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1. Aspergillus fumigatus and aspergillosis: From basics to clinics

Author

Arastehfar, A., Carvalho, A., Houbraken, J., Lombardi, L., Garcia-Rubio, R., Jenks, J.D., Rivero-Menendez, O., Aljohani, R., Jacobsen, I.D., Berman, J., Osherov, N., Hedayati, M.T., Ilkit, M., Armstrong-James, D., Gabaldón, T., Meletiadis, J., Kostrzewa, M., Pan, W., Lass-Flörl, C., Perlin, D.S., and Hoenigl, M.

Published
2021
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3. Guidelines for enhanced recovery after cardiac surgery. Consensus document of Spanish Societies of Anaesthesia (SEDAR), Cardiovascular Surgery (SECCE) and Perfusionists (AEP)

Author

Pajares, M.A., Margarit, J.A., García-Camacho, C., García-Suarez, J., Mateo, E., Castaño, M., López Forte, C., López Menéndez, J., Gómez, M., Soto, M.J., Veiras, S., Martín, E., Castaño, B., López Palanca, S., Gabaldón, T., Acosta, J., Fernández Cruz, J., Fernández López, A.R., García, M., Hernández Acuña, C., Moreno, J., Osseyran, F., Vives, M., Pradas, C., Aguilar, E.M., Bel Mínguez, A.M., Bustamante-Munguira, J., Gutiérrez, E., Llorens, R., Galán, J., Blanco, J., and Vicente, R.

Published
2021
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4. Vía clínica de recuperación intensificada en cirugía cardiaca. Documento de consenso de la Sociedad Española de Anestesiología, Reanimación y Terapéutica del Dolor (SEDAR), la Sociedad Española de Cirugía Cardiovascular y Endovascular (SECCE) y la Asociación Española de Perfusionistas (AEP)

Author

Pajares, M.A., Margarit, J.A., García-Camacho, C., García-Suarez, J., Mateo, E., Castaño, M., López Forte, C., López Menéndez, J., Gómez, M., Soto, M.J., Veiras, S., Martín, E., Castaño, B., López Palanca, S., Gabaldón, T., Acosta, J., Fernández Cruz, J., Fernández López, A.R., García, M., Hernández Acuña, C., Moreno, J., Osseyran, F., Vives, M., Pradas, C., Aguilar, E.M., Bel Mínguez, A.M., Bustamante-Munguira, J., Gutiérrez, E., Llorens, R., Galán, J., Blanco, J., and Vicente, R.

Published
2021
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6. Upper tract microbiome modifications after lung transplantation and its impact in chronic lung allograft dysfunction

Author

Ruiz, V, primary, Khannous, O, additional, Berastegui, C, additional, Loor, K, additional, Culebras, M, additional, Deu, M, additional, Mannichanh, C, additional, Santiago, A, additional, Saez-Gimenez, B, additional, Gomez-Olles, S, additional, Varela, E, additional, Lopez-Meseguer, M, additional, Revilla-Lopez, E, additional, Monforte, V, additional, Roman, A, additional, and Gabaldon, T, additional

Published
2022
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7. Ten years of collaborative progress in the Quest for Orthologs

Author

Linard, B. (Benjamin), Ebersberger, I. (Ingo), McGlynn, S. (SE), Glover, N. (Natacha M), Mochizuki, T. (T), Patricio, M. (Mateus), Lecompte, O. (Odile), Nevers, Y. (Yannis), Thomas, P. (Paul D), Gabaldon, T., Sonnhammer, E. (Erik), Dessimoz, C., Uchiyama, I. (I), Méthodes et Algorithmes pour la Bioinformatique (MAB), Laboratoire d'Informatique de Robotique et de Microélectronique de Montpellier (LIRMM), Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM), Goethe-University Frankfurt am Main, Tokyo Institute of Technology [Tokyo] (TITECH), University of Lausanne (UNIL), European Bioinformatics Institute [Hinxton] (EMBL-EBI), EMBL Heidelberg, Université de Strasbourg (UNISTRA), University of Southern California (USC), Barcelona Institute of Science and Technology (BIST), Stockholm University, National Institutes of Natural Sciences [Tokyo] (NINS), and QFO Consortium

Subjects
AcademicSubjects/SCI01130, gene models, Review, AcademicSubjects/SCI01180, [SDV.BID.SPT]Life Sciences [q-bio]/Biodiversity/Systematics, Phylogenetics and taxonomy, Informatique [cs]/Intelligence artificielle [cs.AI], phylogenetic profiling, ddc:570, [SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], viruses, orthology, xenology, [INFO.INFO-BI]Computer Science [cs]/Bioinformatics [q-bio.QM], [SDE.BE]Environmental Sciences/Biodiversity and Ecology, paralogy
Abstract

International audience; Accurate determination of the evolutionary relationships between genes is a foundational challenge in biology. Homology — evolutionary relatedness — is in many cases readily determined based on sequence similarity analysis. By contrast, whether or not two genes directly descended from a common ancestor by a speciation event (orthologs) or duplication event (paralogs) is more challenging, yet provides critical information on the history of a gene. Since 2009, this task has been the focus of the Quest for Orthologs (QFO) consortium. The 6th QFO meeting took place in Okazaki, Japan in conjunction with the 67th National Institute for Basic Biology conference. Here we report recent advances, applications, and oncoming challenges that were discussed during the conference. Steady progress has been made toward standardisation and scalability of new and existing tools. A feature of the conference was the presentation of a panel of accessible tools for phylogenetic profiling and several developments to bring orthology beyond the gene unit—from domains to networks. This meeting brought into light several challenges to come: leveraging orthology computations to get the most of the incoming avalanche of genomic data, integrating orthology from domain to biological network levels, building better gene models, and adapting orthology approaches to the broad evolutionary and genomic diversity recognized in different forms of life and viruses.

Published
2021
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8. p Aspergillus fumigatus and aspergillosis: From basics to clinics

Author

Arastehfar, A. Carvalho, A. Houbraken, J. Lombardi, L. and Garcia-Rubio, R. Jenks, J. D. Rivero-Menendez, O. Aljohani, R. Jacobsen, I. D. Berman, J. Osherov, N. Hedayati, M. T. Ilkit, M. Armstrong-James, D. Gabaldon, T. and Meletiadis, J. Kostrzewa, M. Pan, W. Lass-Floerl, C. and Perlin, D. S. Hoenigl, M.

Abstract

The airborne fungus Aspergillus fumigatus poses a serious health threat to humans by causing numerous invasive infections and a notable mortality in humans, especially in immunocompromised patients. Mould-active azoles are the frontline therapeutics employed to treat aspergillosis. The global emergence of azoleresistant A. fumigatus isolates in clinic and environment, however, notoriously limits the therapeutic options of mould-active antifungals and potentially can be attributed to a mortality rate reaching up to 100 %. Although specific mutations in CYP51A are the main cause of azole resistance, there is a new wave of azole-resistant isolates with wild-type CYP51A genotype challenging the efficacy of the current diagnostic tools. Therefore, applications of whole-genome sequencing are increasingly gaining popularity to overcome such challenges. Prominent echinocandin tolerance, as well as liver and kidney toxicity posed by amphotericin B, necessitate a continuous quest for novel antifungal drugs to combat emerging azole-resistant A. fumigatus isolates. Animal models and the tools used for genetic engineering require further refinement to facilitate a better understanding about the resistance mechanisms, virulence, and immune reactions orchestrated against A. fumigatus. This review paper comprehensively discusses the current clinical challenges caused by A. fumigatus and provides insights on how to address them.

Published
2021

9. The transposable element-rich genome of the cereal pest Sitophilus oryzae

Author

Parisot, N, Vargas-Chavez, C, Goubert, C, Baa-Puyoulet, P, Balmand, S, Beranger, L, Blanc, C, Bonnamour, A, Boulesteix, M, Burlet, N, Calevro, F, Callaerts, P, Chancy, T, Charles, H, Colella, S, Barbosa, ADS, Dell'Aglio, E, Di Genova, A, Febvay, G, Gabaldon, T, Ferrarini, MG, Gerber, A, Gillet, B, Hubley, R, Hughes, S, Jacquin-Joly, E, Maire, J, Marcet-Houben, M, Masson, F, Meslin, C, Montagne, N, Moya, A, Ribeiro de Vasconcelos, AT, Richard, G, Rosen, J, Sagot, M-F, Smit, AFA, Storer, JM, Vincent-Monegat, C, Vallier, A, Vigneron, A, Zaidman-Remy, A, Zamoum, W, Vieira, C, Rebollo, R, Latorre, A, Heddi, A, Parisot, N, Vargas-Chavez, C, Goubert, C, Baa-Puyoulet, P, Balmand, S, Beranger, L, Blanc, C, Bonnamour, A, Boulesteix, M, Burlet, N, Calevro, F, Callaerts, P, Chancy, T, Charles, H, Colella, S, Barbosa, ADS, Dell'Aglio, E, Di Genova, A, Febvay, G, Gabaldon, T, Ferrarini, MG, Gerber, A, Gillet, B, Hubley, R, Hughes, S, Jacquin-Joly, E, Maire, J, Marcet-Houben, M, Masson, F, Meslin, C, Montagne, N, Moya, A, Ribeiro de Vasconcelos, AT, Richard, G, Rosen, J, Sagot, M-F, Smit, AFA, Storer, JM, Vincent-Monegat, C, Vallier, A, Vigneron, A, Zaidman-Remy, A, Zamoum, W, Vieira, C, Rebollo, R, Latorre, A, and Heddi, A

