Your search keyword '"Sawicki, Jakub"' showing total 284 results

251. Orthotrichum moravicum (Orthotrichaceae), a new moss species from the Czech Republic

Author

Plášek, VÍtězslav, Sawicki, Jakub, TrávnÍčková, Věra, and Pasečná, Markéta

Published

2009

252. The organellar genomes of Pellidae (Marchantiophyta): the evidence of cryptic speciation, conflicting phylogenies and extraordinary reduction of mitogenomes in simple thalloid liverwort lineage.

Author

Paukszto, Łukasz, Górski, Piotr, Krawczyk, Katarzyna, Maździarz, Mateusz, Szczecińska, Monika, Ślipiko, Monika, and Sawicki, Jakub

Subjects

*LIVERWORTS, *GENETIC speciation, *MITOCHONDRIAL proteins, *GENOMES, *GENETIC code, *TRANSFER RNA, *GENOMICS, *INTRONS

Abstract

Organellar genomes of liverworts are considered as one of the most stable among plants, with rare events of gene loss and structural rearrangements. However, not all lineages of liverworts are equally explored in the field of organellar genomics, and subclass Pellidae is one of the less known. Hybrid assembly, using both short- and long-read technologies enabled the assembly of repeat-rich mitogenomes of Pellia and Apopellia revealing extraordinary reduction of length in the latter which impacts only intergenic spacers. The mitogenomes of Apopellia were revealed to be the smallest among all known liverworts—109 k bp, despite retaining all introns. The study also showed the loss of one tRNA gene in Apopellia mitogenome, although it had no impact on the codon usage pattern of mitochondrial protein coding genes. Moreover, it was revealed that Apopellia and Pellia differ in codon usage by plastome CDSs, despite identical tRNA gene content. Molecular identification of species is especially important where traditional taxonomic methods fail, especially within Pellidae where cryptic speciation is well recognized. The simple morphology of these species and a tendency towards environmental plasticity make them complicated in identification. Application of super-barcodes, based on complete mitochondrial or plastid genomes sequences enable identification of all cryptic lineages within Apopellia and Pellia genera, however in some particular cases, mitogenomes were more efficient in species delimitation than plastomes. [ABSTRACT FROM AUTHOR]

Published

2023

253. Super-Mitobarcoding in Plant Species Identification? It Can Work! The Case of Leafy Liverworts Belonging to the Genus Calypogeia.

Author

Ślipiko, Monika, Myszczyński, Kamil, Buczkowska, Katarzyna, Bączkiewicz, Alina, and Sawicki, Jakub

Subjects

*PLANT identification, *PLANT species, *MITOCHONDRIAL DNA, *CHLOROPLAST DNA, *COMPARATIVE genetics, *GENETIC barcoding, *PLANT mitochondria

Abstract

Molecular identification of species is especially important where traditional taxonomic methods fail. The genus Calypogeia belongs to one of the tricky taxons. The simple morphology of these species and a tendency towards environmental plasticity make them complicated in identification. The finding of the universal single-locus DNA barcode in plants seems to be 'the Holy Grail'; therefore, researchers are increasingly looking for multiloci DNA barcodes or super-barcoding. Since the mitochondrial genome has low sequence variation in plants, species delimitation is usually based on the chloroplast genome. Unexpectedly, our research shows that super-mitobarcoding can also work! However, our outcomes showed that a single method of molecular species delimitation should be avoided. Moreover, it is recommended to interpret the results of molecular species delimitation alongside other types of evidence, such as ecology, population genetics or comparative morphology. Here, we also presented genetic data supporting the view that C. suecica is not a homogeneous species. [ABSTRACT FROM AUTHOR]

