous, PW

Abstract

This paper represents the second contribution in the Genera of Phytopathogenic Fungi (GOPHY) series. The series provides morphological descriptions and information regarding the pathology, distribution, hosts and disease symptoms for the treated genera. In addition, primary and secondary DNA barcodes for the currently accepted species are included. This second paper in the GOPHY series treats 20 genera of phytopathogenic fungi and their relatives including: Allantophomopsiella, Apoharknessia, Cylindrocladiella, Diaporthe, Dichotomophthora, Gaeumannomyces, Harknessia, Huntiella, Macgarvieomyces, Metulocladosporiella, Microdochium, Oculimacula, Paraphoma, Phaeoacremonium, Phyllosticta, Proxypiricularia, Pyricularia, Stenocarpella, Utrechtiana and Wojnowiciella. This study includes the new genus Pyriculariomyces, 20 new species, five new combinations, and six typifications for older names.

Published

2019

20. Genera of phytopathogenic fungi: GOPHY 3

Author

Marin-Felix, Y, Hernandez-Restrepo, M, Iturrieta-Gonzalez, I, Garcia, D, Gene, J, Groenewald, JZ, Cai, L, Chen, Q, Quaedvlieg, W, Schumacher, RK, Taylor, PWJ, Ambers, C, Bonthond, G, Edwards, J, Krueger-Hadfield, SA, Luangsa-ard, JJ, Morton, L, Moslemi, A, Sandoval-Denis, M, Tan, YP, Thangavel, R, Vaghefi, N, Cheewangkoon, R, Crous, PW, Marin-Felix, Y, Hernandez-Restrepo, M, Iturrieta-Gonzalez, I, Garcia, D, Gene, J, Groenewald, JZ, Cai, L, Chen, Q, Quaedvlieg, W, Schumacher, RK, Taylor, PWJ, Ambers, C, Bonthond, G, Edwards, J, Krueger-Hadfield, SA, Luangsa-ard, JJ, Morton, L, Moslemi, A, Sandoval-Denis, M, Tan, YP, Thangavel, R, Vaghefi, N, Cheewangkoon, R, and Crous, PW

Abstract

This paper represents the third contribution in the Genera of Phytopathogenic Fungi (GOPHY) series. The series provides morphological descriptions, information about the pathology, distribution, hosts and disease symptoms for the treated genera, as well as primary and secondary DNA barcodes for the currently accepted species included in these. This third paper in the GOPHY series treats 21 genera of phytopathogenic fungi and their relatives including: Allophoma, Alternaria, Brunneosphaerella, Elsinoe, Exserohilum, Neosetophoma, Neostagonospora, Nothophoma, Parastagonospora, Phaeosphaeriopsis, Pleiocarpon, Pyrenophora, Ramichloridium, Seifertia, Seiridium, Septoriella, Setophoma, Stagonosporopsis, Stemphylium, Tubakia and Zasmidium. This study includes three new genera, 42 new species, 23 new combinations, four new names, and three typifications of older names.

Published

2019

21. Genera of phytopathogenic fungi: GOPHY 3

Author

Ciències Mèdiques Bàsiques, Universitat Rovira i Virgili, Marin-Felix Y, Hernández-Restrepo M, Iturrieta-González I, García D, Gené J, Groenewald J, Cai L, Chen Q, Quaedvlieg W, Schumacher R, Taylor P, Ambers C, Bonthond G, Edwards J, Krueger-Hadfield S, Luangsa-ard J, Morton L, Moslemi A, Sandoval-Denis M, Tan Y, Thangavel R, Vaghefi N, Cheewangkoon R, Crous P, Ciències Mèdiques Bàsiques, Universitat Rovira i Virgili, and Marin-Felix Y, Hernández-Restrepo M, Iturrieta-González I, García D, Gené J, Groenewald J, Cai L, Chen Q, Quaedvlieg W, Schumacher R, Taylor P, Ambers C, Bonthond G, Edwards J, Krueger-Hadfield S, Luangsa-ard J, Morton L, Moslemi A, Sandoval-Denis M, Tan Y, Thangavel R, Vaghefi N, Cheewangkoon R, Crous P

Abstract

© 2019 Westerdijk Fungal Biodiversity Institute This paper represents the third contribution in the Genera of Phytopathogenic Fungi (GOPHY) series. The series provides morphological descriptions, information about the pathology, distribution, hosts and disease symptoms for the treated genera, as well as primary and secondary DNA barcodes for the currently accepted species included in these. This third paper in the GOPHY series treats 21 genera of phytopathogenic fungi and their relatives including: Allophoma, Alternaria, Brunneosphaerella, Elsinoe, Exserohilum, Neosetophoma, Neostagonospora, Nothophoma, Parastagonospora, Phaeosphaeriopsis, Pleiocarpon, Pyrenophora, Ramichloridium, Seifertia, Seiridium, Septoriella, Setophoma, Stagonosporopsis, Stemphylium, Tubakia and Zasmidium. This study includes three new genera, 42 new species, 23 new combinations, four new names, and three typifications of older names.

Published

2019

22. Melanospora (Sordariomycetes, Ascomycota) and its relatives

Author

Ciències Mèdiques Bàsiques, Universitat Rovira i Virgili, Marin-Felix Y, Guarro J, Ano-Lira JF, García D, Iller AN, Stchigel AM, Ciències Mèdiques Bàsiques, Universitat Rovira i Virgili, and Marin-Felix Y, Guarro J, Ano-Lira JF, García D, Iller AN, Stchigel AM

Abstract

The order Melanosporales comprises a large group of ascomycetes, most of them mycoparasites, characterized by the production of usually ostiolate, translucent ascomata, unitunicate asci, and unicellular, pigmented ascospores with germ pores or germ slits. The most studied taxa are Melanospora and Sphaerodes, but the boundaries with other morphologically closely related genera are not well resolved. In this study, the taxonomy of Melanospora and related taxa have been re-evaluated based on the analysis of nuclear rDNA, actin and elongation factor genes sequences of fresh isolates and numerous type and reference strains. The genus Melanospora has been restricted to species with ostiolate ascoma whose neck is composed of intermixed hyphae, and with a phialidic asexual morph. Microthecium has been re-established for species of Melanospora and Sphaerodes without a typical ascomatal neck or, if present, being short and composed of angular cells similar to those of the ascomatal wall, and usually producing bulbils. Three new genera have been proposed: Dactylidispora, possessing ascospores with a raised rim surrounding both terminal germ pores; Echinusitheca, with densely setose, dark ascomata; and Pseudomicrothecium, characterized by ascospores with indistinct germ pores. Dichotomous keys to identify the accepted genera of the Melanosporales, and keys to discriminate among the species of Melanospora and Microthecium, as well as a brief description of the accepted species of both genera, are also provided.

Published

2018

23. New species and records of Bipolaris and Curvularia from Thailand

Author

Marin-Felix, Y, primary

Published

2017

24. Fungal Planet description sheets: 214–280

Author

Crous, P. W., Shivas, R. G., Quaedvlieg, W., van der Bank, M., Zhang, Y., Summerell, B. A., Guarro, J., Wingfield, M. J., Wood, A. R., Alfenas, A. C., Braun, U., Cano-Lira, J. F., Garcia, D., Marin-Felix, Y., Alvarado, P., Andrade, J. P., Armengol, J., Assefa, A., den Breeyen, A., Camele, I., Cheewangkoon, R., De Souza, J. T., Duong, T. A., Esteve-Raventos, F., Fournier, J., Frisullo, S., Garcia-Jimenez, J., Gardiennet, A., Gene, J., Hernandez Restrepo, Margarita Ines, Hirooka, Y., Hospenthal, D. R., King, A., Lechat, C., Lombard, L., Mang, S. M., Marbach, P. A. S., Marincowitz, S., Montano-Mata, N. J., Moreno, G., Perez, C. A., Sierra, A. M. Perez, Robertson, J. L., Roux, J., Rubio, E., Schumacher, R. K., Stchigel, A. M., Sutton, D. A., Tan, Y. P., Thompson, E. H., van der Linde, E., Walker, A. K., Walker, D. M., Wickes, B. L., Wong, P. T. W., Groenewald, J. Z., and Naturalis journals & series