Abstract

BACKGROUND: The rice weevil Sitophilus oryzae is one of the most important agricultural pests, causing extensive damage to cereal in fields and to stored grains. S. oryzae has an intracellular symbiotic relationship (endosymbiosis) with the Gram-negative bacterium Sodalis pierantonius and is a valuable model to decipher host-symbiont molecular interactions. RESULTS: We sequenced the Sitophilus oryzae genome using a combination of short and long reads to produce the best assembly for a Curculionidae species to date. We show that S. oryzae has undergone successive bursts of transposable element (TE) amplification, representing 72% of the genome. In addition, we show that many TE families are transcriptionally active, and changes in their expression are associated with insect endosymbiotic state. S. oryzae has undergone a high gene expansion rate, when compared to other beetles. Reconstruction of host-symbiont metabolic networks revealed that, despite its recent association with cereal weevils (30 kyear), S. pierantonius relies on the host for several amino acids and nucleotides to survive and to produce vitamins and essential amino acids required for insect development and cuticle biosynthesis. CONCLUSIONS: Here we present the genome of an agricultural pest beetle, which may act as a foundation for pest control. In addition, S. oryzae may be a useful model for endosymbiosis, and studying TE evolution and regulation, along with the impact of TEs on eukaryotic genomes.

Published
2021

11. The genome sequence of the grape phylloxera provides insights into the evolution, adaptation, and invasion routes of an iconic pest

Author

Rispe, C, Legeai, F, Nabity, PD, Fernandez, R, Arora, AK, Baa-Puyoulet, P, Banfill, CR, Bao, L, Barbera, M, Bouallegue, M, Bretaudeau, A, Brisson, JA, Calevro, F, Capy, P, Catrice, O, Chertemps, T, Couture, C, Deliere, L, Douglas, AE, Dufault-Thompson, K, Escuer, P, Feng, H, Forneck, A, Gabaldon, T, Guigo, R, Hilliou, F, Hinojosa-Alvarez, S, Hsiao, Y-M, Hudaverdian, S, Jacquin-Joly, E, James, EB, Johnston, S, Joubard, B, Le Goff, G, Le Trionnaire, G, Librado, P, Liu, S, Lombaert, E, Lu, H-L, Maibeche, M, Makni, M, Marcet-Houben, M, Martinez-Torres, D, Meslin, C, Montagne, N, Moran, NA, Papura, D, Parisot, N, Rahbe, Y, Lopes, MR, Ripoll-Cladellas, A, Robin, S, Roques, C, Roux, P, Rozas, J, Sanchez-Gracia, A, Sanchez-Herrero, JF, Santesmasses, D, Scatoni, I, Serre, R-F, Tang, M, Tian, W, Umina, PA, van Munster, M, Vincent-Monegat, C, Wemmer, J, Wilson, ACC, Zhang, Y, Zhao, C, Zhao, J, Zhao, S, Zhou, X, Delmotte, F, Tagu, D, Rispe, C, Legeai, F, Nabity, PD, Fernandez, R, Arora, AK, Baa-Puyoulet, P, Banfill, CR, Bao, L, Barbera, M, Bouallegue, M, Bretaudeau, A, Brisson, JA, Calevro, F, Capy, P, Catrice, O, Chertemps, T, Couture, C, Deliere, L, Douglas, AE, Dufault-Thompson, K, Escuer, P, Feng, H, Forneck, A, Gabaldon, T, Guigo, R, Hilliou, F, Hinojosa-Alvarez, S, Hsiao, Y-M, Hudaverdian, S, Jacquin-Joly, E, James, EB, Johnston, S, Joubard, B, Le Goff, G, Le Trionnaire, G, Librado, P, Liu, S, Lombaert, E, Lu, H-L, Maibeche, M, Makni, M, Marcet-Houben, M, Martinez-Torres, D, Meslin, C, Montagne, N, Moran, NA, Papura, D, Parisot, N, Rahbe, Y, Lopes, MR, Ripoll-Cladellas, A, Robin, S, Roques, C, Roux, P, Rozas, J, Sanchez-Gracia, A, Sanchez-Herrero, JF, Santesmasses, D, Scatoni, I, Serre, R-F, Tang, M, Tian, W, Umina, PA, van Munster, M, Vincent-Monegat, C, Wemmer, J, Wilson, ACC, Zhang, Y, Zhao, C, Zhao, J, Zhao, S, Zhou, X, Delmotte, F, and Tagu, D

Abstract

Background Although native to North America, the invasion of the aphid-like grape phylloxera Daktulosphaira vitifoliae across the globe altered the course of grape cultivation. For the past 150 years, viticulture relied on grafting-resistant North American Vitis species as rootstocks, thereby limiting genetic stocks tolerant to other stressors such as pathogens and climate change. Limited understanding of the insect genetics resulted in successive outbreaks across the globe when rootstocks failed. Here we report the 294-Mb genome of D. vitifoliae as a basic tool to understand host plant manipulation, nutritional endosymbiosis, and enhance global viticulture. Results Using a combination of genome, RNA, and population resequencing, we found grape phylloxera showed high duplication rates since its common ancestor with aphids, but similarity in most metabolic genes, despite lacking obligate nutritional symbioses and feeding from parenchyma. Similarly, no enrichment occurred in development genes in relation to viviparity. However, phylloxera evolved > 2700 unique genes that resemble putative effectors and are active during feeding. Population sequencing revealed the global invasion began from the upper Mississippi River in North America, spread to Europe and from there to the rest of the world. Conclusions The grape phylloxera genome reveals genetic architecture relative to the evolution of nutritional endosymbiosis, viviparity, and herbivory. The extraordinary expansion in effector genes also suggests novel adaptations to plant feeding and how insects induce complex plant phenotypes, for instance galls. Finally, our understanding of the origin of this invasive species and its genome provide genetics resources to alleviate rootstock bottlenecks restricting the advancement of viticulture.

Published
2020

12. The genome sequence of the grape phylloxera provides insights into the evolution, adaptation, and invasion routes of an iconic pest (vol 18, 90, 2020)

Author

Rispe, C, Legeai, F, Nabity, PD, Fernandez, R, Arora, AK, Baa-Puyoulet, P, Banfill, CR, Bao, L, Barbera, M, Bouallegue, M, Bretaudeau, A, Brisson, JA, Calevro, F, Capy, P, Catrice, O, Chertemps, T, Couture, C, Deliere, L, Douglas, AE, Dufault-Thompson, K, Escuer, P, Feng, H, Forneck, A, Gabaldon, T, Guigo, R, Hilliou, F, Hinojosa-Alvarez, S, Hsiao, Y-M, Hudaverdian, S, Jacquin-Joly, E, James, EB, Johnston, S, Joubard, B, Le Goff, G, Le Trionnaire, G, Librado, P, Liu, S, Lombaert, E, Lu, H-L, Maibeche, M, Makni, M, Marcet-Houben, M, Martinez-Torres, D, Meslin, C, Montagne, N, Moran, NA, Papura, D, Parisot, N, Rahbe, Y, Lopes, MR, Ripoll-Cladellas, A, Robin, S, Roques, C, Roux, P, Rozas, J, Sanchez-Gracia, A, Sanchez-Herrero, JF, Santesmasses, D, Scatoni, I, Serre, R-F, Tang, M, Tian, W, Umina, PA, van Munster, M, Vincent-Monegat, C, Wemmer, J, Wilson, ACC, Zhang, Y, Zhao, C, Zhao, J, Zhao, S, Zhou, X, Delmotte, F, Tagu, D, Rispe, C, Legeai, F, Nabity, PD, Fernandez, R, Arora, AK, Baa-Puyoulet, P, Banfill, CR, Bao, L, Barbera, M, Bouallegue, M, Bretaudeau, A, Brisson, JA, Calevro, F, Capy, P, Catrice, O, Chertemps, T, Couture, C, Deliere, L, Douglas, AE, Dufault-Thompson, K, Escuer, P, Feng, H, Forneck, A, Gabaldon, T, Guigo, R, Hilliou, F, Hinojosa-Alvarez, S, Hsiao, Y-M, Hudaverdian, S, Jacquin-Joly, E, James, EB, Johnston, S, Joubard, B, Le Goff, G, Le Trionnaire, G, Librado, P, Liu, S, Lombaert, E, Lu, H-L, Maibeche, M, Makni, M, Marcet-Houben, M, Martinez-Torres, D, Meslin, C, Montagne, N, Moran, NA, Papura, D, Parisot, N, Rahbe, Y, Lopes, MR, Ripoll-Cladellas, A, Robin, S, Roques, C, Roux, P, Rozas, J, Sanchez-Gracia, A, Sanchez-Herrero, JF, Santesmasses, D, Scatoni, I, Serre, R-F, Tang, M, Tian, W, Umina, PA, van Munster, M, Vincent-Monegat, C, Wemmer, J, Wilson, ACC, Zhang, Y, Zhao, C, Zhao, J, Zhao, S, Zhou, X, Delmotte, F, and Tagu, D

Abstract

An amendment to this paper has been published and can be accessed via the original article.