Published

2022

254. Insights into adaptive evolution of plastomes in Stipa L. (Poaceae).

Author

Krawczyk, Katarzyna, Myszczyński, Kamil, Nobis, Marcin, and Sawicki, Jakub

Subjects

*STIPA, *AMINO acids, *MOLECULAR evolution

Abstract

Background: The study presents results of research on the evolution of plastid genomes in Stipa L. which is a large genus of the Poaceae family, comprising species diverse in terms of geographic distribution, growing under highly variated habitat conditions. Complete plastome sequences of 43 taxa from Stipeae and Ampelodesmae tribes were analyzed for the variability of the coding regions against the background of phylogenetic relationships within the genus Stipa. The research hypothesis put forward in our research was that some of coding regions are affected by a selection pressure differentiated between individual phylogenetic lines of Stipa, potentially reducing the phylogenetic informativeness of these CDS. The study aimed to answer the question, which genes evolve in Stipa most rapidly and what kind of changes in the properties of encoded amino acids this entails. Another goal of this research was to find out whether individual genes are affected by positive selection and finally, whether selective pressure is uniform within the genus or does it vary between particular evolutionary lines within the genus. Results: Results of our study proved the presence of selective pressure in 11 genes: ccsA, matK, ndhC, ndhF, ndhK, rbcL, rpoA rpoC1, rpoC2, rps8 and rps11. For the first time the effect of positive selection on the rps8, rps11, and ndhK genes was documented in grasses. The varied pace of evolution, different intensity and effects of selective pressure have been demonstrated between particular phylogenetic lines of the genus tested. Conclusions: Positive selection in plastid genome in Stipa mostly affects photosynthetic genes. The potential strongest adaptive pressure was observed in the rbcL gene, especially in the oldest evolutionary group comprising Central Asian high-mountain species: S. basiplumosa, S. klimesii, S. penicillata and S. purpurea, where adaptive pressure probably affected the amino acids directly related to the efficiency of CO2 assimilation. [ABSTRACT FROM AUTHOR]

Published

2022

255. Genomic and metagenomic analysis reveals shared resistance genes and mobile genetic elements in E. coli and Klebsiella spp. isolated from hospital patients and hospital wastewater at intra- and inter-genus level.

Author

Rolbiecki, Damian, Paukszto, Łukasz, Krawczyk, Katarzyna, Korzeniewska, Ewa, Sawicki, Jakub, and Harnisz, Monika

Subjects

*MOBILE genetic elements, *DRUG resistance in bacteria, *ESCHERICHIA coli, *HEALTH facilities, *WHOLE genome sequencing, *METAGENOMICS

Abstract

Antimicrobial resistance (AMR) is a global problem that gives serious cause for concern. Hospital wastewater (HWW) is an important link between the clinical setting and the natural environment, and an escape route for pathogens that cause hospital infections, including urinary tract infections (UTI). Bacteria of the genera Escherichia and Klebsiella are common etiological factors of UTI, especially in children, and they can cause short-term infections, as well as chronic conditions. ESBL-producing Escherichia and Klebsiella have also emerged as potential indicators for estimating the burden of antimicrobial resistance under environmental conditions and the spread of AMR between clinical settings and the natural environment. In this study, whole-genome sequencing and the nanopore technology were used to analyze the complete genomes of ESBL-producing E. coli and Klebsiella spp. and the HWW metagenome, and to characterize the mechanisms of AMR. The similarities and differences in the encoded mechanisms of AMR in clinical isolates (causing UTI) and environmental strains (isolated from HWW and the HWW metagenome) were analyzed. Special attention was paid to the genetic context and the mobility of antibiotic resistance genes (ARGs) to determine the common sources and potential transmission of these genes. The results of this study suggest that the spread of drug resistance from healthcare facilities via HWW is not limited to the direct transmission of resistant clonal lines that are typically found in the clinical setting, but it also involves the indirect transfer of mobile elements carrying ARGs between bacteria colonizing various environments. Hospital wastewater could offer a supportive environment for plasmid evolution through the insertion of new ARGs, including typical chromosomal regions. These results indicate that interlined environments (hospital patients – HWW) should be closely monitored to evaluate the potential transmission routes of drug resistance in bacteria. [Display omitted] • Oxford Nanopore technology was used to sequence complete genomes of ESBL + bacteria. • CTX-M-15 was found to be the most common ESBL mechanism in sequenced genomes. • E. coli ST361 carrying bla NDM-5 on a IncF (PTU-F E) plasmid was isolated from urine. • Numerous mobile structures shared between replicons and species were observed. • The wastewater metagenome complemented data on ARB released from the hospital. [ABSTRACT FROM AUTHOR]