Subjects

LSU, novel fungal species, ITS DNA barcodes, systematics, novel fungal genera

Abstract

Novel species of microfungi described in the present study include the following from South Africa: Cercosporella dolichandrae from Dolichandra unguiscati, Seiridium podocarpi from Podocarpus latifolius, Pseudocercospora parapseudarthriae from Pseudarthria hookeri, Neodevriesia coryneliae from Corynelia uberata on leaves of Afrocarpus falcatus, Ramichloridium eucleae from Euclea undulata and Stachybotrys aloeticola from Aloe sp. (South Africa), as novel member of the Stachybotriaceae fam. nov. Several species were also described from Zambia, and these include Chaetomella zambiensis on unknown Fabaceae, Schizoparme pseudogranati from Terminalia stuhlmannii, Diaporthe isoberliniae from Isoberlinia angolensis, Peyronellaea combreti from Combretum mossambiciensis, Zasmidium rothmanniae and Phaeococcomyces rothmanniae from Rothmannia engleriana, Diaporthe vangueriae from Vangueria infausta and Diaporthe parapterocarpi from Pterocarpus brenanii. Novel species from the Netherlands include: Stagonospora trichophoricola, Keissleriella trichophoricola and Dinemasporium trichophoricola from Trichophorum cespitosum, Phaeosphaeria poae, Keissleriella poagena, Phaeosphaeria poagena, Parastagonospora poagena and Pyrenochaetopsis poae from Poa sp., Septoriella oudemansii from Phragmites australis and Dendryphion europaeum from Hedera helix (Germany) and Heracleum sphondylium (the Netherlands). Novel species from Australia include: Anungitea eucalyptorum from Eucalyptus leaf litter, Beltraniopsis neolitseae and Acrodontium neolitseae from Neolitsea australiensis, Beltraniella endiandrae from Endiandra introrsa, Phaeophleospora parsoniae from Parsonia straminea, Penicillifer martinii from Cynodon dactylon, Ochroconis macrozamiae from Macrozamia leaf litter, Triposporium cycadicola, Circinotrichum cycadis, Cladosporium cycadicola and Acrocalymma cycadis from Cycas spp. Furthermore, Vermiculariopsiella dichapetali is described from Dichapetalum rhodesicum (Botswana), Ophiognomonia acadiensis from Picea rubens (Canada), Setophoma vernoniae from Vernonia polyanthes and Penicillium restingae from soil (Brazil), Pseudolachnella guaviyunis from Myrcianthes pungens (Uruguay) and Pseudocercospora neriicola from Nerium oleander (Italy). Novelties from Spain include: Dendryphiella eucalyptorum from Eucalyptus globulus, Conioscypha minutispora from dead wood, Diplogelasinospora moalensis and Pseudoneurospora canariensis from soil and Inocybe lanatopurpurea from reforested woodland of Pinus spp. Novelties from France include: Kellermania triseptata from Agave angustifolia, Zetiasplozna acaciae from Acacia melanoxylon, Pyrenochaeta pinicola from Pinus sp. and Pseudonectria rusci from Ruscus aculeatus. New species from China include: Dematiocladium celtidicola from Celtis bungeana, Beltrania pseudorhombica, Chaetopsina beijingensis and Toxicocladosporium pini from Pinus spp. and Setophaeosphaeria badalingensis from Hemerocallis fulva. Novel genera of Ascomycetes include Alfaria from Cyperus esculentus (Spain), Rinaldiella from a contaminated human lesion (Georgia), Hyalocladosporiella from Tectona grandis (Brazil), Pseudoacremonium from Saccharum spontaneum and Melnikomyces from leaf litter (Vietnam), Annellosympodiella from Juniperus procera (Ethiopia), Neoceratosperma from Eucalyptus leaves (Thailand), Ramopenidiella from Cycas calcicola (Australia), Cephalotrichiella from air in the Netherlands, Neocamarosporium from Mesembryanthemum sp. and Acervuloseptoria from Ziziphus mucronata (South Africa) and Setophaeosphaeria from Hemerocallis fulva (China). Several novel combinations are also introduced, namely for Phaeosphaeria setosa as Setophaeosphaeria setosa, Phoma heteroderae as Peyronellaea heteroderae and Phyllosticta maydis as Peyronellaea maydis. Morphological and culture characteristics along with ITS DNA barcodes are provided for all taxa.

Published

2014

25. Leiothecium cristatum sp. nov. and Aspergillus posadasensis sp. nov., two species of Eurotiales from rainforest soils in South America

Author

Marin-Felix, Y., Cano-Lira, J.F., Guarro, J., Stchigel, A.M., Psicologia, and Universitat Rovira i Virgili.

Abstract

10.1099/ijs.0.063164-0 We describe two novel fungi isolated from soil samples collected in Northern Argentina and belonging to the family Aspergillaceae of the order Eurotiales:Leiothecium cristatum sp. nov. and Aspergillus posadasensis sp. nov.Leiothecium cristatum sp. nov., represented by the ex-type strain FMR 11998T(= CBS 134260T = NBRC 109843T), is distinguishable morphologically from the type species of the genus, Leiothecium ellipsoideum, by the presence of irregular reticulate ascospores with two prominent equatorial crests, and Aspergillus posadasensis sp. nov., represented by the ex-type strain FMR 12168T (= CBS 134259T = NBRC 109845T), is differentiated from Aspergillus acanthosporus, the nearest species phylogenetically, by its non-sclerotioid ascomata and a lack of an asexual stage on all culture media tested. The taxonomic proposals are supported by the analysis of the sequences of the internal transcribed spacer region, the D1-D2 domains of the 28S rRNA gene, the fragments of the RNA polymerase II largest subunit, and the putative chaperonin complex related to TCP-1, ß-tubulin and calmodulin genes.

Published

2014

26. Fungal planet description sheets: 154-213

Author

Crous, P.W., Wingfield, M.J., Guarro, J., Cheewangkoon, R., Van der Bank, M., Swart, W.J., Stchigel, A.M., Cano-Lira, J.F., Roux, J., Madrid, H., Damm, U., Wood, A.R., Shuttleworth, L.A., Hodges, C.S., Munster, M., De Jesús Yáñez-Morales, M., Zúñiga-Estrada, L., Cruywagen, E.M., De Hoog, G.S., Silvera, C., Najafzadeh, J., Davison, E.M., Davison, P.J.N., Barrett, M.D., Barrett, R.L., Manamgoda, D.S., Minnis, A.M., Kleczewski, N.M., Flory, S.L., Castlebury, L.A., Clay, K., Hyde, K.D., Maússe-Sitoe, S.N.D., Chen, S., Lechat, C., Hairaud, M., Lesage-Meessen, L., Pawlowska, J., Wilk, M., Sliwinska-Wyrzychowska, A., Metrak, M., Wrzosek, M., Pavlic-Zupanc, D., Maleme, H.M., Slippers, B., MacCormack, W.P., Archuby, D.I., Grünwald, N.J., Tellería, M.T., Dueñas, M., Martín, M.P., Marincowitz, S., de Beer, Z.W., Perez, C.A., Gené, J., Marin-Felix, Y., Groenewald, J.Z., Enginyeria Mecànica, Enginyeria Química, and Universitat Rovira i Virgili.

Subjects

1878-9080

Abstract

10.3767/003158513X675925 Novel species of microfungi described in the present study include the following from South Africa: Camarosporium aloes, Phaeococcomyces aloes and Phoma aloes from Aloe, C. psoraleae, Diaporthe psoraleae and D. psoraleae-pinnatae from Psoralea, Colletotrichum euphorbiae from Euphorbia, Coniothyrium prosopidis and Peyronellaea prosopidis from Prosopis, Diaporthe cassines from Cassine, D. diospyricola from Diospyros, Diaporthe maytenicola from Maytenus, Harknessia proteae from Protea, Neofusicoccum ursorum and N. cryptoaustrale from Eucalyptus, Ochrocladosporium adansoniae from Adansonia, Pilidium pseudoconcavum from Greyia radlkoferi, Stagonospora pseudopaludosa from Phragmites and Toxicocladosporium ficiniae from Ficinia. Several species were also described from Thailand, namely: Chaetopsina pini and C. pinicola from Pinus spp., Myrmecridium thailandicum from reed litter, Passalora pseudotithoniae from Tithonia, Pallidocercospora ventilago from Ventilago, Pyricularia bothriochloae from Bothriochloa and Sphaerulina rhododendricola from Rhododendron. Novelties from Spain include Cladophialophora multiseptata, Knufia tsunedae and Pleuroascus rectipilus from soil and Cyphellophora catalaunica from river sediments. Species from the USA include Bipolaris drechsleri from Microstegium, Calonectria blephiliae from Blephilia, Kellermania macrospora (epitype) and K. pseudoyuccigena from Yucca. Three new species are described from Mexico, namely Neophaeosphaeria agaves and K. agaves from Agave and Phytophthora ipomoeae from Ipomoea. Other African species include Calonectria mossambicensis from Eucalyptus (Mozambique), Harzia cameroonensis from an unknown creeper (Cameroon), Mastigosporella anisophylleae from Anisophyllea (Zambia) and Teratosphaeria terminal

Published

2013

27. Fungal Planet description sheets: 214–280

Author

Crous, P.W. (Pedro Willem), Shivas, R.G., Quaedvlieg, W., Bank, M. van der, Zhang, Y., Summerell, B.A., Guarro, J., Wingfield, M.J., Wood, A.R., Alfenas, A.C., Braun, U., Cano-Lira, J.F., García, D., Marin-Felix, Y., Alvarado, P., Andrade, J.P., Armengol, J., Assefa, A., Breeÿen, A. den, Camele, I., Cheewangkoon, R., De Souza, J.T., Duong, T.A., Esteve-Raventós, F., Fournier, J., Frisullo, S., García-Jiménez, J., Gardiennet, A., Gené, J., Hernández-Restrepo, M., Hirooka, Y., Hospenthal, D.R., King, A., Lechat, C., Lombard, L., Mang, S.M., Marbach, P.A.S., Marincowitz, S., Montaño-Mata, N.J., Moreno, G., Perez, C.A., Pérez Sierra, A.M., Robertson, J.L., Roux, J., Rubio, E., Schumacher, R.K., Stchigel, A.M., Sutton, D.A., Tan, Y.P., Thompson, E.H., Linde, E. van der, Walker, A.K., Walker, D.M., Wickes, B.L., Wong, P.T.W., Groenewald, J.Z., Crous, P.W. (Pedro Willem), Shivas, R.G., Quaedvlieg, W., Bank, M. van der, Zhang, Y., Summerell, B.A., Guarro, J., Wingfield, M.J., Wood, A.R., Alfenas, A.C., Braun, U., Cano-Lira, J.F., García, D., Marin-Felix, Y., Alvarado, P., Andrade, J.P., Armengol, J., Assefa, A., Breeÿen, A. den, Camele, I., Cheewangkoon, R., De Souza, J.T., Duong, T.A., Esteve-Raventós, F., Fournier, J., Frisullo, S., García-Jiménez, J., Gardiennet, A., Gené, J., Hernández-Restrepo, M., Hirooka, Y., Hospenthal, D.R., King, A., Lechat, C., Lombard, L., Mang, S.M., Marbach, P.A.S., Marincowitz, S., Montaño-Mata, N.J., Moreno, G., Perez, C.A., Pérez Sierra, A.M., Robertson, J.L., Roux, J., Rubio, E., Schumacher, R.K., Stchigel, A.M., Sutton, D.A., Tan, Y.P., Thompson, E.H., Linde, E. van der, Walker, A.K., Walker, D.M., Wickes, B.L., Wong, P.T.W., and Groenewald, J.Z.