Published
2020

13. Safety of a Restrictive versus Liberal Approach to Red Blood Cell Transfusion on the Outcome of AKI in Patients Undergoing Cardiac Surgery: A Randomized Clinical Trial

Author

Garg A, Badner N, Bagshaw S, Cuerden M, Fergusson D, Gregory A, Hall J, Hare G, Khanykin B, McGuinness S, Parikh C, Roshanov P, Shehata N, Sontrop J, Syed S, Tagarakis G, Thorpe K, Verma S, Wald R, Whitlock R, Mazer C, de Medicis E, Masse M, Marchand J, MacAdams C, Seal D, Ferland A, Ali I, Maier K, Creary T, Tittley L, Spence J, Jaffer I, Brodutch S, Lellouche F, Bussieres J, Dagenais F, Lizotte P, Gagne N, Tremblay H, Breton C, Bouchard P, Bainbridge D, Bentall T, Beique F, Ramachandran S, Rochon A, Vervais M, Grenier S, Grocott H, Kashani H, Ambrose E, McVagh J, Mazer, Hare, Verma, Crescini C, Yagnik S, Slabiak A, Han K, Fremes S, Karkhanis R, Baig N, Sidhu S, MacArthur R, Reid K, Boehnke S, Hudson C, Rubens F, Winch D, Klein R, Grey R, Teoh K, Wiley W, Darby C, Ho A, Saha T, Shore D, Shelley J, Lamarche Y, Sirois C, Brown C, Dube C, Holden K, Roy L, Rolfe B, Brown S, Saczkowski R, Senner W, Carrier F, Noiseux N, Hebert P, Benettaib F, Ghamraoui A, Lebrasseur M, Beattie W, Carroll J, Poonawala H, Zbitnew G, Howells S, Mawhinney R, Sampson S, Yegappan C, Schroeder R, Perfect S, Jones M, Leff J, Nair S, Moncada K, Joco C, Harrison M, Greilich P, Landgraf K, Kramer R, Gallant B, Fontes M, Stavris K, Rosengart T, Debakey M, Omer S, Coffey K, Broussard E, Tseng E, London M, Stanley K, Casson L, Julien M, Myles P, Wallace S, Galagher W, Ditoro A, Royse A, Royse C, Williams Z, Tivendale L, Dong N, Judelman S, Leyden J, Yarad E, Doane M, Player C, Scott D, Slater B, Corcoran P, Hu R, Sidiropoulos S, Baulch S, Brewster D, Simpson S, Smith J, Hulley A, Painter T, de Prinse L, Bannon P, Turner L, Beattie L, Eslick A, Cope L, Sanderson B, Baker R, Pesudovs B, Bennetts J, Dimovski D, Duggan N, Ives K, Yap C, Byrne K, Mans G, Termaat J, Young P, Ridgeon E, Reddy S, Hurford S, Mackle D, Baker T, Hunt A, Cruz R, Henderson S, Mehrtens J, Parke R, Gilder E, Cowdrey K, Dalton J, Butler M, Long S, Lammert A, Blakemore A, Walker C, France D, Hutchison R, Xue S, Gu J, Chen X, Fan A, Suraya S, Raja N, Yusnida I, Azura T, Saibon T, Bing M, Hwang N, Tan R, Ang F, Chin T, Mehta C, Jain A, Sharma P, Shah R, Shaikh P, Kanchi M, Sigamani A, Anusha K, Johansson P, Anderson T, Olesen L, Lilleor N, Rasmussen S, Fenger A, Treskatsch S, Mezger V, Falk E, Habicher M, Sander M, Edinger F, Koch C, Boening A, Oswald I, Bulat-Genc S, Seeberger D, Fassl J, Seeberger E, Eberle B, Takala J, Stucki M, Mateo E, Moreno J, Gabaldon T, Cobo I, Pena J, Ferrer C, Carmona P, Lopez Cantero M, Pajares A, Zarragoikoetxea I, Galan J, Urrutia G, Martinez-Zapata M, Rivilla M, Cegarra V, Acosta-Isaac R, Gajate-Martin L, Candela-Toha A, Simopoulos V, Karangelis D, Filipescu D, Paunescu A, Fawzy H, Mawlana W, Preisman S, Raanani E, Kogan D, Matot I, Cattan A, Artsi H, Galhardo C, Olival S, Toledo R, Villar J, Hernandez E, Montes F, Vaquiro E, Garavito C, Abello M, Manrique E, Vasquez S, Aguilar L, Coral M, Rodriguez H, Tellez J, Martinez C, Biccard B, Alphonsus C, Spiess B, Hall R, Kent B, Denault A, Deschamps A, TRICS Investigators, and Perioperative Anesthesia Clinical

Abstract

Background Safely reducing red blood cell transfusions can prevent transfusion-related adverse effects, conserve the blood supply, and reduce health care costs. Both anemia and red blood cell transfusion are independently associated with AKI, but observational data are insufficient to determine whether a restrictive approach to transfusion can be used without increasing AKI risk. Methods In a prespecified kidney substudy of a randomized noninferiority trial, we compared a restrictive threshold for red blood cell transfusion (transfuse if hemoglobin= 0.3 mg/dl within 48 hours of surgery, or >= 50% within 7 days of surgery. Results Patients in the restrictive-threshold group received significantly fewer transfusions than patients in the liberal-threshold group (1.8 versus 2.9 on average, or 38% fewer transfusions in the restricted threshold group compared with the liberal-threshold group; P

Published
2019

17. Functional and evolutionary genomics in aphid

Author

Tagu, Denis, Calevro, Federica, Colella, S., Gabaldon, T., Sugio, Akiko, Institut de Génétique, Environnement et Protection des Plantes (IGEPP), Institut National de la Recherche Agronomique (INRA)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-AGROCAMPUS OUEST, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), Biologie Fonctionnelle, Insectes et Interactions (BF2I), Institut National de la Recherche Agronomique (INRA)-Institut National des Sciences Appliquées de Lyon (INSA Lyon), Institut National des Sciences Appliquées (INSA)-Université de Lyon-Institut National des Sciences Appliquées (INSA)-Université de Lyon, Centro de Regulación Genómica (CRG), Universitat Pompeu Fabra [Barcelona] (UPF), Institució Catalana de Recerca i Estudis Avançats (ICREA), and Vilcinskas, A.

Subjects
[SDV.BA]Life Sciences [q-bio]/Animal biology, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2016

19. The first myriapod genome sequence reveals conservative arthropod gene content in the centipede Strigamia maritima

Author

Chipman, A.D., Ferrier, D.E.K., Brena, C., Qu, J., Hughes, D.S.T., Schroeder, R., Torres-Oliva, M., Znassi, N., Jiang, H., Almeida, F.C., Alonso, C.R., Apostolou, Z., Aqrawi, P., Arthur, W., Barna, J.C.J., Blankenburg, K.P., Brites, D., Capella-Gutierrez, S., Coyle, M., Dearden, P.K., Du Pasquier, L., Duncan, E.J., Ebert, D., Eibner, C., Erikson, G., Evans, P.D., Extavour, C.G., Francisco, L., Gabaldon, T., Gillis, W.J., Goodwin-Horn, E.A., Green, J.E., Griffiths-Jones, S., Grimmelikhuijzen, C.J.P., Gubbala, S., Guigo, R., Han, Y., Hauser, F., Havlak, P., Hayden, L., Helbing, S., Holder, M., Hui, J.H.L., Hunn, J.P., Hunnekuhl, V.S., Jackson, L., Javaid, M., Jhangiani, S.N., Jiggins, F.M., Jones, T.E., Kaiser, T.S., Kalra, D., Kenny, N.J., Korchina, V., Kovar, C.L., Kraus, F.B., Lapraz, F., Lee, S.L., Lv, J., Mandapat, C., Manning, G., Mariotti, M., Mata, R., Mathew, T., Neumann, T., Newsham, I., Ngo, D.N., Ninova, M., Okwuonu, G., Ongeri, F., Palmer, W.J., Patil, S., Patraquim, P., Pham, C., Pu, L.L., Putman, N.H., Rabouille, C., Ramos, O.M., Rhodes, A.C., Robertson, H.E., Robertson, H.M., Ronshaugen, M., Rozas, J., Saada, N., Sanchez-Gracia, A., Scherer, S.E., Schurko, A.M., Siggens, K.W., Simmons, D., Stief, A., Stolle, E., Telford, M.J., Tessmar-Raible, K., Thornton, R., Zee, M. van der, Von Haeseler, A., Williams, J.M., Willis, J.H., Wu, Y., Zou, X., Lawson, D., Muzny, D.M., Worley, K.C., Gibbs, R.A., Akam, M., and Richards, S.