Published

2024

256. Breaking the limits - multichromosomal structure of an early eudicot Pulsatilla patens mitogenome reveals extensive RNA-editing, longest repeats and chloroplast derived regions among sequenced land plant mitogenomes.

Author

Szandar, Kamil, Krawczyk, Katarzyna, Myszczyński, Kamil, Ślipiko, Monika, Sawicki, Jakub, and Szczecińska, Monika

Subjects

*CHLOROPLAST DNA, *GENOME editing, *DNA polymerases, *MOLECULAR shapes, *RNA polymerases, *POPULATION genetics, *VASCULAR plants, *RNA editing

Abstract

Background: The mitogenomes of vascular plants are one of the most structurally diverse molecules. In the present study we characterize mitogenomes of a rare and endangered species Pulsatilla patens. We investigated the gene content and its RNA editing potential, repeats distribution and plastid derived sequences. Results: The mitogenome structure of early divergent eudicot, endangered Pulsatilla patens does not support the master chromosome hypothesis, revealing the presence of three linear chromosomes of total length 986 613 bp. The molecules are shaped by the presence of extremely long, exceeding 87 kbp repeats and multiple chloroplast-derived regions including nearly complete inverted repeat. Since the plastid IR content of Ranunculales is very characteristic, the incorporation into mitogenome could be explained rather by intracellular transfer than mitochondrial HGT. The mitogenome contains almost a complete set of genes known from other vascular plants with exception of rps10 and sdh3, the latter being present but pseudogenized. Analysis of long ORFs enabled the identification of genes which are rarely present in plant mitogenomes, including RNA and DNA polymerases, albeit their presence even at species level is variable. Mitochondrial transcripts of P. patens were edited with a high frequency, which exceeded the level known in other analyzed angiosperms, despite the strict qualification criteria of counting the editing events and taking into analysis generally less frequently edited leaf transcriptome. The total number of edited sites was 902 and nad4 was identified as the most heavily edited gene with 65 C to U changes. Non-canonical, reverse U to C editing was not detected. Comparative analysis of mitochondrial genes of three Pulsatilla species revealed a level of variation comparable to chloroplast CDS dataset and much higher infrageneric differentiation than in other known angiosperm genera. The variation found in CDS of mitochondrial genes is comparable to values found among Pulsatilla plastomes. Despite the complicated mitogenome structure, 14 single copy regions of 329 kbp, not splitted by repeats or plastid-derived sequences (MTPT), revealed the potential for phylogenetic, phylogeographic and population genetics studies by revealing intra- and interspecific collinearity. Conclusions: This study provides valuable new information about mitochondrial genome of early divergent eudicots, Pulsatilla patens, revealed multi-chromosomal structure and shed new light on mitogenomics of early eudicots. [ABSTRACT FROM AUTHOR]

Published

2022

257. Geochemical alkalinity and acidity as preferential site-specific for three lineages liverwort of Aneura pinguis cryptic species A.