Abstract

Novel species of microfungi described in the present study include the following from South Africa: Cercosporella dolichandrae from Dolichandra unguiscati, Seiridium podocarpi from Podocarpus latifolius, Pseudocercospora parapseudarthriae from Pseudarthria hookeri, Neodevriesia coryneliae from Corynelia uberata on leaves of Afrocarpus falcatus, Ramichloridium eucleae from Euclea undulata and Stachybotrys aloeticola from Aloe sp. (South Africa), as novel member of the Stachybotriaceae fam. nov. Several species were also described from Zambia, and these include Chaetomella zambiensis on unknown Fabaceae, Schizoparme pseudogranati from Terminalia stuhlmannii, Diaporthe isoberliniae from Isoberlinia angolensis, Peyronellaea combreti from Combretum mossambiciensis, Zasmidium rothmanniae and Phaeococcomyces rothmanniae from Rothmannia engleriana, Diaporthe vangueriae from Vangueria infausta and Diaporthe parapterocarpi from Pterocarpus brenanii. Novel species from the Netherlands include: Stagonospora trichophoricola, Keissleriella trichophoricola and Dinemasporium trichophoricola from Trichophorum cespitosum, Phaeosphaeria poae, Keissleriella poagena, Phaeosphaeria poagena, Parastagonospora poagena and Pyrenochaetopsis poae from Poa sp., Septoriella oudemansii from Phragmites australis and Dendryphion europaeum from Hedera helix (Germany) and Heracleum sphondylium (the Netherlands). Novel species from Australia include: Anungitea eucalyptorum from Eucalyptus leaf litter, Beltraniopsis neolitseae and Acrodontium neolitseae from Neolitsea australiensis, Beltraniella endiandrae from Endiandra introrsa, Phaeophleospora parsoniae from Parsonia straminea, Penicillifer martinii from Cynodon dactylon, Ochroconis macrozamiae from Macrozamia leaf litter, Triposporium cycadicola, Circinotrichum cycadis, Cladosporium cycadicola and Acrocalymma cycadis from Cycas spp. Furthermore, Vermiculariopsiella dichapetali is described from Dichapetalum rhodesicum (Botswana), Ophiognomonia acad

Published

2014

28. Fungal Planet description sheets: 214-280

Author

Universitat Rovira i Virgili, Crous PW; Shivas RG; Quaedvlieg W; van der Bank M; Zhang Y; Summerell BA; Guarro J; Wingfield MJ; Wood AR; Alfenas AC; Braun U; Cano-Lira JF; García D; Marin-Felix Y; Alvarado P; Andrade JP; Armengol J; Assefa A; den Breeÿen A; Camele I; Cheewangkoon R; De Souza JT; Duong TA; Esteve-Raventós F; Fournier J; Frisullo S; García-Jiménez J; Gardiennet A; Gené J; Hernández-Restrepo M; Hirooka Y; Hospenthal DR; King A; Lechat C; Lombard L; Mang SM; Marbach PAS; Marincowitz S; Montaño-Mata NJ, Universitat Rovira i Virgili, and Crous PW; Shivas RG; Quaedvlieg W; van der Bank M; Zhang Y; Summerell BA; Guarro J; Wingfield MJ; Wood AR; Alfenas AC; Braun U; Cano-Lira JF; García D; Marin-Felix Y; Alvarado P; Andrade JP; Armengol J; Assefa A; den Breeÿen A; Camele I; Cheewangkoon R; De Souza JT; Duong TA; Esteve-Raventós F; Fournier J; Frisullo S; García-Jiménez J; Gardiennet A; Gené J; Hernández-Restrepo M; Hirooka Y; Hospenthal DR; King A; Lechat C; Lombard L; Mang SM; Marbach PAS; Marincowitz S; Montaño-Mata NJ

Abstract

Novel species of microfungi described in the present study include the following from South Africa: Cercosporella dolichandrae from Dolichandra unguiscati, Seiridium podocarpi from Podocarpus latifolius, Pseudocercospora parapseudarthriae from Pseudarthria hookeri, Neodevriesia coryneliae from Corynelia uberata on leaves of Afrocarpus falcatus, Ramichloridium eucleae from Euclea undulata and Stachybotrys aloeticola from Aloe sp. (South Africa), as novel member of the Stachybotriaceae fam. nov. Several species were also described from Zambia, and these include Chaetomella zambiensis on unknown Fabaceae, Schizoparme pseudogranati from Terminalia stuhlmannii, Diaporthe isoberliniae from Isoberlinia angolensis, Peyronellaea combreti from Combretum mossambiciensis, Zasmidium rothmanniae and Phaeococcomyces rothmanniae from Rothmannia engleriana, Diaporthe vangueriae from Vangueria infausta and Diaporthe parapterocarpi from Pterocarpus brenanii. Novel species from the Netherlands include: Stagonospora trichophoricola, Keissleriella trichophoricola and Dinemasporium trichophoricola from Trichophorum cespitosum, Phaeosphaeria poae, Keissleriella poagena, Phaeosphaeria poagena, Parastagonospora poagena and Pyrenochaetopsis poae from Poa sp., Septoriella oudemansii from Phragmites australis and Dendryphion europaeum from Hedera helix (Germany) and Heracleum sphondylium (the Netherlands). Novel species from Australia include: Anungitea eucalyptorum from Eucalyptus leaf litter, Beltraniopsis neolitseae and Acrodontium neolitseae from Neolitsea australiensis, Beltraniella endiandrae from Endiandra introrsa, Phaeophleospora parsoniae from Parsonia straminea, Penicillifer martinii from Cynodon dactylon, Ochroconis macrozamiae from Macrozamia leaf litter, Triposporium cycadicola, Circi

Published

2014

29. Fungal Planet description sheets: 154–213

Author

Crous, P.W. (Pedro Willem), Wingfield, M.J., Guarro, J., Cheewangkoon, R., Bank, M. van der, Swart, W.J., Stchigel, A.M., Cano-Lira, J.F., Roux, J., Madrid, H., Damm, U., Wood, A.R., Shuttleworth, L.A., Hodges, C.S., Munster, M., Jesús Yáñez-Morales, M. de, Zúñiga-Estrada, L., Cruywagen, E.M., Hoog, G.S. de, Silvera, C., Najafzadeh, J., Davison, E.M., Davison, P.J.N., Barrett, M.D., Barrett, R.L., Manamgoda, D.S., Minnis, A.M., Kleczewski, N.M., Flory, S.L., Castlebury, L.A., Clay, K., Hyde, K.D., Maússe-Sitoe, S.N.D., Chen, Shuaifei, Lechat, C., Hairaud, M., Lesage-Meessen, L., Pawłowska, J., Wilk, M., Śliwińska-Wyrzychowska, A., Mętrak, M., Wrzosek, M., Pavlic-Zupanc, D., Maleme, H.M., Slippers, B., Mac Cormack, W.P., Archuby, D.I., Grünwald, N.J., Tellería, M.T., Dueñas, M., Martín, M.P., Marincowitz, S., Beer, Z.W. de, Perez, C.A., Gené, J., Marin-Felix, Y., Groenewald, J.Z., Crous, P.W. (Pedro Willem), Wingfield, M.J., Guarro, J., Cheewangkoon, R., Bank, M. van der, Swart, W.J., Stchigel, A.M., Cano-Lira, J.F., Roux, J., Madrid, H., Damm, U., Wood, A.R., Shuttleworth, L.A., Hodges, C.S., Munster, M., Jesús Yáñez-Morales, M. de, Zúñiga-Estrada, L., Cruywagen, E.M., Hoog, G.S. de, Silvera, C., Najafzadeh, J., Davison, E.M., Davison, P.J.N., Barrett, M.D., Barrett, R.L., Manamgoda, D.S., Minnis, A.M., Kleczewski, N.M., Flory, S.L., Castlebury, L.A., Clay, K., Hyde, K.D., Maússe-Sitoe, S.N.D., Chen, Shuaifei, Lechat, C., Hairaud, M., Lesage-Meessen, L., Pawłowska, J., Wilk, M., Śliwińska-Wyrzychowska, A., Mętrak, M., Wrzosek, M., Pavlic-Zupanc, D., Maleme, H.M., Slippers, B., Mac Cormack, W.P., Archuby, D.I., Grünwald, N.J., Tellería, M.T., Dueñas, M., Martín, M.P., Marincowitz, S., Beer, Z.W. de, Perez, C.A., Gené, J., Marin-Felix, Y., and Groenewald, J.Z.

Abstract

Novel species of microfungi described in the present study include the following from South Africa: Camarosporium aloes, Phaeococcomyces aloes and Phoma aloes from Aloe, C. psoraleae, Diaporthe psoraleae and D. psoraleae-pinnatae from Psoralea, Colletotrichum euphorbiae from Euphorbia, Coniothyrium prosopidis and Peyronellaea prosopidis from Prosopis, Diaporthe cassines from Cassine, D. diospyricola from Diospyros, Diaporthe maytenicola from Maytenus, Harknessia proteae from Protea, Neofusicoccum ursorum and N. cryptoaustrale from Eucalyptus, Ochrocladosporium adansoniae from Adansonia, Pilidium pseudoconcavum from Greyia radlkoferi, Stagonospora pseudopaludosa from Phragmites and Toxicocladosporium ficiniae from Ficinia. Several species were also described from Thailand, namely: Chaetopsina pini and C. pinicola from Pinus spp., Myrmecridium thailandicum from reed litter, Passalora pseudotithoniae from Tithonia, Pallidocercospora ventilago from Ventilago, Pyricularia bothriochloae from Bothriochloa and Sphaerulina rhododendricola from Rhododendron. Novelties from Spain include Cladophialophora multiseptata, Knufia tsunedae and Pleuroascus rectipilus from soil and Cyphellophora catalaunica from river sediments. Species from the USA include Bipolaris drechsleri from Microstegium, Calonectria blephiliae from Blephilia, Kellermania macrospora (epitype) and K. pseudoyuccigena from Yucca. Three new species are described from Mexico, namely Neophaeosphaeria agaves and K. agaves from Agave and Phytophthora ipomoeae from Ipomoea. Other African species include Calonectria mossambicensis from Eucalyptus (Mozambique), Harzia cameroonensis from an unknown creeper (Cameroon), Mastigosporella anisophylleae from Anisophyllea (Zambia) and Teratosphaeria terminaliae from Terminalia (Zimbabwe). Species from Europe include Auxarthron longisporum from forest soil (Portugal), Discosia pseudoartocreas from Tilia (Austria), Paraconiothyrium polonense and P. lycopodinum from Lycopodium (Pol