Published
2014

20. An expanded evaluation of protein function prediction methods shows an improvement in accuracy

Author

Jiang, Y, Oron, TR, Clark, WT, Bankapur, AR, D'Andrea, D, Lepore, R, Funk, CS, Kahanda, I, Verspoor, KM, Ben-Hur, A, Koo, DCE, Penfold-Brown, D, Shasha, D, Youngs, N, Bonneau, R, Lin, A, Sahraeian, SME, Martelli, PL, Profiti, G, Casadio, R, Cao, R, Zhong, Z, Cheng, J, Altenhoff, A, Skunca, N, Dessimoz, C, Dogan, T, Hakala, K, Kaewphan, S, Mehryary, F, Salakoski, T, Ginter, F, Fang, H, Smithers, B, Oates, M, Gough, J, Toronen, P, Koskinen, P, Holm, L, Chen, C-T, Hsu, W-L, Bryson, K, Cozzetto, D, Minneci, F, Jones, DT, Chapman, S, Dukka, BKC, Khan, IK, Kihara, D, Ofer, D, Rappoport, N, Stern, A, Cibrian-Uhalte, E, Denny, P, Foulger, RE, Hieta, R, Legge, D, Lovering, RC, Magrane, M, Melidoni, AN, Mutowo-Meullenet, P, Pichler, K, Shypitsyna, A, Li, B, Zakeri, P, ElShal, S, Tranchevent, L-C, Das, S, Dawson, NL, Lee, D, Lees, JG, Sillitoe, I, Bhat, P, Nepusz, T, Romero, AE, Sasidharan, R, Yang, H, Paccanaro, A, Gillis, J, Sedeno-Cortes, AE, Pavlidis, P, Feng, S, Cejuela, JM, Goldberg, T, Hamp, T, Richter, L, Salamov, A, Gabaldon, T, Marcet-Houben, M, Supek, F, Gong, Q, Ning, W, Zhou, Y, Tian, W, Falda, M, Fontana, P, Lavezzo, E, Toppo, S, Ferrari, C, Giollo, M, Piovesan, D, Tosatto, SCE, del Pozo, A, Fernandez, JM, Maietta, P, Valencia, A, Tress, ML, Benso, A, Di Carlo, S, Politano, G, Savino, A, Rehman, HU, Re, M, Mesiti, M, Valentini, G, Bargsten, JW, van Dijk, ADJ, Gemovic, B, Glisic, S, Perovic, V, Veljkovic, V, Veljkovic, N, Almeida-e-Silva, DC, Vencio, RZN, Sharan, M, Vogel, J, Kansakar, L, Zhang, S, Vucetic, S, Wang, Z, Sternberg, MJE, Wass, MN, Huntley, RP, Martin, MJ, O'Donovan, C, Robinson, PN, Moreau, Y, Tramontano, A, Babbitt, PC, Brenner, SE, Linial, M, Orengo, CA, Rost, B, Greene, CS, Mooney, SD, Friedberg, I, Radivojac, P, Jiang, Y, Oron, TR, Clark, WT, Bankapur, AR, D'Andrea, D, Lepore, R, Funk, CS, Kahanda, I, Verspoor, KM, Ben-Hur, A, Koo, DCE, Penfold-Brown, D, Shasha, D, Youngs, N, Bonneau, R, Lin, A, Sahraeian, SME, Martelli, PL, Profiti, G, Casadio, R, Cao, R, Zhong, Z, Cheng, J, Altenhoff, A, Skunca, N, Dessimoz, C, Dogan, T, Hakala, K, Kaewphan, S, Mehryary, F, Salakoski, T, Ginter, F, Fang, H, Smithers, B, Oates, M, Gough, J, Toronen, P, Koskinen, P, Holm, L, Chen, C-T, Hsu, W-L, Bryson, K, Cozzetto, D, Minneci, F, Jones, DT, Chapman, S, Dukka, BKC, Khan, IK, Kihara, D, Ofer, D, Rappoport, N, Stern, A, Cibrian-Uhalte, E, Denny, P, Foulger, RE, Hieta, R, Legge, D, Lovering, RC, Magrane, M, Melidoni, AN, Mutowo-Meullenet, P, Pichler, K, Shypitsyna, A, Li, B, Zakeri, P, ElShal, S, Tranchevent, L-C, Das, S, Dawson, NL, Lee, D, Lees, JG, Sillitoe, I, Bhat, P, Nepusz, T, Romero, AE, Sasidharan, R, Yang, H, Paccanaro, A, Gillis, J, Sedeno-Cortes, AE, Pavlidis, P, Feng, S, Cejuela, JM, Goldberg, T, Hamp, T, Richter, L, Salamov, A, Gabaldon, T, Marcet-Houben, M, Supek, F, Gong, Q, Ning, W, Zhou, Y, Tian, W, Falda, M, Fontana, P, Lavezzo, E, Toppo, S, Ferrari, C, Giollo, M, Piovesan, D, Tosatto, SCE, del Pozo, A, Fernandez, JM, Maietta, P, Valencia, A, Tress, ML, Benso, A, Di Carlo, S, Politano, G, Savino, A, Rehman, HU, Re, M, Mesiti, M, Valentini, G, Bargsten, JW, van Dijk, ADJ, Gemovic, B, Glisic, S, Perovic, V, Veljkovic, V, Veljkovic, N, Almeida-e-Silva, DC, Vencio, RZN, Sharan, M, Vogel, J, Kansakar, L, Zhang, S, Vucetic, S, Wang, Z, Sternberg, MJE, Wass, MN, Huntley, RP, Martin, MJ, O'Donovan, C, Robinson, PN, Moreau, Y, Tramontano, A, Babbitt, PC, Brenner, SE, Linial, M, Orengo, CA, Rost, B, Greene, CS, Mooney, SD, Friedberg, I, and Radivojac, P

Abstract

BACKGROUND: A major bottleneck in our understanding of the molecular underpinnings of life is the assignment of function to proteins. While molecular experiments provide the most reliable annotation of proteins, their relatively low throughput and restricted purview have led to an increasing role for computational function prediction. However, assessing methods for protein function prediction and tracking progress in the field remain challenging. RESULTS: We conducted the second critical assessment of functional annotation (CAFA), a timed challenge to assess computational methods that automatically assign protein function. We evaluated 126 methods from 56 research groups for their ability to predict biological functions using Gene Ontology and gene-disease associations using Human Phenotype Ontology on a set of 3681 proteins from 18 species. CAFA2 featured expanded analysis compared with CAFA1, with regards to data set size, variety, and assessment metrics. To review progress in the field, the analysis compared the best methods from CAFA1 to those of CAFA2. CONCLUSIONS: The top-performing methods in CAFA2 outperformed those from CAFA1. This increased accuracy can be attributed to a combination of the growing number of experimental annotations and improved methods for function prediction. The assessment also revealed that the definition of top-performing algorithms is ontology specific, that different performance metrics can be used to probe the nature of accurate predictions, and the relative diversity of predictions in the biological process and human phenotype ontologies. While there was methodological improvement between CAFA1 and CAFA2, the interpretation of results and usefulness of individual methods remain context-dependent.

Published
2016

21. Big data and other challenges in the quest for orthologs

Author

Sonnhammer, E. L. L., Gabaldon, T., Sousa da Silva, A. W., Martin, M., Robinson-Rechavi, M., Boeckmann, Brigitte, Thomas, P. D., Dessimoz, C., Quest for Orthologs consortium, and Zdobnov, Evgeny

Subjects
ddc:576.5
Published
2014

23. Toward community standards in the quest for orthologs

Author

Dessimoz, C, Gabaldon, T, Roos, D S, Sonnhammer, E L L, Herrero, J, Altenhoff, A, Apweiler, R, Ashburner, M, Blake, J, Boeckmann, B, Bridge, A, Bruford, E, Cherry, M, Conte, M, Dannie, D, Datta, R, Domelevo Entfellner, J-B, Ebersberger, I, Galperin, M, Joseph, J, Koestler, T, Kriventseva, E, Lecompte, O, Leunissen, J, Lewis, S, Linard, B, Livstone, M S, et al, University of Zurich, and Dessimoz, C

Subjects
1303 Biochemistry, 1312 Molecular Biology, 1706 Computer Science Applications, 2613 Statistics and Probability, 142-005 142-005, 2605 Computational Mathematics, 1703 Computational Theory and Mathematics
Published
2012
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24. 'ArthropodaCyc': a BioCyc database powered by CycADS to study and compare the metabolism of arthropods