Author

Bączkiewicz, Alina, Diatta, Jean, Drapikowska, Maria, Rodkiewicz, Patrycja, Sawicki, Jakub, Szczecińska, Monika, and Buczkowska, Katarzyna

Subjects

*ALKALINITY, *ACIDITY, *HYDROGEN-ion concentration, *MINERALS

Abstract

The study focused on the verification of the preferential site-specific concept hypothesizing, that mineral elements could be playing an initiating role in the biological speciation within Aneura pinguis cryptic species. A. pinguis species A and soil materials were collected from three ecological sites of Poland. They underwent genetic (Aneura pinguis) and chemical analyses (soil materials) for pH, total and water soluble (active) forms of Ca, Mg, K, Na fractions. Data revealed trends in the site preference of three genetic lineages (A1, A2 and A3) of A. pinguis cryptic species A. Lineage adaptability index Ca/(Mg + K + Na) reflecting the dynamic character of site pH implied, that lineages A1 and A2 were both calciphilous. The A3 lineages were intrinsically acidophilous and this characteristics was also observed at some A1 lineages. Site concentrations of Ca and in some cases Mg too were crucial in shaping pH, but this process could have been controlled by each mineral element, individually. Calciphilous or acidophilous A. pinguis species may be "remotely" attracted by high or low Ca (or Mg) concentrations, for alkalinity or acidity emergence, respectively. Mineral richness at investigated ecological sites has possibly initiated opportunistic and specific site colonisation by A. pinguis lineages. [ABSTRACT FROM AUTHOR]

Published

2021

258. Molecular delimitation of European leafy liverworts of the genus Calypogeia based on plastid super-barcodes.

Author

Ślipiko, Monika, Myszczyński, Kamil, Buczkowska, Katarzyna, Bączkiewicz, Alina, Szczecińska, Monika, and Sawicki, Jakub

Subjects

*GENETIC barcoding, *LIVERWORTS, *PLANT DNA, *RIBOSOMAL DNA, *TWO-dimensional bar codes, *GENETIC speciation

Abstract

Background: Molecular research revealed that some of the European Calypogeia species described on the basis of morphological criteria are genetically heterogeneous and, in fact, are species complexes. DNA barcoding is already commonly used for correct identification of difficult to determine species, to disclose cryptic species, or detecting new taxa. Among liverworts, some DNA fragments, recommend as universal plant DNA barcodes, cause problems in amplification. Super-barcoding based on genomic data, makes new opportunities in a species identification. Results: On the basis of 22 individuals, representing 10 Calypogeia species, plastid genome was tested as a super-barcode. It is not effective in 100%, nonetheless its success of species discrimination (95.45%) is still conspicuous. It is not excluded that the above outcome may have been upset by cryptic speciation in C. suecica, as our results indicate. Having the sequences of entire plastomes of European Calypogeia species, we also discovered that the ndhB and ndhH genes and the trnT-trnL spacer identify species in 100%. Conclusions: This study shows that even if a super-barcoding is not effective in 100%, this method does not close the door to a traditional single- or multi-locus barcoding. Moreover, it avoids many complication resulting from the need to amplify selected DNA fragments. It seems that a good solution for species discrimination is a development of so-called "specific barcodes" for a given taxonomic group, based on plastome data. [ABSTRACT FROM AUTHOR]

Published

2020

259. Chlorine disinfection modifies the microbiome, resistome and mobilome of hospital wastewater – A nanopore long-read metagenomic approach.

Author

Rolbiecki, Damian, Paukszto, Łukasz, Krawczyk, Katarzyna, Korzeniewska, Ewa, Sawicki, Jakub, and Harnisz, Monika

Subjects

*DRUG resistance in bacteria, *METAGENOMICS, *CHLORINE, *SEWAGE, *DRUG resistance, *BIOMES