Published

2013

30. Fungal Planet Description Sheets:154-213

Author

Crous, P. W., Wingfield, M. J., Guarro, J., Cheewangkoon, R., van der Bank, M., Swart, W. J., Stchigel, A. M., Cano-Lira, J.F., Roux, J., Madrid, H., Damm, U., Wood, A. R., Shuttleworth, L. A., Hodges, C. S., Munster, M., de Jesús Yáñez-Morales, M., Zúñiga-Estrada, L., Cruywagen, E. M., de Hoog, G.S., Silvera, C., Najafzadeh, J., Davison, E. M., Davison, P. J. N., Barrett, Matthew D., Barrett, R. L., Manamgoda, D. S., Minnis, A. M., Kleczewski, N. M., Flory, S. L., Castlebury, L. A., Clay, K., Hyde, K.D., Maússe-Sitoe, S. N. D., Chen, Shuaifei, Lechat, C., Hairaud, M., Lesage-Meessen, Laurence, Pawowska, J., Wilk, M., Wrzosek, M., Pavlic-Zupanc, D., Maleme, H. M., Slippers, B., Mac Cormack, W. P., Archuby, D. I., Grünwald, N. J., Tellería, M. T., Dueñas, Margarita, Martín, María P., Marincowitz, S., de Beer, Z.W., Perez, C. A., Gené, J., Marin-Felix, Y., Groenewald, J. Z., Crous, P. W., Wingfield, M. J., Guarro, J., Cheewangkoon, R., van der Bank, M., Swart, W. J., Stchigel, A. M., Cano-Lira, J.F., Roux, J., Madrid, H., Damm, U., Wood, A. R., Shuttleworth, L. A., Hodges, C. S., Munster, M., de Jesús Yáñez-Morales, M., Zúñiga-Estrada, L., Cruywagen, E. M., de Hoog, G.S., Silvera, C., Najafzadeh, J., Davison, E. M., Davison, P. J. N., Barrett, Matthew D., Barrett, R. L., Manamgoda, D. S., Minnis, A. M., Kleczewski, N. M., Flory, S. L., Castlebury, L. A., Clay, K., Hyde, K.D., Maússe-Sitoe, S. N. D., Chen, Shuaifei, Lechat, C., Hairaud, M., Lesage-Meessen, Laurence, Pawowska, J., Wilk, M., Wrzosek, M., Pavlic-Zupanc, D., Maleme, H. M., Slippers, B., Mac Cormack, W. P., Archuby, D. I., Grünwald, N. J., Tellería, M. T., Dueñas, Margarita, Martín, María P., Marincowitz, S., de Beer, Z.W., Perez, C. A., Gené, J., Marin-Felix, Y., and Groenewald, J. Z.

Abstract

Novel species of microfungi described in the present study include the following from South Africa: Camarosporium aloes, Phaeococcomyces aloes and Phoma aloes from Aloe, C. psoraleae, Diaporthe psoraleae and D. psoraleae-pinnatae from Psoralea, Colletotrichum euphorbiae from Euphorbia, Coniothyrium prosopidis and Peyronellaea prosopidis from Prosopis, Diaporthe cassines from Cassine, D. diospyricola from Diospyros, Diaporthe maytenicola from Maytenus, Harknessia proteae from Protea, Neofusicoccum ursorum and N. cryptoaustrale from Eucalyptus, Ochrocladosporium adansoniae from Adansonia, Pilidium pseudoconcavum from Greyia radlkoferi, Stagonospora pseudopaludosa from Phragmites and Toxicocladosporium ficiniae from Ficinia. Several species were also described from Thailand, namely: Chaetopsina pini and C. pinicola from Pinus spp., Myrmecridium thailandicum from reed litter, Passalora pseudotithoniae from Tithonia, Pallidocercospora ventilago from Ventilago, Pyricularia bothriochloae from Bothriochloa and Sphaerulina rhododendricola from Rhododendron. Novelties from Spain include Cladophialophora multiseptata, Knufia tsunedae and Pleuroascus rectipilus from soil and Cyphellophora catalaunica from river sediments. Species from the USA include Bipolaris drechsleri from Microstegium, Calonectria blephiliae from Blephilia, Kellermania macrospora (epitype) and K. pseudoyuccigena from Yucca. Three new species are described from Mexico, namely Neophaeosphaeria agaves and K. agaves from Agave and Phytophthora ipomoeae from Ipomoea. Other African species include Calonectria mossambicensis from Eucalyptus (Mozambique), Harzia cameroonensis from an unknown creeper (Cameroon), Mastigosporella anisophylleae from Anisophyllea (Zambia) and Teratosphaeria terminaliae from Terminalia (Zimbabwe). Species from Europe include Auxarthron longisporum from forest soil (Portugal), Discosia pseudoartocreas from Tilia (Austria), Paraconiothyrium polonense and P. lycopodinum from Lycopodium (Pol

Published

2013

31. Fungal Planet description sheets: 154–213

Author

Crous, P., Wingfield, M., Guarro, J., Cheewangkoon, R., van der Bank, M., Swart, W., Stchigel, A., Cano-Lira, J., Roux, J., Madrid, H., Damm, U., Wood, A., Shuttleworth, L., Hodges, C., Munster, M., de Jesús Yáñez-Morales, M., Zúñiga-Estrada, L., Cruywagen, E., de Hoog, G., Silvera, C., Najafzadeh, J., Davison, Elaine, Davison, P., Barrett, M., Barrett, R., Manamgoda, D., Minnis, A., Kleczewski, N., Flory, S., Castlebury, L., Clay, K., Hyde, K., Maússe-Sitoe, S., Chen, S., Lechat, C., Hairaud, M., Lesage-Meessen, L., Pawlowska, J., Wilk, M., Sliwinska-Wyrzychowska, A., Metrak, M., Wrzosek, M., Pavlic-Zupanc, D., Maleme, H., Slippers, B., Mac Cormack, W., Archuby, D., Grünwald, N., Tellería, M., Dueñas, M., Martín, M., Marincowitz, S., de Beer, Z., Perez, C., Gené, J., Marin-Felix, Y., Groenewald, J., Crous, P., Wingfield, M., Guarro, J., Cheewangkoon, R., van der Bank, M., Swart, W., Stchigel, A., Cano-Lira, J., Roux, J., Madrid, H., Damm, U., Wood, A., Shuttleworth, L., Hodges, C., Munster, M., de Jesús Yáñez-Morales, M., Zúñiga-Estrada, L., Cruywagen, E., de Hoog, G., Silvera, C., Najafzadeh, J., Davison, Elaine, Davison, P., Barrett, M., Barrett, R., Manamgoda, D., Minnis, A., Kleczewski, N., Flory, S., Castlebury, L., Clay, K., Hyde, K., Maússe-Sitoe, S., Chen, S., Lechat, C., Hairaud, M., Lesage-Meessen, L., Pawlowska, J., Wilk, M., Sliwinska-Wyrzychowska, A., Metrak, M., Wrzosek, M., Pavlic-Zupanc, D., Maleme, H., Slippers, B., Mac Cormack, W., Archuby, D., Grünwald, N., Tellería, M., Dueñas, M., Martín, M., Marincowitz, S., de Beer, Z., Perez, C., Gené, J., Marin-Felix, Y., and Groenewald, J.

Abstract

Novel species of microfungi described in the present study include the following from South Africa: Camarosporium aloes, Phaeococcomyces aloes and Phoma aloes from Aloe, C. psoraleae, Diaporthe psoraleae and D. psoraleae-pinnatae from Psoralea, Colletotrichum euphorbiae from Euphorbia, Coniothyrium prosopidis and Peyronellaea prosopidis from Prosopis, Diaporthe cassines from Cassine, D. diospyricola from Diospyros, Diaporthe maytenicola from Maytenus, Harknessia proteae from Protea, Neofusicoccum ursorum and N. cryptoaustrale from Eucalyptus, Ochrocladosporium adansoniae from Adansonia, Pilidium pseudoconcavum from Greyia radlkoferi, Stagonospora pseudopaludosa from Phragmites and Toxicocladosporium ficiniae from Ficinia. Several species were also described from Thailand, namely: Chaetopsina pini and C. pinicola from Pinus spp., Myrmecridium thailandicum from reed litter, Passalora pseudotithoniae from Tithonia, Pallidocercospora ventilago from Ventilago, Pyricularia bothriochloae from Bothriochloa and Sphaerulina rhododendricola from Rhododendron. Novelties from Spain include Cladophialophora multiseptata, Knufia tsunedae and Pleuroascus rectipilus from soil and Cyphellophora catalaunica from river sediments. Species from the USA include Bipolaris drechsleri from Microstegium, Calonectria blephiliae from Blephilia, Kellermania macrospora (epitype) and K. pseudoyuccigena from Yucca. Three new species are described from Mexico, namely Neophaeosphaeria agaves and K. agaves from Agave and Phytophthora ipomoeae from Ipomoea. Other African species include Calonectria mossambicensis from Eucalyptus (Mozambique), Harzia cameroonensis from an unknown creeper (Cameroon), Mastigosporella anisophylleae from Anisophyllea (Zambia) and Teratosphaeria terminaliae from Terminalia (Zimbabwe). Species from Europe include Auxarthron longisporum from forest soil (Portugal), Discosia pseudoartocreas from Tilia (Austria), Paraconiothyrium polonense and P. lycopodinum from Lycopodium (Pol