Author

Patrice Baa-Puyoulet, Vellozo, Augusto F., Jaime Huerta-Cepas, Gérard Febvay, Gabaldon, T., Marie-France Sagot, Hubert CHARLES, Stefano Colella, Biologie Fonctionnelle, Insectes et Interactions (BF2I), Institut National de la Recherche Agronomique (INRA)-Institut National des Sciences Appliquées de Lyon (INSA Lyon), Université de Lyon-Institut National des Sciences Appliquées (INSA)-Université de Lyon-Institut National des Sciences Appliquées (INSA), An algorithmic view on genomes, cells, and environments (BAMBOO), Inria Grenoble - Rhône-Alpes, Institut National de Recherche en Informatique et en Automatique (Inria)-Institut National de Recherche en Informatique et en Automatique (Inria)-Laboratoire de Biométrie et Biologie Evolutive - UMR 5558 (LBBE), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Recherche en Informatique et en Automatique (Inria)-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Centre National de la Recherche Scientifique (CNRS), Université de Lyon, Centro de Regulación Genómica (CRG), Universitat Pompeu Fabra [Barcelona] (UPF), Kansas State University. Center for Genomi c Studies on Arthropods Affecting Human, Animal & Plant Health, Manhattan, USA., Center for Genomic Regulation (CRG-UPF), CIBER de Epidemiología y Salud Pública (CIBERESP), Laboratoire de Biométrie et Biologie Evolutive - UMR 5558 (LBBE), Université de Lyon-Université de Lyon-Institut National de Recherche en Informatique et en Automatique (Inria)-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Centre National de la Recherche Scientifique (CNRS)-Inria Grenoble - Rhône-Alpes, Institut National de Recherche en Informatique et en Automatique (Inria), and Institut National des Sciences Appliquées (INSA)-Université de Lyon-Institut National des Sciences Appliquées (INSA)-Université de Lyon

Subjects
[SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, [SDV.BIO]Life Sciences [q-bio]/Biotechnology, [INFO.INFO-BI]Computer Science [cs]/Bioinformatics [q-bio.QM], [SDV.BIBS]Life Sciences [q-bio]/Quantitative Methods [q-bio.QM], ComputingMilieux_MISCELLANEOUS
Abstract

5-COM (communications sans actes) 1-1-4 Communication congrès (résultats originaux) 6. Congrès; International audience

Published
2011

26. Genome sequence of the pea aphid Acyrthosiphon pisum

Author

Richards, S, Gibbs, RA, Gerardo, NM, Moran, N, Nakabachi, A, Stern, D, Tagu, D, Wilson, ACC, Muzny, D, Kovar, C, Cree, A, Chacko, J, Chandrabose, MN, Dao, MD, Dinh, HH, Gabisi, RA, Hines, S, Hume, J, Jhangian, SN, Joshi, V, Lewis, LR, Liu, Y-S, Lopez, J, Morgan, MB, Nguyen, NB, Okwuonu, GO, Ruiz, SJ, Santibanez, J, Wright, RA, Fowler, GR, Hitchens, ME, Lozado, RJ, Moen, C, Steffen, D, Warren, JT, Zhang, J, Nazareth, LV, Chavez, D, Davis, C, Lee, SL, Patel, BM, Pu, L-L, Bell, SN, Johnson, AJ, Vattathil, S, Jr, WRL, Shigenobu, S, Dang, PM, Morioka, M, Fukatsu, T, Kudo, T, Miyagishima, S-Y, Jiang, H, Worley, KC, Legeai, F, Gauthier, J-P, Collin, O, Zhang, L, Chen, H-C, Ermolaeva, O, Hlavina, W, Kapustin, Y, Kiryutin, B, Kitts, P, Maglott, D, Murphy, T, Pruitt, K, Sapojnikov, V, Souvorov, A, Thibaud-Nissen, F, Camara, F, Guigo, R, Stanke, M, Solovyev, V, Kosarev, P, Gilbert, D, Gabaldon, T, Huerta-Cepas, J, Marcet-Houben, M, Pignatelli, M, Moya, A, Rispe, C, Ollivier, M, Quesneville, H, Permal, E, Llorens, C, Futami, R, Hedges, D, Robertson, HM, Alioto, T, Mariotti, M, Nikoh, N, McCutcheon, JP, Burke, G, Kamins, A, Latorre, A, Moran, NA, Ashton, P, Calevro, F, Charles, H, Colella, S, Douglas, A, Jander, G, Jones, DH, Febvay, G, Kamphuis, LG, Kushlan, PF, Macdonald, S, Ramsey, J, Schwartz, J, Seah, S, Thomas, G, Vellozo, A, Cass, B, Degnan, P, Hurwitz, B, Leonardo, T, Koga, R, Altincicek, B, Anselme, C, Atamian, H, Barribeau, SM, de Vos, M, Duncan, EJ, Evans, J, Ghanim, M, Heddi, A, Kaloshian, I, Vincent-Monegat, C, Parker, BJ, Perez-Brocal, V, Rahbe, Y, Spragg, CJ, Tamames, J, Tamarit, D, Tamborindeguy, C, Vilcinskas, A, Bickel, RD, Brisson, JA, Butts, T, Chang, C-C, Christiaens, O, Davis, GK, Duncan, E, Ferrier, D, Iga, M, Janssen, R, Lu, H-L, McGregor, A, Miura, T, Smagghe, G, Smith, J, van der Zee, M, Velarde, R, Wilson, M, Dearden, P, Edwards, OR, Gordon, K, Hilgarth, RS, Jr, RSD, Srinivasan, D, Walsh, TK, Ishikawa, A, Jaubert-Possamai, S, Fenton, B, Huang, W, Rizk, G, Lavenier, D, Nicolas, J, Smadja, C, Zhou, J-J, Vieira, FG, He, X-L, Liu, R, Rozas, J, Field, LM, Ashton, PD, Campbell, P, Carolan, JC, Douglas, AE, Fitzroy, CIJ, Reardon, KT, Reeck, GR, Singh, K, Wilkinson, TL, Huybrechts, J, Abdel-latief, M, Robichon, A, Veenstra, JA, Hauser, F, Cazzamali, G, Schneider, M, Williamson, M, Stafflinger, E, Hansen, KK, Grimmelikhuijzen, CJP, Price, DRG, Caillaud, M, van Fleet, E, Ren, Q, Gatehouse, JA, Brault, V, Monsion, B, Diaz, J, Hunnicutt, L, Ju, H-J, Pechuan, X, Aguilar, J, Cortes, T, Ortiz-Rivas, B, Martinez-Torres, D, Dombrovsky, A, Dale, RP, Davies, TGE, Williamson, MS, Jones, A, Sattelle, D, Williamson, S, Wolstenholme, A, Cottret, L, Sagot, MF, Heckel, DG, Hunter, W, Consortium, IAG, Universitat de Barcelona, Princeton University, Biologie des organismes et des populations appliquées à la protection des plantes (BIO3P), Institut National de la Recherche Agronomique (INRA)-Université de Rennes (UR)-AGROCAMPUS OUEST, Biologie Fonctionnelle, Insectes et Interactions (BF2I), Institut National de la Recherche Agronomique (INRA)-Institut National des Sciences Appliquées de Lyon (INSA Lyon), Université de Lyon-Institut National des Sciences Appliquées (INSA)-Université de Lyon-Institut National des Sciences Appliquées (INSA), Baylor College of Medicine (BCM), Baylor University, An algorithmic view on genomes, cells, and environments (BAMBOO), Inria Grenoble - Rhône-Alpes, Institut National de Recherche en Informatique et en Automatique (Inria)-Institut National de Recherche en Informatique et en Automatique (Inria)-Laboratoire de Biométrie et Biologie Evolutive - UMR 5558 (LBBE), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Recherche en Informatique et en Automatique (Inria)-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Centre National de la Recherche Scientifique (CNRS), IAGC, Institut National de la Recherche Agronomique (INRA)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-AGROCAMPUS OUEST, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), Institut National des Sciences Appliquées (INSA)-Université de Lyon-Institut National des Sciences Appliquées (INSA)-Université de Lyon, Eisen, Jonathan A., and Eisen, Jonathan A

Subjects
0106 biological sciences, TANDEM REPEATS, Genome, Insect, Gene Transfer, RRES175, Sequència genòmica, Faculty of Science\Computer Science, CPG METHYLATION, 01 natural sciences, Genome, Medical and Health Sciences, International Aphid Genomics Consortium, Biologiska vetenskaper, Biology (General), GENE-EXPRESSION, 2. Zero hunger, Genetics, 0303 health sciences, Aphid, Afídids, General Neuroscience, GENOME SEQUENCE, food and beverages, DROSOPHILA CIRCADIAN CLOCK, Biological Sciences, Genetics and Genomics/Microbial Evolution and Genomics, INSECTE, Genètica microbiana, puceron, APIS-MELLIFERA, General Agricultural and Biological Sciences, Infection, symbiose, Biotechnology, Research Article, VIRUS VECTORING, 175_Genetics, SYMBIOTIC BACTERIA, Gene Transfer, Horizontal, QH301-705.5, ACYRTHOSIPHON PISUM, Biology, HOLOMETABOLOUS INSECTS, HOST-PLANT, 010603 evolutionary biology, PEA APHID, INSECT-PLANT, PHENOTYPIC PLASTICITY, RAVAGEUR DES CULTURES, SOCIAL INSECT, General Biochemistry, Genetics and Molecular Biology, Horizontal, 03 medical and health sciences, Buchnera, Gene family, Life Science, Animals, Symbiosis, Gene, 030304 developmental biology, Whole genome sequencing, General Immunology and Microbiology, Annotation, Genome sequence, Agricultural and Veterinary Sciences, 175_Entomology, Genètica animal, Bacteriocyte, génome, gène, Human Genome, Biology and Life Sciences, 15. Life on land, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, REPETITIVE ELEMENTS, DNA-SEQUENCES, Acyrthosiphon pisum, Genome Sequence, Genetics and Genomics/Genome Projects, Aphids, PHEROMONE-BINDING, Insect, Developmental Biology, [SDV.EE.IEO]Life Sciences [q-bio]/Ecology, environment/Symbiosis
Abstract