Abstract

The aim of the present study was to analyze changes in the microbiome, resistome, and mobilome of hospital wastewater (HWW) induced by disinfection with chlorine compounds. Changes in bacterial communities and specific antibiotic resistance genes (ARGs) in HWW were determined with the use of a nanopore long-read metagenomic approach. The main hosts of ARGs in HWW were identified, and the mobility of resistance mechanisms was analyzed. Special attention was paid to the prevalence of critical-priority pathogens in the HWW microbiome, which pose the greatest threat to human health. The results of this study indicate that chlorine disinfection of HWW can induce significant changes in the structure of the total bacterial population and antibiotic resistant bacteria (ARB) communities, and that it can modify the resistome and mobilome of HWW. Disinfection favored the selection of ARGs, decreased their prevalence in HWW, while increasing their diversity. The mobility of the HWW resistome increased after disinfection. Disinfection led to the emergence of new drug resistance mechanisms in previously sensitive bacterial taxa. In conclusion, this study demonstrated that HWW disinfected with low (sublethal) concentrations of free chlorine significantly contributes to the mobility and transfer of drug resistance mechanisms (including critical mechanisms) between bacteria (including pathogens). [Display omitted] • Nanopore technology was used to analyze metagenome of untreated and chlorinated HWW. • Disinfection decreased the prevalence of ARGs, while increasing their diversity. • Disinfection led to the emergence of new resistance mechanisms in bacterial taxa. • Increased mobility of HWW resistome was observed after disinfection. • Resistome risk in HWW increased after disinfection process. [ABSTRACT FROM AUTHOR]

Published

2023

260. Europe - our history

Author

Brückmann, Asmut, Gutowski, Krzysztof, Huneke, Friedrich, Kmak-Pamirska, Aleksandra, Kohl, Herbert, Peters, Jelko, Scholz, Birgit, Schröder, Helge, Szelągowska, Grażyna, Szlanta, Piotr, Trees, Pascal, Loew, Peter Oliver, Heiße, Ulrich, Wiatr, Marcin, Pick, Dominik, Stekel, Sabine, Grzybkowska, Agnieszka, Palmes, Lisa, Czerwińska, Patrycja, Krzoska, Markus, Volk, Andreas, Ordon-Krzak, Monika, Kopczyńska, Krystyna, Kolasiński, Artur, Żwak, Piotr, Marzec-Gacka, Krzysztofa, Drzazgowska, Ewa, Chmiel, Maria, Górska-Łazarz, Katarzyna, Janssen-Stenko, Elżbieta, Paczyńska, Olga, Voelkel, Benjamin, Hartmann, Bernhard, Hofmann, Andreas R., Szczepański, Arkadiusz, Owsiński, Piotr, Orzol, Agata, Sawicki, Jakub, Dadej, Iwona, Zawadzka, Agnieszka, and Jez, Katarzyna

Subjects

Europe, Polen, Germany, Geschichte, Niemcy, history, Poland, historia, Europa, Deutschland, Polska

Abstract

„Europa – Unsere Geschichte“ ist ein gemeinsames vierbändiges Geschichtslehrwerk für Gesamtschulen und Gymnasien der Sekundarstufe I in den 16 deutschen Bundesländern und in Polen. Es entstand in Zusammenarbeit mit dem polnischen Partner-Verlag WSiP und dem dem Georg-Eckert-Institut – Leibniz-Institut für internationale Schulbuchforschung Braunschweig sowie dem Zentrum für Historische Forschung Berlin der Polnischen Akademie der Wissenschaften. Das deutsch-polnische Projekt wurde durch die Kultusministerkonferenz, das Auswärtige Amt sowie die Stiftung für deutsch-polnische Zusammenarbeit gefördert. (https://www.eduversum.de/content/europa-unsere-geschichte)