Published

2013

32. Fungal planet description sheets: 154-213

Author

Enginyeria Mecànica, Enginyeria Química, Universitat Rovira i Virgili., Crous, P.W., Wingfield, M.J., Guarro, J., Cheewangkoon, R., Van der Bank, M., Swart, W.J., Stchigel, A.M., Cano-Lira, J.F., Roux, J., Madrid, H., Damm, U., Wood, A.R., Shuttleworth, L.A., Hodges, C.S., Munster, M., De Jesús Yáñez-Morales, M., Zúñiga-Estrada, L., Cruywagen, E.M., De Hoog, G.S., Silvera, C., Najafzadeh, J., Davison, E.M., Davison, P.J.N., Barrett, M.D., Barrett, R.L., Manamgoda, D.S., Minnis, A.M., Kleczewski, N.M., Flory, S.L., Castlebury, L.A., Clay, K., Hyde, K.D., Maússe-Sitoe, S.N.D., Chen, S., Lechat, C., Hairaud, M., Lesage-Meessen, L., Pawlowska, J., Wilk, M., Sliwinska-Wyrzychowska, A., Metrak, M., Wrzosek, M., Pavlic-Zupanc, D., Maleme, H.M., Slippers, B., MacCormack, W.P., Archuby, D.I., Grünwald, N.J., Tellería, M.T., Dueñas, M., Martín, M.P., Marincowitz, S., de Beer, Z.W., Perez, C.A., Gené, J., Marin-Felix, Y., Groenewald, J.Z., Enginyeria Mecànica, Enginyeria Química, Universitat Rovira i Virgili., Crous, P.W., Wingfield, M.J., Guarro, J., Cheewangkoon, R., Van der Bank, M., Swart, W.J., Stchigel, A.M., Cano-Lira, J.F., Roux, J., Madrid, H., Damm, U., Wood, A.R., Shuttleworth, L.A., Hodges, C.S., Munster, M., De Jesús Yáñez-Morales, M., Zúñiga-Estrada, L., Cruywagen, E.M., De Hoog, G.S., Silvera, C., Najafzadeh, J., Davison, E.M., Davison, P.J.N., Barrett, M.D., Barrett, R.L., Manamgoda, D.S., Minnis, A.M., Kleczewski, N.M., Flory, S.L., Castlebury, L.A., Clay, K., Hyde, K.D., Maússe-Sitoe, S.N.D., Chen, S., Lechat, C., Hairaud, M., Lesage-Meessen, L., Pawlowska, J., Wilk, M., Sliwinska-Wyrzychowska, A., Metrak, M., Wrzosek, M., Pavlic-Zupanc, D., Maleme, H.M., Slippers, B., MacCormack, W.P., Archuby, D.I., Grünwald, N.J., Tellería, M.T., Dueñas, M., Martín, M.P., Marincowitz, S., de Beer, Z.W., Perez, C.A., Gené, J., Marin-Felix, Y., and Groenewald, J.Z.

Abstract

10.3767/003158513X675925, Novel species of microfungi described in the present study include the following from South Africa: Camarosporium aloes, Phaeococcomyces aloes and Phoma aloes from Aloe, C. psoraleae, Diaporthe psoraleae and D. psoraleae-pinnatae from Psoralea, Colletotrichum euphorbiae from Euphorbia, Coniothyrium prosopidis and Peyronellaea prosopidis from Prosopis, Diaporthe cassines from Cassine, D. diospyricola from Diospyros, Diaporthe maytenicola from Maytenus, Harknessia proteae from Protea, Neofusicoccum ursorum and N. cryptoaustrale from Eucalyptus, Ochrocladosporium adansoniae from Adansonia, Pilidium pseudoconcavum from Greyia radlkoferi, Stagonospora pseudopaludosa from Phragmites and Toxicocladosporium ficiniae from Ficinia. Several species were also described from Thailand, namely: Chaetopsina pini and C. pinicola from Pinus spp., Myrmecridium thailandicum from reed litter, Passalora pseudotithoniae from Tithonia, Pallidocercospora ventilago from Ventilago, Pyricularia bothriochloae from Bothriochloa and Sphaerulina rhododendricola from Rhododendron. Novelties from Spain include Cladophialophora multiseptata, Knufia tsunedae and Pleuroascus rectipilus from soil and Cyphellophora catalaunica from river sediments. Species from the USA include Bipolaris drechsleri from Microstegium, Calonectria blephiliae from Blephilia, Kellermania macrospora (epitype) and K. pseudoyuccigena from Yucca. Three new species are described from Mexico, namely Neophaeosphaeria agaves and K. agaves from Agave and Phytophthora ipomoeae from Ipomoea. Other African species include Calonectria mossambicensis from Eucalyptus (Mozambique), Harzia cameroonensis from an unknown creeper (Cameroon), Mastigosporella anisophylleae from Anisophyllea (Zambia) and Teratosphaeria terminal

Published

2013

33. Fungal Planet description sheets: 154–213

Author

Crous, P. W., primary, Wingfield, M. J., additional, Guarro, J., additional, Cheewangkoon, R., additional, van der Bank, M., additional, Swart, W. J., additional, Stchigel, A. M., additional, Cano-Lira, J. F., additional, Roux, J., additional, Madrid, H., additional, Damm, U., additional, Wood, A. R., additional, Shuttleworth, L. A., additional, Hodges, C. S., additional, Munster, M., additional, de Jesús Yáñez-Morales, M., additional, Zúñiga-Estrada, L., additional, Cruywagen, E. M., additional, De Hoog, G. S., additional, Silvera, C., additional, Najafzadeh, J., additional, Davison, E. M., additional, Davison, P. J. N., additional, Barrett, M. D., additional, Barrett, R. L., additional, Manamgoda, D. S., additional, Minnis, A. M., additional, Kleczewski, N. M., additional, Flory, S. L., additional, Castlebury, L. A., additional, Clay, K., additional, Hyde, K. D., additional, Maússe-Sitoe, S. N. D., additional, Chen, Shuaifei, additional, Lechat, C., additional, Hairaud, M., additional, Lesage-Meessen, L., additional, Pawłowska, J., additional, Wilk, M., additional, Śliwińska-Wyrzychowska, A., additional, Mętrak, M., additional, Wrzosek, M., additional, Pavlic-Zupanc, D., additional, Maleme, H. M., additional, Slippers, B., additional, Mac Cormack, W. P., additional, Archuby, D. I., additional, Grünwald, N. J., additional, Tellería, M. T., additional, Dueñas, M., additional, Martín, M. P., additional, Marincowitz, S., additional, de Beer, Z. W., additional, Perez, C. A., additional, Gené, J., additional, Marin-Felix, Y., additional, and Groenewald, J. Z., additional

Published

2013

34. Reaping the Chemical Diversity of Morinagamyces vermicularis Using Feature-Based Molecular Networking.

Author

Harms K, Charria-Girón E, Stchigel AM, Marin-Felix Y, and Surup F

Subjects

Antifungal Agents pharmacology, Antifungal Agents chemistry, Antifungal Agents isolation & purification, Chromatography, High Pressure Liquid methods, Microbial Sensitivity Tests, Molecular Structure, Polyketides pharmacology, Polyketides chemistry, Polyketides isolation & purification, Tandem Mass Spectrometry methods, Ascomycota chemistry

Abstract

Moringadepsin ( 6 ) and chaetone B ( 7 ) were isolated by us in the course of a conventional chemical screening of Morinagamyces vermicularis CBS 303.81, a fungus belonging to the relatively underexplored family Schizotheciaceae of the phylum Ascomycota. Since these metabolites did not account for the antifungal activity observed in a crude extract of this fungus, we utilized an MS/MS-based molecular networking approach to get a thorough insight into the secondary metabolites produced by this strain. Manual annotation of high-resolution fragmentation mass spectra by CANOPUS classified a major molecular family as putatively new thiodiketopiperazines. However, these results were opposite to the results of ChemWalker analysis based solely on MS/MS data, assigning these metabolites as various polyketides. Thus, targeted preparative HPLC isolation focusing on the most abundant features within this major molecular family resulted in the isolation of five secondary metabolites. Their structures were elucidated based on HRMS and NMR data as four new thiodiketopiperazine derivatives, botryosulfuranols D-G ( 1 - 4 ), alongside the known botryosulfuranol A ( 5 ). Compounds 1 - 3 and 5 exhibited moderate to weak antifungal activity against different test strains, accounting for the initial antifungal activity observed for its crude extract. Our study stressed the importance of full NMR-based structure elucidation for metabolomics research.

Published

2024

35. Arcopilins: A New Family of Staphylococcus aureus Biofilm Disruptors from the Soil Fungus Arcopilus navicularis .

Author

Charria-Girón E, Zeng H, Gorelik TE, Pahl A, Truong KN, Schrey H, Surup F, and Marin-Felix Y

Subjects

Soil Microbiology, Pyridones chemistry, Pyridones pharmacology, Pyridones chemical synthesis, Pyrrolidinones chemistry, Pyrrolidinones pharmacology, Pyrrolidinones metabolism, Biofilms drug effects, Staphylococcus aureus drug effects, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents chemistry, Microbial Sensitivity Tests

Abstract

Biofilms represent a key challenge in the treatment of microbial infections; for instance, Staphylococcus aureus causes chronic or fatal infections by forming biofilms on medical devices. Herein, the fungus Arcopilus navicularis was found to produce a novel family of PKS-NRPS metabolites that are able to disrupt preformed biofilms of S. aureus . Arcopilins A-F ( 1 - 6 ), tetramic acids, and arcopilin G ( 7 ), a 2-pyridone, were elucidated using HR-ESI-MS and one-dimensional (1D) and two-dimensional (2D) nuclear magnetic resonance (NMR) spectroscopy. Their absolute configuration was established by the synthesis of MPTA-esters for 2 , analysis of 1 H- 1 H coupling constants, and ROESY correlations, along with comparison with the crystal structure of 7 . Arcopilin A ( 1 ) not only effectively disrupts preformed biofilms of S. aureus but also potentiates the activity of gentamicin and vancomycin up to 115- and 31-fold times, respectively. Our findings demonstrate the potential application of arcopilins for the conjugated treatment of infections caused by S. aureus with antibiotics unable to disrupt preformed biofilms.