The genome of the pea aphid shows remarkable levels of gene duplication and equally remarkable gene absences that shed light on aspects of aphid biology, most especially its symbiosis with Buchnera., Aphids are important agricultural pests and also biological models for studies of insect-plant interactions, symbiosis, virus vectoring, and the developmental causes of extreme phenotypic plasticity. Here we present the 464 Mb draft genome assembly of the pea aphid Acyrthosiphon pisum. This first published whole genome sequence of a basal hemimetabolous insect provides an outgroup to the multiple published genomes of holometabolous insects. Pea aphids are host-plant specialists, they can reproduce both sexually and asexually, and they have coevolved with an obligate bacterial symbiont. Here we highlight findings from whole genome analysis that may be related to these unusual biological features. These findings include discovery of extensive gene duplication in more than 2000 gene families as well as loss of evolutionarily conserved genes. Gene family expansions relative to other published genomes include genes involved in chromatin modification, miRNA synthesis, and sugar transport. Gene losses include genes central to the IMD immune pathway, selenoprotein utilization, purine salvage, and the entire urea cycle. The pea aphid genome reveals that only a limited number of genes have been acquired from bacteria; thus the reduced gene count of Buchnera does not reflect gene transfer to the host genome. The inventory of metabolic genes in the pea aphid genome suggests that there is extensive metabolite exchange between the aphid and Buchnera, including sharing of amino acid biosynthesis between the aphid and Buchnera. The pea aphid genome provides a foundation for post-genomic studies of fundamental biological questions and applied agricultural problems., Author Summary Aphids are common pests of crops and ornamental plants. Facilitated by their ancient association with intracellular symbiotic bacteria that synthesize essential amino acids, aphids feed on phloem (sap). Exploitation of a diversity of long-lived woody and short-lived herbaceous hosts by many aphid species is a result of specializations that allow aphids to discover and exploit suitable host plants. Such specializations include production by a single genotype of multiple alternative phenotypes including asexual, sexual, winged, and unwinged forms. We have generated a draft genome sequence of the pea aphid, an aphid that is a model for the study of symbiosis, development, and host plant specialization. Some of the many highlights of our genome analysis include an expanded total gene set with remarkable levels of gene duplication, as well as aphid-lineage-specific gene losses. We find that the pea aphid genome contains all genes required for epigenetic regulation by methylation, that genes encoding the synthesis of a number of essential amino acids are distributed between the genomes of the pea aphid and its symbiont, Buchnera aphidicola, and that many genes encoding immune system components are absent. These genome data will form the basis for future aphid research and have already underpinned a variety of genome-wide approaches to understanding aphid biology.

Published
2010
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27. Whole-genome analyses resolve early branches in the tree of life of modern birds

Author

Jarvis, E., Mirarab, S., Aberer, A., Li, B., Houde, P., Li, C., Ho, S., Faircloth, B., Nabholz, B., Howard, J., Suh, A., Weber, C., da Fonseca, R., Li, J., Zhang, F., Li, H., Zhou, L., Narala, N., Liu, L., Ganapathy, G., boussau, B., Bayzid, M.S., Zavidovych, V., Subramanian, S., Gabaldon, T., Capella-Gutierrez, S., Huerta-Cepas, J., Rekepalli, B., Munch, K., Schierup, M., Lindow, B., Warren, W., Ray, D., Green, R., Bruford, M., Zhan, X., Dixon, A., Li, S., Li, N., Huang, Y., Derryberry, E., Bertelsen, M., Sheldon, F., Brumfield, R., Mello, C., Lovell, P., Wirthlin, M., Schneider, M., Prosdocimi, F., Samaniego, J.A., Velazquez, A., Alfaro-Nunez, A., Campos, P., Petersen, B., Sicheritz-Ponten, T., Pas, A., Bailey, T., Scofield, P., Bunce, Michael, Lambert, D., Zhou, Q., Perelman, P., Driskell, A., Shapiro, B., Xiong, Z., Zeng, Y., Liu, S., Li, Z., Liu, B., Wu, K., Xiao, J., Xiong, Y., Zheng, Q., Zhang, Y., Yang, H., Wang, J., Smeds, L., Rheindt, F., Braun, M., Fjeldsa, J., Oelando, L., Barker, K., Jonsson, K., Johnson, W., Koepfli, K., O'Brien, S., Haussler, D., Ryder, O., Rahbek, C., Willerslev, E., Graves, G., Glenn, T., McCormack, J., Burt, D., Ellegren, H., Alstrom, P., Edwards, S., Stamatakis, A., Mindell, D., Cracraft, J., Braun, E., Warnow, T., Wang, Jun, Gilbert, Thomas, Zhang, G., Jarvis, E., Mirarab, S., Aberer, A., Li, B., Houde, P., Li, C., Ho, S., Faircloth, B., Nabholz, B., Howard, J., Suh, A., Weber, C., da Fonseca, R., Li, J., Zhang, F., Li, H., Zhou, L., Narala, N., Liu, L., Ganapathy, G., boussau, B., Bayzid, M.S., Zavidovych, V., Subramanian, S., Gabaldon, T., Capella-Gutierrez, S., Huerta-Cepas, J., Rekepalli, B., Munch, K., Schierup, M., Lindow, B., Warren, W., Ray, D., Green, R., Bruford, M., Zhan, X., Dixon, A., Li, S., Li, N., Huang, Y., Derryberry, E., Bertelsen, M., Sheldon, F., Brumfield, R., Mello, C., Lovell, P., Wirthlin, M., Schneider, M., Prosdocimi, F., Samaniego, J.A., Velazquez, A., Alfaro-Nunez, A., Campos, P., Petersen, B., Sicheritz-Ponten, T., Pas, A., Bailey, T., Scofield, P., Bunce, Michael, Lambert, D., Zhou, Q., Perelman, P., Driskell, A., Shapiro, B., Xiong, Z., Zeng, Y., Liu, S., Li, Z., Liu, B., Wu, K., Xiao, J., Xiong, Y., Zheng, Q., Zhang, Y., Yang, H., Wang, J., Smeds, L., Rheindt, F., Braun, M., Fjeldsa, J., Oelando, L., Barker, K., Jonsson, K., Johnson, W., Koepfli, K., O'Brien, S., Haussler, D., Ryder, O., Rahbek, C., Willerslev, E., Graves, G., Glenn, T., McCormack, J., Burt, D., Ellegren, H., Alstrom, P., Edwards, S., Stamatakis, A., Mindell, D., Cracraft, J., Braun, E., Warnow, T., Wang, Jun, Gilbert, Thomas, and Zhang, G.

Abstract

To better determine the history of modern birds, we performed a genome-scale phylogenetic analysis of 48 species representing all orders of Neoaves using phylogenomic methods created to handle genome-scale data. We recovered a highly resolved tree that confirms previously controversial sister or close relationships. We identified the first divergence in Neoaves, two groups we named Passerea and Columbea, representing independent lineages of diverse and convergently evolved land and water bird species. Among Passerea, we infer the common ancestor of core landbirds to have been an apex predator and confirm independent gains of vocal learning. Among Columbea, we identify pigeons and flamingoes as belonging to sister clades. Even with whole genomes, some of the earliest branches in Neoaves proved challenging to resolve, which was best explained by massive protein-coding sequence convergence and high levels of incomplete lineage sorting that occurred during a rapid radiation after the Cretaceous-Paleogene mass extinction event about 66 million years ago.

Published
2014

28. Ancient dispersal of the human fungal pathogen Cryptococcus gattii from the Amazon rainforest

Author

Hagen, F., Ceresini, P.C., Polacheck, I., Ma, H., van Nieuwerburgh, F., Gabaldon, T., Kagan, S., Pursall, E.R., Hoogveld, H.L., van Iersel, L.J., Klau, G.W., Kelk, S.M., Stougie, L., Bartlett, K.H., Voelz, K., Pryszcz, L.P., Castaneda, E., Lazera, M., Meyer, W., Deforce, D., Meis, J.F.G.M., May, R.C., Klaassen, C.H.W., Boekhout, T., Hagen, F., Ceresini, P.C., Polacheck, I., Ma, H., van Nieuwerburgh, F., Gabaldon, T., Kagan, S., Pursall, E.R., Hoogveld, H.L., van Iersel, L.J., Klau, G.W., Kelk, S.M., Stougie, L., Bartlett, K.H., Voelz, K., Pryszcz, L.P., Castaneda, E., Lazera, M., Meyer, W., Deforce, D., Meis, J.F.G.M., May, R.C., Klaassen, C.H.W., and Boekhout, T.