Published

2020

261. New national and regional bryophyte records, 41

Author

Antun Alegro, Erzsébet Szurdoki, Vedran Šegota, D. A. Callaghan, D. Rios, Juan Larraín, Michele Aleffi, Benito C. Tan, Francisco Lara, Kevin K. Newsham, Turgay Seyli, B. Malcolm, Ricardo Garilleti, Alexey D. Potemkin, Naoki Nishimura, J. Váňa, Arkadiusz Nowak, Tülay Ezer, José Gabriel Segarra-Moragues, Felisa Puche, Yuriy S. Mamontov, María Teresa Gallego, Marta Alonso, András Bidló, Paweł Pawlikowski, Thomas Kiebacher, Beáta Papp, Recep Kara, Elena V. Sofronova, A. B. Biasuso, Ashish Kumar Asthana, Jakub Sawicki, Terry A. Hedderson, Juan Guerra, B.-Y. Sun, Marcin Nobis, Ryszard Ochyra, Leonard T. Ellis, Roberta Tacchi, Vítězslav Plášek, D. Gwynne-Evans, Isabel Draper, Lukáš Číhal, Beatriz Vigalondo, David G. Long, P. Szűcs, Michael Lüth, Alfons Schäfer-Verwimp, Manuel Jesús Gil-López, V. Sahu, S. Ştefănuţ, Y.-J. Yoon, European Commission, Ministry of Culture (Czech Republic), Technical University of Ostrava, National Science Centre (Poland), Polish Academy of Sciences, Romanian Academy, British Antarctic Survey, Natural Environment Research Council (UK), The Scientific and Technological Research Council of Turkey, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia e Innovación (España), Russian Foundation for Basic Research, Ministry of Environment (South Korea), Garilleti, Ricardo -- 0000-0002-5977-2908, Vana, Jiri -- 0000-0001-5532-3286, Potemkin, Alexey D -- 0000-0003-4420-1704, Lara, Francisco -- 0000-0002-1665-5277, Stefanut, Sorin -- 0000-0002-1061-8942, Draper, Isabel -- 0000-0003-3102-9386, Gallego, Maria -- 0000-0002-6180-1624, Sawicki, Jakub -- 0000-0002-4759-8113, Segarra-Moragues, Jose Gabriel -- 0000-0003-0061-8647, KARA, Recep -- 0000-0001-6594-7172, Gil-Lopez, Manuel-Jesus -- 0000-0002-4567-4725, Nobis, Marcin -- 0000-0002-1594-2418, Nowak, Arkadiusz -- 0000-0001-8638-0208, Ochyra, Ryszard -- 0000-0002-2541-0722, Vigalondo, Beatriz -- 0000-0003-1425-4661, [Ellis, L. T.] Nat Hist Museum, London SW7 5BD, England -- [Aleffi, M. -- Tacchi, R.] Univ Camerino, I-62032 Camerino, MC, Italy -- [Alegro, A.] Univ Zagreb, Dept Bot & Bot Garden, Zagreb 41000, Croatia -- [Alonso, M.] Univ Murcia, Dept Biol Vegetal Bot, E-30001 Murcia, Spain -- [Asthana, A. K. -- Sahu, V.] CSIR Natl Bot Res Inst, Lucknow 226001, Uttar