Published

2024

36. What are the 100 most cited fungal genera?

Author

Bhunjun CS, Chen YJ, Phukhamsakda C, Boekhout T, Groenewald JZ, McKenzie EHC, Francisco EC, Frisvad JC, Groenewald M, Hurdeal VG, Luangsa-Ard J, Perrone G, Visagie CM, Bai FY, Błaszkowski J, Braun U, de Souza FA, de Queiroz MB, Dutta AK, Gonkhom D, Goto BT, Guarnaccia V, Hagen F, Houbraken J, Lachance MA, Li JJ, Luo KY, Magurno F, Mongkolsamrit S, Robert V, Roy N, Tibpromma S, Wanasinghe DN, Wang DQ, Wei DP, Zhao CL, Aiphuk W, Ajayi-Oyetunde O, Arantes TD, Araujo JC, Begerow D, Bakhshi M, Barbosa RN, Behrens FH, Bensch K, Bezerra JDP, Bilański P, Bradley CA, Bubner B, Burgess TI, Buyck B, Čadež N, Cai L, Calaça FJS, Campbell LJ, Chaverri P, Chen YY, Chethana KWT, Coetzee B, Costa MM, Chen Q, Custódio FA, Dai YC, Damm U, Santiago ALCMA, De Miccolis Angelini RM, Dijksterhuis J, Dissanayake AJ, Doilom M, Dong W, Álvarez-Duarte E, Fischer M, Gajanayake AJ, Gené J, Gomdola D, Gomes AAM, Hausner G, He MQ, Hou L, Iturrieta-González I, Jami F, Jankowiak R, Jayawardena RS, Kandemir H, Kiss L, Kobmoo N, Kowalski T, Landi L, Lin CG, Liu JK, Liu XB, Loizides M, Luangharn T, Maharachchikumbura SSN, Mkhwanazi GJM, Manawasinghe IS, Marin-Felix Y, McTaggart AR, Moreau PA, Morozova OV, Mostert L, Osiewacz HD, Pem D, Phookamsak R, Pollastro S, Pordel A, Poyntner C, Phillips AJL, Phonemany M, Promputtha I, Rathnayaka AR, Rodrigues AM, Romanazzi G, Rothmann L, Salgado-Salazar C, Sandoval-Denis M, Saupe SJ, Scholler M, Scott P, Shivas RG, Silar P, Silva-Filho AGS, Souza-Motta CM, Spies CFJ, Stchigel AM, Sterflinger K, Summerbell RC, Svetasheva TY, Takamatsu S, Theelen B, Theodoro RC, Thines M, Thongklang N, Torres R, Turchetti B, van den Brule T, Wang XW, Wartchow F, Welti S, Wijesinghe SN, Wu F, Xu R, Yang ZL, Yilmaz N, Yurkov A, Zhao L, Zhao RL, Zhou N, Hyde KD, and Crous PW

Abstract

The global diversity of fungi has been estimated between 2 to 11 million species, of which only about 155 000 have been named. Most fungi are invisible to the unaided eye, but they represent a major component of biodiversity on our planet, and play essential ecological roles, supporting life as we know it. Although approximately 20 000 fungal genera are presently recognised, the ecology of most remains undetermined. Despite all this diversity, the mycological community actively researches some fungal genera more commonly than others. This poses an interesting question: why have some fungal genera impacted mycology and related fields more than others? To address this issue, we conducted a bibliometric analysis to identify the top 100 most cited fungal genera. A thorough database search of the Web of Science, Google Scholar, and PubMed was performed to establish which genera are most cited. The most cited 10 genera are Saccharomyces , Candida , Aspergillus , Fusarium , Penicillium , Trichoderma , Botrytis , Pichia , Cryptococcus and Alternaria . Case studies are presented for the 100 most cited genera with general background, notes on their ecology and economic significance and important research advances. This paper provides a historic overview of scientific research of these genera and the prospect for further research. Citation: Bhunjun CS, Chen YJ, Phukhamsakda C, Boekhout T, Groenewald JZ, McKenzie EHC, Francisco EC, Frisvad JC, Groenewald M, Hurdeal VG, Luangsa-ard J, Perrone G, Visagie CM, Bai FY, Błaszkowski J, Braun U, de Souza FA, de Queiroz MB, Dutta AK, Gonkhom D, Goto BT, Guarnaccia V, Hagen F, Houbraken J, Lachance MA, Li JJ, Luo KY, Magurno F, Mongkolsamrit S, Robert V, Roy N, Tibpromma S, Wanasinghe DN, Wang DQ, Wei DP, Zhao CL, Aiphuk W, Ajayi-Oyetunde O, Arantes TD, Araujo JC, Begerow D, Bakhshi M, Barbosa RN, Behrens FH, Bensch K, Bezerra JDP, Bilański P, Bradley CA, Bubner B, Burgess TI, Buyck B, Čadež N, Cai L, Calaça FJS, Campbell LJ, Chaverri P, Chen YY, Chethana KWT, Coetzee B, Costa MM, Chen Q, Custódio FA, Dai YC, Damm U, de Azevedo Santiago ALCM, De Miccolis Angelini RM, Dijksterhuis J, Dissanayake AJ, Doilom M, Dong W, Alvarez-Duarte E, Fischer M, Gajanayake AJ, Gené J, Gomdola D, Gomes AAM, Hausner G, He MQ, Hou L, Iturrieta-González I, Jami F, Jankowiak R, Jayawardena RS, Kandemir H, Kiss L, Kobmoo N, Kowalski T, Landi L, Lin CG, Liu JK, Liu XB, Loizides M, Luangharn T, Maharachchikumbura SSN, Makhathini Mkhwanazi GJ, Manawasinghe IS, Marin-Felix Y, McTaggart AR, Moreau PA, Morozova OV, Mostert L, Osiewacz HD, Pem D, Phookamsak R, Pollastro S, Pordel A, Poyntner C, Phillips AJL, Phonemany M, Promputtha I, Rathnayaka AR, Rodrigues AM, Romanazzi G, Rothmann L, Salgado-Salazar C, Sandoval-Denis M, Saupe SJ, Scholler M, Scott P, Shivas RG, Silar P, Souza-Motta CM, Silva-Filho AGS, Spies CFJ, Stchigel AM, Sterflinger K, Summerbell RC, Svetasheva TY, Takamatsu S, Theelen B, Theodoro RC, Thines M, Thongklang N, Torres R, Turchetti B, van den Brule T, Wang XW, Wartchow F, Welti S, Wijesinghe SN, Wu F, Xu R, Yang ZL, Yilmaz N, Yurkov A, Zhao L, Zhao RL, Zhou N, Hyde KD, Crous PW (2024). What are the 100 most cited fungal genera? Studies in Mycology 108 : 1-411. doi: 10.3114/sim.2024.108.01., Competing Interests: The authors declare that there is no conflict of interest., (© 2024 Westerdijk Fungal Biodiversity Institute.)

Published

2024

37. Neochetracin: An Unusual Chetracin-Type Epithiodiketopiperazine Derivative Produced by the Fungus Amesia atrobrunnea .

Author

Charria-Girón E, Sauer C, García D, Ebada SS, and Marin-Felix Y

Abstract

Epithiodiketopiperazines are a widely distributed class of secondary metabolites originating from an NRPS biosynthetic pathway and featuring diverse biological activities. In this study, the soil-borne fungus Amesia atrobrunnea FMR 19325 was found to produce a novel chetracin-like epithiodiketopiperazine, neochetracin ( 1 ), featuring a unique C-11a'-S-N cross-linkage, along with the known congener, chetracin B ( 2 ). Chemical structures were elucidated based on HR-ESI-MS and comprehensive 1D/2D NMR spectroscopic analyses. The relative configuration of 1 was distinguished based on a ROESY experiment while its absolute configuration remains undetermined. Chetracin B was found to be a more potent cytotoxic agent compared with its new congener. Compounds 1 and 2 also exerted strong antibacterial effects against the tested bacteria; however, our results suggested that the presence of the C-11a'-S-N cross-linkage in 1 resulted in the total or partial loss of activity against Gram-negative bacteria., Competing Interests: The authors declare no competing financial interest., (© 2024 The Authors. Published by American Chemical Society.)

Published

2024

38. Metabolomics insights into the polyketide-lactones produced by Diaporthe caliensis sp. nov., an endophyte of the medicinal plant Otoba gracilipes .

Author

Charria-Girón E, Marin-Felix Y, Beutling U, Franke R, Brönstrup M, Vasco-Palacios AM, Caicedo NH, and Surup F

Subjects

Endophytes, Lactones metabolism, Metabolomics, Fungi metabolism, Plants, Medicinal, Polyketides metabolism

Abstract

Importance: The integration of metabolomics-based approaches into the discovery pipeline has enabled improved mining and prioritization of prolific secondary metabolite producers such as endophytic fungi. However, relying on automated untargeted analysis tools might lead to misestimation of the chemical complexity harbored in these organisms. Our study emphasizes the importance of isolation and structure elucidation of the respective metabolites in addition to deep metabolome analysis for the correct interpretation of untargeted metabolomics approaches such as molecular networking. Additionally, it encourages the further exploration of endophytic fungi from traditional medicinal plants for the discovery of natural products., Competing Interests: The authors declare no conflict of interest.