Abstract

Over the past two decades, several fungal outbreaks have occurred, including the high-profile 'Vancouver Island' and 'Pacific Northwest' outbreaks, caused by Cryptococcus gattii, which has affected hundreds of otherwise healthy humans and animals. Over the same time period, C. gattii was the cause of several additional case clusters at localities outside of the tropical and subtropical climate zones where the species normally occurs. In every case, the causative agent belongs to a previously rare genotype of C. gattii called AFLP6/VGII, but the origin of the outbreak clades remains enigmatic. Here we used phylogenetic and recombination analyses, based on AFLP and multiple MLST datasets, and coalescence gene genealogy to demonstrate that these outbreaks have arisen from a highly-recombining C. gattii population in the native rainforest of Northern Brazil. Thus the modern virulent C. gattii AFLP6/VGII outbreak lineages derived from mating events in South America and then dispersed to temperate regions where they cause serious infections in humans and animals., Over the past two decades, several fungal outbreaks have occurred, including the high-profile 'Vancouver Island' and 'Pacific Northwest' outbreaks, caused by Cryptococcus gattii, which has affected hundreds of otherwise healthy humans and animals. Over the same time period, C. gattii was the cause of several additional case clusters at localities outside of the tropical and subtropical climate zones where the species normally occurs. In every case, the causative agent belongs to a previously rare genotype of C. gattii called AFLP6/VGII, but the origin of the outbreak clades remains enigmatic. Here we used phylogenetic and recombination analyses, based on AFLP and multiple MLST datasets, and coalescence gene genealogy to demonstrate that these outbreaks have arisen from a highly-recombining C. gattii population in the native rainforest of Northern Brazil. Thus the modern virulent C. gattii AFLP6/VGII outbreak lineages derived from mating events in South America and then dispersed to temperate regions where they cause serious infections in humans and animals.

Published
2013

29. Complete DNA sequence of Kuraishia capsulata illustrates novel genomic features among budding yeasts (Saccharomycotina)

Author

Morales, L., Noel, B., Porcel, B., Marcet-Houben, M., Hullo, M.F., Sacerdot, C., Tekaia, F., Leh-Louis, V., Despons, L., Khanna, V., Aury, J.M., Barbe, V., Couloux, A., Labadie, K., Pelletier, E., Souciet, J.L., Boekhout, T., Gabaldon, T., Wincker, P., Dujon, B., Morales, L., Noel, B., Porcel, B., Marcet-Houben, M., Hullo, M.F., Sacerdot, C., Tekaia, F., Leh-Louis, V., Despons, L., Khanna, V., Aury, J.M., Barbe, V., Couloux, A., Labadie, K., Pelletier, E., Souciet, J.L., Boekhout, T., Gabaldon, T., Wincker, P., and Dujon, B.

Abstract

The numerous yeast genome sequences presently available provide a rich source of information for functional as well as evolutionary genomics, but unequally cover the large phylogenetic diversity of extant yeasts. We present here the complete sequence of the nuclear genome of the haploid type strain of Kuraishia capsulata (CBS1993T), a nitrate assimilating Saccharomycetales of uncertain taxonomy, isolated from tunnels of insect larvae underneath coniferous barks and characterized by its copious production of extracellular polysaccharides. The sequence is composed of 7 scaffolds, one per chromosome, totaling 11.4 Mb and containing 6,029 protein-coding genes, ca. 13.5 % of which being interrupted by introns. This GC-rich yeast genome (45.7 %) appears phylogenetically related with the few other nitrate assimilating yeasts sequenced so far, Ogataea polymorpha, Ogataea parapolymorpha and Dekkera bruxellensis with which it shares a very reduced number of tRNA genes, a novel tRNA sparing strategy, and a common nitrate assimilation cluster, three specific features to this group of yeasts. Centromeres were recognized in GC-poor troughs of each scaffold. The strain bears MAT alpha genes at a single MAT locus and presents a significant degree of conservation with S. cerevisiae genes, suggesting that it can perform sexual cycles in nature, although genes involved in meiosis were not all recognized. The complete absence of conservation of synteny between K. capsulata and any other yeast genome described so far, including the three other nitrate-assimilating species, validates the interest of this species for long range evolutionary genomic studies among Saccharomycotina yeasts., The numerous yeast genome sequences presently available provide a rich source of information for functional as well as evolutionary genomics, but unequally cover the large phylogenetic diversity of extant yeasts. We present here the complete sequence of the nuclear genome of the haploid type strain of Kuraishia capsulata (CBS1993T), a nitrate assimilating Saccharomycetales of uncertain taxonomy, isolated from tunnels of insect larvae underneath coniferous barks and characterized by its copious production of extracellular polysaccharides. The sequence is composed of 7 scaffolds, one per chromosome, totaling 11.4 Mb and containing 6,029 protein-coding genes, ca. 13.5 % of which being interrupted by introns. This GC-rich yeast genome (45.7 %) appears phylogenetically related with the few other nitrate assimilating yeasts sequenced so far, Ogataea polymorpha, Ogataea parapolymorpha and Dekkera bruxellensis with which it shares a very reduced number of tRNA genes, a novel tRNA sparing strategy, and a common nitrate assimilation cluster, three specific features to this group of yeasts. Centromeres were recognized in GC-poor troughs of each scaffold. The strain bears MAT alpha genes at a single MAT locus and presents a significant degree of conservation with S. cerevisiae genes, suggesting that it can perform sexual cycles in nature, although genes involved in meiosis were not all recognized. The complete absence of conservation of synteny between K. capsulata and any other yeast genome described so far, including the three other nitrate-assimilating species, validates the interest of this species for long range evolutionary genomic studies among Saccharomycotina yeasts.

Published
2013

30. Toward community standards in the quest for orthologs.

Author

Dessimoz, C., Gabaldon, T., Roos, D.S., Sonnhammer, E.L., Herrero, J., Szklarczyk, R.J., et al., Dessimoz, C., Gabaldon, T., Roos, D.S., Sonnhammer, E.L., Herrero, J., Szklarczyk, R.J., and et al.

Abstract

Item does not contain fulltext, The identification of orthologs-genes pairs descended from a common ancestor through speciation, rather than duplication-has emerged as an essential component of many bioinformatics applications, ranging from the annotation of new genomes to experimental target prioritization. Yet, the development and application of orthology inference methods is hampered by the lack of consensus on source proteomes, file formats and benchmarks. The second 'Quest for Orthologs' meeting brought together stakeholders from various communities to address these challenges. We report on achievements and outcomes of this meeting, focusing on topics of particular relevance to the research community at large. The Quest for Orthologs consortium is an open community that welcomes contributions from all researchers interested in orthology research and applications.

Published
2012

31. Evidence for short-time divergence and long-time conservation of tissue-specific expression after gene duplication

Author

Huerta-Cepas, J., Dopazo, J., Huynen, M.A., Gabaldon, T., Huerta-Cepas, J., Dopazo, J., Huynen, M.A., and Gabaldon, T.

Abstract

Item does not contain fulltext, Gene duplication is one of the main mechanisms by which genomes can acquire novel functions. It has been proposed that the retention of gene duplicates can be associated to processes of tissue expression divergence. These models predict that acquisition of divergent expression patterns should be acquired shortly after the duplication, and that larger divergence in tissue expression would be expected for paralogs, as compared to orthologs of a similar age. Many studies have shown that gene duplicates tend to have divergent expression patterns and that gene family expansions are associated with high levels of tissue specificity. However, the timeframe in which these processes occur have rarely been investigated in detail, particularly in vertebrates, and most analyses do not include direct comparisons of orthologs as a baseline for the expected levels of tissue specificity in absence of duplications. To assess the specific contribution of duplications to expression divergence, we combine here phylogenetic analyses and expression data from human and mouse. In particular, we study differences in spatial expression among human-mouse paralogs, specifically duplicated after the radiation of mammals, and compare them to pairs of orthologs in the same species. Our results show that gene duplication leads to increased levels of tissue specificity and that this tends to occur promptly after the duplication event.

Published
2011

32. From Endosymbiont to Host-Controlled Organelle: The Hijacking of Mitochondrial Protein Synthesis and Metabolism

Author

Gabaldon, T., Huynen, M.A., Gabaldon, T., and Huynen, M.A.

Abstract

Contains fulltext : 34750.pdf (publisher's version ) (Open Access), Mitochondria are eukaryotic organelles that originated from the endosymbiosis of an alpha-proteobacterium. To gain insight into the evolution of the mitochondrial proteome as it proceeded through the transition from a free-living cell to a specialized organelle, we compared a reconstructed ancestral proteome of the mitochondrion with the proteomes of alpha-proteobacteria as well as with the mitochondrial proteomes in yeast and man. Overall, there has been a large turnover of the mitochondrial proteome during the evolution of mitochondria. Early in the evolution of the mitochondrion, proteins involved in cell envelope synthesis have virtually disappeared, whereas proteins involved in replication, transcription, cell division, transport, regulation, and signal transduction have been replaced by eukaryotic proteins. More than half of what remains from the mitochondrial ancestor in modern mitochondria corresponds to translation, including post-translational modifications, and to metabolic pathways that are directly, or indirectly, involved in energy conversion. Altogether, the results indicate that the eukaryotic host has hijacked the proto-mitochondrion, taking control of its protein synthesis and metabolism.

Published
2007

33. Origin and evolution of the peroxisomal proteome.

Author

Gabaldon, T., Snel, B., Zimmeren, F. van, Hemrika, W., Tabak, H., Huynen, M.A., Gabaldon, T., Snel, B., Zimmeren, F. van, Hemrika, W., Tabak, H., and Huynen, M.A.