Pradesh, India -- [Biasuso, A. B.] Fdn Miguel Lillo UNT, San Miguel De Tucuman, Argentina -- [Ezer, T. -- Kara, R. -- Seyli, T.] Nigde Univ, Dept Biol, Nigde, Turkey -- [Garilleti, R.] Univ Valencia, Dept Bot, Burjassot, Spain -- [Gil-Lopez, M. J.] Univ Cadiz, Dept Biol, Cadiz, Spain -- [Gwynne-Evans, D. -- Hedderson, T. A.] Univ Cape Town, ZA-7700 Rondebosch, South Africa -- [Kiebacher, T.] RU Biodiversitat & Nat Schutzbiol Lebensraumdynam, Birmensdorf, Germany -- [Larrain, J.] Field Museum, Chicago, IL USA -- [Long, D.] Royal Bot Garden, Edinburgh, Midlothian, Scotland -- [Malcolm, B.] Microoptics Ltd, Nelson, New Zealand -- [Mamontov, Y. S.] Russian Acad Sci, Kola Sci Ctr, Polar Alpine Bot Garden, Moscow 117901, Murmansk Provin, Russia -- [Newsham, K. K.] NERC British Antarctic Survey, Ecosyst Programme, Cambridge, England -- [Nobis, M.] Jagiellonian Univ, Krakow, Poland -- [Nowak, A.] Univ Opole, Opole, Poland -- [Ochyra, R.] Polish Acad Sci, Inst Bot, Krakow, Poland -- [Pawlikowski, P.] Univ Warsaw, Biol & Chem Res Ctr, PL-00325 Warsaw, Poland -- [Plasek, V. -- Cihal, L.] Univ Ostrava, Ostrava, Czech Republic -- [Potemkin, A. D.] Russian Acad Sci, Komarov Bot Inst, St Petersburg 196140, Russia -- [Puche, F.] Univ Valencia, Dept Bot, E-46003 Valencia, Spain -- [Rios, D. -- Gallego, M. T. -- Guerra, J.] Univ Murcia, E-30001 Murcia, Spain -- [Sawicki, J.] Univ Warmia & Mazury, Olsztyn, Poland -- [Segarra-Moragues, J. G.] Ctr Invest Desertificac CIDE CSIC UV GV, Valencia, Spain -- [Segota, V.] Inst Res & Dev Sustainable Ecosyst, Velika Gorica, Croatia -- [Sofronova, E. V.] Russian Acad Sci, Siberian Branch, Inst Biol Problems Cryolithozone, Yakutsk, Russia -- [Stefanut, S.] Romanian Acad, Inst Biol Bucharest, Bucharest, Romania -- [Szucs, P. -- Bidlo, A.] Univ West Hungary, Dept Forest Site Diag & Classificat, Sopron, Hungary -- [Papp, B. -- Szurdoki, E.] Hungarian Nat Hist Museum, Dept Bot, Budapest, Hungary -- [Tan, B. C.] Univ Calif Berkeley, Univ & Jepson Herbaria, Berkeley, CA 94720 USA -- [Vana, J.] Charles Univ Prague, Dept Bot, CR-11636 Prague 1, Czech Republic -- [Vigalondo, B. -- Draper, I. -- Lara, F.] Univ Autonoma Madrid, Dept Biol Bot, E-28049 Madrid, Spain -- [Yoon, Y. -J. -- Sun, B. -Y.] Chonbuk Natl Univ, Jeonju, South Korea -- [Nishimura, N.] Okayama Univ Sci, Okayama, Japan, and 0-Belirlenecek