Published

2023

39. Four new endophytic species of Diaporthe (Diaporthaceae, Diaporthales) isolated from Cameroon.

Author

Lambert C, Schweizer L, Matio Kemkuignou B, Anoumedem EGM, Kouam SF, and Marin-Felix Y

Abstract

The genus Diaporthe (Diaporthaceae, Diaporthales) is a large group of fungi frequently reported as phytopathogens, with ubiquitous distribution across the globe. Diaporthe have traditionally been characterized by the morphology of their ana- and teleomorphic state, revealing a high degree of heterogeneity as soon as DNA sequencing was utilized across the different members of the group. Their relevance for biotechnology and agriculture attracts the attention of taxonomists and natural product chemists alike in context of plant protection and exploitation for their potential to produce bioactive secondary metabolites. While more than 1000 species are described to date, Africa, as a natural habitat, has so far been under-sampled. Several endophytic fungi belonging to Diaporthe were isolated from different plant hosts in Cameroon over the course of this study. Phylogenetic analyses based on DNA sequence data of the internal transcribed spacer region and intervening 5.8S nrRNA gene, and partial fragments of the calmodulin, beta-tubulin, histone and the translation elongation factor 1-α genes, demonstrated that these isolates represent four new species, i.e. D.brideliae , D.cameroonensis , D.pseudoanacardii and D.rauvolfiae . Moreover, the description of D.isoberliniae is here emended, now incorporating the morphology of beta and gamma conidia produced by two of our endophytic isolates, which had never been documented in previous records. Moreover, the paraphyletic nature of the genus is discussed and suggestions are made for future revision of the genus., Competing Interests: The authors have declared that no competing interests exist., (Christopher Lambert, Lena Schweizer, Blondelle Matio Kemkuignou, Elodie Gisèle M. Anoumedem, Simeon F. Kouam, Yasmina Marin-Felix.)

Published

2023

40. Secondary metabolites of Diaporthe cameroonensis , isolated from the Cameroonian medicinal plant Trema guineensis .

Author

Mountessou BYG, Anoumedem ÉGM, Kemkuignou BM, Marin-Felix Y, Surup F, Stadler M, and Kouam SF

Abstract

From a fresh root of Trema guineensis (Ulmaceae), endophytic fungi were isolated, among which a taxon belonging to the new species Diaporthe cameroonensis . This strain was fermented in shake flask batch cultures and the broth was extracted with ethyl acetate. From the crude extract, a hemiketal polyketide 1 , and an acetylated alternariol 2 were isolated, along with fifteen known secondary metabolites. Their structures were established by extensive NMR spectroscopy and mass spectrometry analyses, as well as by comparison with literature data of their analogs., (Copyright © 2023, Mountessou et al.)

Published

2023

41. Unprecedented Antimicrobial and Cytotoxic Polyketides from Cultures of Diaporthe africana sp. nov.

Author

Matio Kemkuignou B, Lambert C, Stadler M, Kouam Fogue S, and Marin-Felix Y

Abstract

Four unprecedented polyketides named isoprenylisobenzofuran B ( 2 ), isoprenylisobenzofuran C 1 /C 2 ( 3 ), diaporisoindole F 1 /F 2 ( 4 ), and isochromophilonol A 1 /A 2 ( 7 ) were isolated from ethyl acetate extracts of the newly described endophytic fungus Diaporthe africana . Additionally, the previously reported cyclic depsipeptide eucalactam B ( 1 ) was also identified, along with the known compounds diaporisoindole A/B ( 5 ), tenellone B ( 6 ) and beauvericin ( 8 ). The taxonomic identification of the fungus was accomplished using a polyphasic approach combining multi-gene phylogenetic analysis and microscopic morphological characters. The structures 1 - 8 were determined by a detailed analysis of their spectral data, namely high-resolution electrospray ionization mass spectrometry (HR-ESIMS), 1D/2D nuclear magnetic resonance (NMR) spectroscopy, as well as electronic circular dichroism (ECD) spectra. In addition, chemical methods such as Marfey's analysis were also employed to determine the stereochemistry in compound 1 . All the compounds obtained were evaluated for antimicrobial and in vitro cytotoxic properties. Compounds 3 - 8 were active against certain fungi and Gram-positive bacteria with MIC values of 8.3 to 66.6 µg/mL. In addition, 3 - 5 displayed cytotoxic effects (22.0 ≤ IC 50 ≤ 59.2 µM) against KB3.1 and L929 cell lines, whereas compounds 6 - 8 inhibited the growth of seven mammalian cancer cell lines with IC 50 ranging from 17.7 to 49.5 µM ( 6 ), 0.9 to 12.9 µM ( 7 ) and 1.9 to 4.3 µM ( 8 )., Competing Interests: The authors declare no conflicts of interest.

Published

2023

42. Panapophenanthrin, a Rare Oligocyclic Diterpene from Panus strigellus .

Author

Llanos-López NA, Ebada SS, Vasco-Palacios AM, Sánchez-Giraldo LM, López L, Rojas LF, Mándi A, Kurtán T, and Marin-Felix Y

Abstract

During the course of our search for biologically active secondary metabolites from fungal cultures, a new oligocyclic diterpenoidal derivative, panapophenanthrin ( 1 ), was isolated from Panus strigellus . In addition, two known metabolites, panepophenanthrin ( 2 ) and dihydrohypnophilin ( 3 ), were also obtained. The chemical structures of the isolated compounds were elucidated based on extensive 1D and 2D NMR spectral analyses together with high-resolution electrospray ionization mass spectrometry (HR-ESI-MS). The absolute configuration was determined through TDDFT-ECD calculations. All of the compounds were assessed for their antimicrobial and cytotoxic activities. Compounds 1 and 3 showed moderate to weak activities in the performed antimicrobial assays, while compound 1 exhibited potent cytotoxic activity against the mammalian cell lines mouse fibroblast (L929) and human endocervical adenocarcinoma (KB3.1).

Published

2023

43. Amesia hispanica sp. nov., Producer of the Antifungal Class of Antibiotics Dactylfungins.

Author

Charria-Girón E, Stchigel AM, Čmoková A, Kolařík M, Surup F, and Marin-Felix Y

Abstract

During a study of the diversity of soilborne fungi from Spain, a strain belonging to the family Chaetomiaceae (Sordariales) was isolated. The multigene phylogenetic inference using five DNA loci showed that this strain represents an undescribed species of the genus Amesia , herein introduced as A. hispanica sp. nov. Investigation of its secondary metabolome led to the isolation of two new derivatives ( 2 and 3 ) of the known antifungal antibiotic dactylfungin A ( 1 ), together with the known compound cochliodinol ( 4 ). The planar structures of 1 - 4 were determined by ultrahigh performance liquid chromatography coupled with diode array detection and ion mobility tandem mass spectrometry (UHPLC-DAD-IM-MS/MS) and extensive 1D and 2D nuclear magnetic resonance (NMR) spectroscopy after isolation by HPLC. All isolated secondary metabolites were tested for their antimicrobial and cytotoxic activities. Dactylfungin A ( 1 ) showed selective and strong antifungal activity against some of the tested human pathogens ( Aspergillus fumigatus and Cryptococcus neoformans ). The additional hydroxyl group in 2 resulted in the loss of activity against C. neoformans but still retained the inhibition of As. fumigatus in a lower concentration than that of the respective control, without showing any cytotoxic effects. In contrast, 25″-dehydroxy-dactylfungin A ( 3 ) exhibited improved activity against yeasts ( Schizosaccharomyces pombe and Rhodotorula glutinis ) than 1 and 2 , but resulted in the appearance of slight cytotoxicity. The present study exemplifies how even in a well-studied taxonomic group such as the Chaetomiaceae, the investigation of novel taxa still brings chemistry novelty, as demonstrated in this first report of this antibiotic class for chaetomiaceous and sordarialean taxa.

Published

2023

44. Unreported cytochalasins from an acid-mediated transformation of cytochalasin J isolated from Diaporthe cf. ueckeri.

Author

Kemkuignou BM, Lambert C, Schmidt K, Schweizer L, Anoumedem EGM, Kouam SF, Stadler M, Stradal T, and Marin-Felix Y

Subjects

Humans, Molecular Structure, Fungi, Cytochalasins, Antineoplastic Agents

Abstract

Chemical investigation of an endophytic fungus herein identified as Diaporthe cf. ueckeri yielded four known compounds, named cytochalasins H and J and dicerandrols A and B. Reports of acid sensitivity within the cytochalasan family inspired an attempt of acid-mediated conversion of cytochalasins H and J, resulting in the acquisition of five polycyclic cytochalasins featuring 5/6/5/8-fused tetracyclic and 5/6/6/7/5-fused pentacyclic skeletons. Two of the obtained polycyclic cytochalasins constituted unprecedented analogues, for which the trivial names cytochalasins J 4 and J 5 were proposed, whereas the others were identified as the known phomopchalasin A, phomopchalasin D and 21-acetoxycytochalasin J 3 . The structures of the compounds were determined by extensive spectral analysis, namely HR-ESIMS, ESIMS and 1D/2D NMR. The stereochemistry of cytochalasins J 4 and J 5 was proposed using their ROESY data, biosynthetic and mechanistic considerations and by comparison of their ECD spectra with those of related congeners. All compounds except for cytochalasins H and J were tested for antimicrobial and cytotoxic activity. Cytochalasins J 4 and J 5 showed neither antimicrobial nor cytotoxic activity in the tested concentrations, with only weak antiproliferative activity observable against KB3.1 cells. The actin disruptive properties of all cytochalasins obtained in this study and of the previously reported cytochalasins RKS-1778 and phomopchalasin N were examined, and monitored by fluorescence microscopy using human osteo-sarcoma (U2-OS) cells. Compared to their precursor molecules (cytochalasins H and J), phomopchalasins A and D, 21-acetoxycytochalasin J 3 , cytochalasins J 4 and J 5 revealed a strongly reduced activity on the F-actin network, highlighting that the macrocyclic ring is crucial for bioactivity., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023

45. New polyketides from the liquid culture of Diaporthebreyniae sp. nov. (Diaporthales, Diaporthaceae).

Author

Matio Kemkuignou B, Schweizer L, Lambert C, Anoumedem EGM, Kouam SF, Stadler M, and Marin-Felix Y