Abstract

Contains fulltext : 49485.pdf ( ) (Open Access), BACKGROUND: Peroxisomes are ubiquitous eukaryotic organelles involved in various oxidative reactions. Their enzymatic content varies between species, but the presence of common protein import and organelle biogenesis systems support a single evolutionary origin. The precise scenario for this origin remains however to be established. The ability of peroxisomes to divide and import proteins post-translationally, just like mitochondria and chloroplasts, supports an endosymbiotic origin. However, this view has been challenged by recent discoveries that mutant, peroxisome-less cells restore peroxisomes upon introduction of the wild-type gene, and that peroxisomes are formed from the Endoplasmic Reticulum. The lack of a peroxisomal genome precludes the use of classical analyses, as those performed with mitochondria or chloroplasts, to settle the debate. We therefore conducted large-scale phylogenetic analyses of the yeast and rat peroxisomal proteomes. RESULTS : Our results show that most peroxisomal proteins (39-58%) are of eukaryotic origin, comprising all proteins involved in organelle biogenesis or maintenance. A significant fraction (13-18%), consisting mainly of enzymes, has an alpha-proteobacterial origin and appears to be the result of the recruitment of proteins originally targeted to mitochondria. Consistent with the findings that peroxisomes are formed in the Endoplasmic Reticulum, we find that the most universally conserved Peroxisome biogenesis and maintenance proteins are homologous to proteins from the Endoplasmic Reticulum Assisted Decay pathway. CONCLUSION: Altogether our results indicate that the peroxisome does not have an endosymbiotic origin and that its proteins were recruited from pools existing within the primitive eukaryote. Moreover the reconstruction of primitive peroxisomal proteomes suggests that ontogenetically as well as phylogenetically, peroxisomes stem from the Endoplasmic Reticulum. REVIEWERS: This article was reviewed by Arcady Mushegia

Published
2006

36. An anaerobic mitochondrion that produces hydrogen

Author

Boxma, B., Graaf, R.M. de, Staay, G.W.M. van der, Alen, T.A. van, Ricard, G.N.S., Gabaldon, T., Hoek, A.H.A.M. van, Moon-van der Staay, S.Y., Koopman, W.J.H., Hellemond, J.J. van, Tielens, A.G.G.M., Friedrich, T., Veenhuis, M., Huynen, M.A., Hackstein, J.H.P., Boxma, B., Graaf, R.M. de, Staay, G.W.M. van der, Alen, T.A. van, Ricard, G.N.S., Gabaldon, T., Hoek, A.H.A.M. van, Moon-van der Staay, S.Y., Koopman, W.J.H., Hellemond, J.J. van, Tielens, A.G.G.M., Friedrich, T., Veenhuis, M., Huynen, M.A., and Hackstein, J.H.P.

Abstract

Contains fulltext : 33281.pdf (publisher's version ) (Closed access)

Published
2005

38. A mitochondrial genome in the hydrogenosomes of the ciliate Nyctotherus ovalis

Author

Staay, G.W.M. van der, Graaf, R.M. de, Alen, T.A. van, Moon-van der Staay, S.Y., Boxma, B., Hoek, A.H.A.M. van, Gabaldon, T., Huynen, M.A., Hackstein, J.H.P., Staay, G.W.M. van der, Graaf, R.M. de, Alen, T.A. van, Moon-van der Staay, S.Y., Boxma, B., Hoek, A.H.A.M. van, Gabaldon, T., Huynen, M.A., and Hackstein, J.H.P.

Abstract

Item does not contain fulltext

Published
2004

39. Prediction of protein function and pathways in the genome era.

Author

Gabaldon, T., Huynen, M.A., Gabaldon, T., and Huynen, M.A.

Abstract

Item does not contain fulltext, The growing number of completely sequenced genomes adds new dimensions to the use of sequence analysis to predict protein function. Compared with the classical knowledge transfer from one protein to a similar sequence (homology-based function prediction), knowledge about the corresponding genes in other genomes (orthology-based function prediction) provides more specific information about the protein's function, while the analysis of the sequence in its genomic context (context-based function prediction) provides information about its functional context. Whereas homology-based methods predict the molecular function of a protein, genomic context methods predict the biological process in which it plays a role. These complementary approaches can be combined to elucidate complete functional networks and biochemical pathways from the genome sequence of an organism. Here we review recent advances in the field of genomic-context based methods of protein function prediction. Techniques are highlighted with examples, including an analysis that combines information from genomic-context with homology to predict a role of the RNase L inhibitor in the maturation of ribosomal RNA.

Published
2004

40. Shaping the mitochondrial proteome

Author

Gabaldon, T., Huynen, M.A., Gabaldon, T., and Huynen, M.A.

Abstract

Contains fulltext : 57778.pdf (publisher's version ) (Closed access)

Published
2004

49. The Schistosoma mansoni phylome: using evolutionary genomics to gain insight into a parasite’s biology

Author

Silva Larissa, Marcet-Houben Marina, Nahum Laila, Zerlotini Adhemar, Gabaldón Toni, and Oliveira Guilherme

Subjects
Phylogenomics, Maximum likelihood analysis, Homology prediction, Functional annotation, Paralogous families, Parasite genomics, Schistosomiasis, Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Schistosoma mansoni is one of the causative agents of schistosomiasis, a neglected tropical disease that affects about 237 million people worldwide. Despite recent efforts, we still lack a general understanding of the relevant host-parasite interactions, and the possible treatments are limited by the emergence of resistant strains and the absence of a vaccine. The S. mansoni genome was completely sequenced and still under continuous annotation. Nevertheless, more than 45% of the encoded proteins remain without experimental characterization or even functional prediction. To improve our knowledge regarding the biology of this parasite, we conducted a proteome-wide evolutionary analysis to provide a broad view of the S. mansoni’s proteome evolution and to improve its functional annotation. Results Using a phylogenomic approach, we reconstructed the S. mansoni phylome, which comprises the evolutionary histories of all parasite proteins and their homologs across 12 other organisms. The analysis of a total of 7,964 phylogenies allowed a deeper understanding of genomic complexity and evolutionary adaptations to a parasitic lifestyle. In particular, the identification of lineage-specific gene duplications pointed to the diversification of several protein families that are relevant for host-parasite interaction, including proteases, tetraspanins, fucosyltransferases, venom allergen-like proteins, and tegumental-allergen-like proteins. In addition to the evolutionary knowledge, the phylome data enabled us to automatically re-annotate 3,451 proteins through a phylogenetic-based approach rather than solely sequence similarity searches. To allow further exploitation of this valuable data, all information has been made available at PhylomeDB (http://www.phylomedb.org). Conclusions In this study, we used an evolutionary approach to assess S. mansoni parasite biology, improve genome/proteome functional annotation, and provide insights into host-parasite interactions. Taking advantage of a proteome-wide perspective rather than focusing on individual proteins, we identified that this parasite has experienced specific gene duplication events, particularly affecting genes that are potentially related to the parasitic lifestyle. These innovations may be related to the mechanisms that protect S. mansoni against host immune responses being important adaptations for the parasite survival in a potentially hostile environment. Continuing this work, a comparative analysis involving genomic, transcriptomic, and proteomic data from other helminth parasites, other parasites, and vectors will supply more information regarding parasite’s biology as well as host-parasite interactions.

Published
2012
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50. Genome sequence of the necrotrophic fungus Penicillium digitatum, the main postharvest pathogen of citrus

Author

Marcet-Houben Marina, Ballester Ana-Rosa, de la Fuente Beatriz, Harries Eleonora, Marcos Jose F, González-Candelas Luis, and Gabaldón Toni

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Penicillium digitatum is a fungal necrotroph causing a common citrus postharvest disease known as green mold. In order to gain insight into the genetic bases of its virulence mechanisms and its high degree of host-specificity, the genomes of two P. digitatum strains that differ in their antifungal resistance traits have been sequenced and compared with those of 28 other Pezizomycotina. Results The two sequenced genomes are highly similar, but important differences between them include the presence of a unique gene cluster in the resistant strain, and mutations previously shown to confer fungicide resistance. The two strains, which were isolated in Spain, and another isolated in China have identical mitochondrial genome sequences suggesting a recent worldwide expansion of the species. Comparison with the closely-related but non-phytopathogenic P. chrysogenum reveals a much smaller gene content in P. digitatum, consistent with a more specialized lifestyle. We show that large regions of the P. chrysogenum genome, including entire supercontigs, are absent from P. digitatum, and that this is the result of large gene family expansions rather than acquisition through horizontal gene transfer. Our analysis of the P. digitatum genome is indicative of heterothallic sexual reproduction and reveals the molecular basis for the inability of this species to assimilate nitrate or produce the metabolites patulin and penicillin. Finally, we identify the predicted secretome, which provides a first approximation to the protein repertoire used during invasive growth. Conclusions The complete genome of P. digitatum, the first of a phytopathogenic Penicillium species, is a valuable tool for understanding the virulence mechanisms and host-specificity of this economically important pest.

Published
2012
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