Abstract

During the course of a study on the biodiversity of endophytes from Cameroon, a fungal strain was isolated. A multigene phylogenetic inference using five DNA loci revealed that this strain represents an undescribed species of Diaporthe , which is introduced here as D.breyniae . Investigation into the chemistry of this fungus led to the isolation of two previously undescribed secondary metabolites for which the trivial names fusaristatins G ( 7 ) and H ( 8 ) are proposed, together with eleven known compounds. The structures of all of the metabolites were established by using one-dimensional (1D) and two-dimensional (2D) Nuclear Magnetic Resonance (NMR) spectroscopic data in combination with High-Resolution ElectroSpray Ionization Mass Spectrometry (HR-ESIMS) data. The absolute configuration of phomopchalasin N ( 4 ), which was reported for the first time concurrently to the present publication, was determined by analysis of its Rotating frame Overhauser Effect SpectroscopY (ROESY) spectrum and by comparison of its Electronic Circular Dichroism (ECD) spectrum with that of related compounds. A selection of the isolated secondary metabolites were tested for antimicrobial and cytotoxic activities, and compounds 4 and 7 showed weak antifungal and antibacterial activity. On the other hand, compound 4 showed moderate cytotoxic activity against all tested cancer cell lines with IC 50 values in the range of 5.8-45.9 µM. The latter was found to be less toxic than the other isolated cytochalasins ( 1 - 3 ) and gave hints in regards to the structure-activity relationship (SAR) of the studied cytochalasins. Fusaristatin H ( 8 ) also exhibited weak cytotoxicity against KB3.1 cell lines with an IC 50 value of 30.3 µM.  Graphical abstract ., (Blondelle Matio Kemkuignou, Lena Schweizer, Christopher Lambert, Elodie Gisèle M. Anoumedem, Simeon F. Kouam, Marc Stadler, Yasmina Marin-Felix.)

Published

2022

46. Meroterpenoids Possibly Produced by a Bacterial Endosymbiont of the Tropical Basidiomycete Echinochaete brachypora .

Author

Hassan K, Chepkirui C, Llanos-López NA, Matasyoh JC, Decock C, Marin-Felix Y, and Stadler M

Subjects

Anti-Bacterial Agents chemistry, Bacteria metabolism, Fungi metabolism, Basidiomycota chemistry, Polyporaceae metabolism

Abstract

A mycelial culture of the African basidiomycete Echinochaete cf. brachypora was studied for biologically active secondary metabolites, and four compounds were isolated from its crude extract derived from shake flask fermentations, using preparative high-performance liquid chromatography (HPLC). The pure metabolites were identified using extensive nuclear magnetic resonance (NMR) spectroscopy and high-resolution mass spectrometry (HR-MS). Aside from the new metabolites 1-methoxyneomarinone ( 1 ) and (E)-3-methyl-5-(-12,13,14-trimethylcyclohex-10-en-6-yl)pent-2-enoic acid ( 4 ), the known metabolites neomarinone ( 2 ) and fumaquinone ( 4 ) were obtained. Such compounds had previously only been reported from Actinobacteria but were never isolated from the cultures of a fungus. This observation prompted us to evaluate whether the above metabolites may actually have been produced by an endosymbiontic bacterium that is associated with the basidiomycete. We have indeed been able to characterize bacterial 16S rDNA in the fungal mycelia, and the production of the metabolites stopped when the fungus was sub-cultured on a medium containing antibacterial antibiotics. Therefore, we have found strong evidence that compounds 1 - 4 are not of fungal origin. However, the endofungal bacterium was shown to belong to the genus Ralstonia , which has never been reported to produce similar metabolites to 1 - 4 . Moreover, we failed to obtain the bacterial strain in pure culture to provide final proof for its identity. In any case, the current report is the first to document that polyporoid Basidiomycota are associated with endosymbionts and constitutes the first report on secondary metabolites from the genus Echinochaete .

Published

2022

47. Morinagadepsin, a Depsipeptide from the Fungus Morinagamyces vermicularis gen. et comb. nov.

Author

Harms K, Surup F, Stadler M, Stchigel AM, and Marin-Felix Y

Abstract

The new genus Morinagamyces is introduced herein to accommodate the fungus Apiosordaria vermicularis as inferred from a phylogenetic study based on sequences of the internal transcribed spacer region (ITS), the nuclear rDNA large subunit (LSU), and partial fragments of ribosomal polymerase II subunit 2 ( rpb 2) and β-tubulin ( tub 2) genes. Morinagamyces vermicularis was analyzed for the production of secondary metabolites, resulting in the isolation of a new depsipeptide named morinagadepsin ( 1 ), and the already known chaetone B ( 3 ). While the planar structure of 1 was elucidated by extensive 1D- and 2D-NMR analysis and high-resolution mass spectrometry, the absolute configuration of the building blocks Ala, Val, and Leu was determined as -l by Marfey's method. The configuration of the 3-hydroxy-2-methyldecanyl unit was assigned as 22 R ,23 R by J -based configuration analysis and Mosher's method after partial hydrolysis of the morinagadepsin to the linear derivative compound 2 . Compound 1 showed cytotoxic activity against the mammalian cell lines KB3.1 and L929, but no antimicrobial activity against the fungi and bacteria tested was observed, while 2 was inactive. Compound 3 was weakly cytotoxic against the cell line L929, but did not show any antimicrobial activity.

Published

2021

48. Three New Derivatives of Zopfinol from Pseudorhypophila Mangenotii gen. et comb. nov.

Author

Harms K, Milic A, Stchigel AM, Stadler M, Surup F, and Marin-Felix Y

Abstract

Triangularia mangenotti was analyzed for the production of secondary metabolites, resulting in the isolation of known zopfinol ( 1 ) and its new derivatives zopfinol B-C ( 2-4 ), the 10-membered lactones 7-O-acetylmultiplolide A ( 5 ) and 8-O-acetylmultiplolide A ( 6 ), together with sordarin ( 7 ), sordarin B ( 8 ), and hypoxysordarin ( 9 ). The absolute configuration of 1 was elucidated by the synthesis of MPTA-esters. Compound 1 showed antimicrobial activity against the Gram-positive bacteria Bacillus subtilis and Staphylococcus aureus and the fungus Mucor hiemalis . While 4 was weakly antibacterial, 3 showed stronger antibiotic activity against the Gram-positive bacteria and weak antifungal activity against M. hiemalis and Rhodotorula glutinis . We furthermore observed the cytotoxicity of 1 , 3 and 4 against the mammalian cell lines KB3.1 and L929. Moreover, the new genus Pseudorhypophila is introduced herein to accommodate Triangularia mangenotii together with several species of Zopfiella - Z. marina , Z. pilifera , and Z. submersa . These taxa formed a well-supported monophyletic clade in the recently introduced family Navicularisporaceae, located far from the type species of the respective original genera, in a phylogram based on the combined dataset sequences of the internal transcribed spacer region (ITS), the nuclear rDNA large subunit (LSU), and fragments of the ribosomal polymerase II subunit 2 ( rpb2 ) and β-tubulin ( tub2 ) genes. Zopfiella submersa is synonymized with P. marina due to the phylogenetic and morphological similarity. The isolation of zopfinols 1 - 4 and sordarins 7 - 9 confirms the potential of this fungal order as producers of bioactive compounds and suggests these compounds as potential chemotaxonomic markers.

Published

2021

49. Seven New Cytotoxic and Antimicrobial Xanthoquinodins from Jugulospora vestita .

Author

Shao L, Marin-Felix Y, Surup F, Stchigel AM, and Stadler M

Abstract

During the course of a screening for novel biologically active secondary metabolites produced by the Sordariomycetes (Ascomycota, Fungi), the ex-type strain of Jugulospora vestita was found to produce seven novel xanthone-anthraquinone heterodimers, xanthoquinodin A11 ( 1 ) and xanthoquinodins B10-15 ( 2 - 7 ), together with the already known compound xanthoquinodin B4 ( 8 ). The structures of the xanthoquinodins were determined by analysis of the nuclear magnetic resonance (NMR) spectroscopic and mass spectrometric data. Moreover, the absolute configurations of these metabolites were established by analysis of the 1 H- 1 H coupling constants, nuclear Overhauser effect spectroscopy (NOESY) correlations, and Electronic Circular Dichroism (ECD) spectroscopic data. Antifungal and antibacterial activities as well as cytotoxicity of all compounds were tested. Xanthoquinodin B11 showed fungicidal activities against Mucor hiemalis [minimum inhibitory concentration (MIC) 2.1 µg/mL], Rhodotorula glutinis (MIC 2.1 µg/mL), and Pichia anomala (MIC 8.3 µg/mL). All the compounds 1 - 8 displayed anti-Gram-positive bacteria activity (MIC 0.2-8.3 µg/mL). In addition, all these eight compounds showed cytotoxicity against KB 3.1, L929, A549, SK-OV-3, PC-3, A431, and MCF-7 mammalian cell lines. The six novel compounds ( 1 - 3 , 5 - 7 ), together with xanthoquinodin B4, were also found in the screening of other strains belonging to Jugulospora rotula , revealing the potential chemotaxonomic significance of the compound class for the genus.

Published

2020

50. Re-Evaluation of the Order Sordariales: Delimitation of Lasiosphaeriaceae s. str., and Introduction of the New Families Diplogelasinosporaceae, Naviculisporaceae, and Schizotheciaceae.

Author

Marin-Felix Y, Miller AN, Cano-Lira JF, Guarro J, García D, Stadler M, Huhndorf SM, and Stchigel AM

Abstract

The order Sordariales includes the polyphyletic family Lasiosphaeriaceae, which comprises approximately 30 genera characterized by its paraphysate ascomata, asci with apical apparati, and mostly two-celled ascospores, which have a dark apical cell and a hyaline lower cell, frequently ornamented with mucilaginous appendages[...]., Competing Interests: The authors declare no conflict of interest.

Published

2020