Subjects

Peat, National park, Forestry, Plant Science, Sphagnum platyphyllum, 15. Life on land, Sphagnum teres, 0-Belirlenecek, Dicranum spurium, Geography, Anastrophyllum hellerianum, Bryophyte, Ecology, Evolution, Behavior and Systematics

Abstract

WOS: 000348594500007, …, Institute of Environmental Technologies - 'Research and Development for Innovations' Operational Programme [CZ.1.05/2.1.00/03.0100]; Structural Funds of the European Union; state budget of the Czech Republic; National Feasibility Programme I of the Czech Republic [LO1208]; SYNTHESYS project [FR-TAF-3686]; University of Ostrava [SGS27/PRF/2014]; Polish National Centre of Science [N N 303 469 338]; Institute of Botany of the Polish Academy of Sciences; Institute of Biology Bucharest of the Romanian Academy [RO1567-IBB03/2014]; Natural Environment Research Council; Scientific and Technological Research Council of Turkey (TUBITAK) [111T359]; Spanish Ministerio de Economia y Competitividad (MINECO); Flora Briofitica Iberica from MINECO [CGL2009-09530]; MINECO; Spanish 'Ministerio de Ciencia e Innovacion' [CGL2010-15959, CGL2009-07323]; FEDER; 'Ramon y Cajal' Subprogram (MICINN-European Social Fund); 'Ministerio de Economia y Competitividad' [CGL2012-30721]; MOVECLIM project (ANR under the Net-Biome call); RSF [14-14-00903, 14-24-00037]; RFBR [13-04-01427, 12-04-01476]; 'The Survey of new and unrecorded taxa in vascular plants (NIBR)' - Ministry of Environment of the Korean Government [2013-02-001]; Natural Environment Research Council [bas0100025], The contribution by V. Plasek is part of a research project of the Institute of Environmental Technologies, reg. no. CZ.1.05/2.1.00/03.0100, supported by the 'Research and Development for Innovations' Operational Programme, and financed by the Structural Funds of the European Union and by the state budget of the Czech Republic, Project LO1208 of the National Feasibility Programme I of the Czech Republic, and SYNTHESYS project FR-TAF-3686. The contribution by L. Cihal is a part of grant project SGS27/PRF/2014 financed by University of Ostrava. The contributions by R. Ochyra have been financially supported by the Polish National Centre of Science through grant no. N N 303 469 338 and, in part, by the statutory fund of the Institute of Botany of the Polish Academy of Sciences. He also thanks Helen J. Peat, Cambridge, for kindly allowing him to study the herbarium collections from AAS. S. Stefanut, acknowledges the support by project no. RO1567-IBB03/2014 through the Institute of Biology Bucharest of the Romanian Academy. J. Vana and K. K. Newsham acknowledge the logistics support that was provided by the British Antarctic Survey's Operations Group, officers and crew of the RRS Ernest Shackleton and staff at King Edward Point research station, and thank Helen J. Peat for the loan of AAS herbarium specimens. Funding was provided by the Natural Environment Research Council. All are gratefully acknowledged.; Peter Szucs and Andras Bidlo would like to thank Peter Erzberger for examining the specimen of Campylopus introflexus, and Gyorgy Pulger for his assistance in fieldwork. Tulay Ezer and Recep Kara are indebted to the Scientific and Technological Research Council of Turkey (TUBITAK) for financial support (Project Code: 111T359).; M. J. Gil-Lopez, F. Puche, and J. G. Segarra-Moragues thank H. Kharbouch (SahaTours), F. Pacheco, J. P. Peralta, and F. Rivera for their help in field work. M. J. Gil-Lopez benefited from a FPU PhD grant from the Spanish Ministerio de Economia y Competitividad (MINECO). F. Puche acknowledges funds from project CGL2009-09530, Flora Briofitica Iberica from MINECO. J. G. Segarra-Moragues benefited from a 'Ramon y Cajal' post-doctoral contract from MINECO. Juan Larrain and Amalia B. Biasuso thank Reinaldo Vargas and Gotz Palfner for their company in the field. Marta Alonso and David Long acknowledge the financial support of the Spanish 'Ministerio de Ciencia e Innovacion' (projects CGL2010-15959 co-financed by FEDER) and 'Ramon y Cajal' Subprogram (MICINN-European Social Fund). We also thank Maria J. Cano and Juan A. Jimenez for their contribution to this work.; D. Rios, M. T. Gallego, and J. Guerra are grateful to Len Ellis for organising the loan of specimens and assistance during the visit of the first author to the BM herbarium. This research was carried out with financial support from the Spanish 'Ministerio de Ciencia e Innovacion' and 'Ministerio de Economia y Competitividad' [Projects CGL2009-07323 and CGL2012-30721, respectively].; Terry Hedderson is grateful to Jean-Yves Meyer, Ravahere Tuputuari, Claudine Ah-Peng, and Oliver Flores for field assistance and companionship and to the MOVECLIM project (ANR under the Net-Biome call) for funding the fieldwork on Tahiti. The study by E.V. Sofronova was supported by RSF (project no. 14-14-00903), that by Y.S. Mamontov was partly supported by RFBR (project no. 13-04-01427 and 12-04-01476), and that by A. D. Potemkin was supported by RSF (project no. 14-24-00037). The research by Yoon Young-Jun, Benito C. Tan and Byung-Yun Sun was supported by grants from 'The Survey of new and unrecorded taxa in vascular plants (NIBR No. 2013-02-001)' funded by the Ministry of Environment of the Korean Government.

Published

2014

262. New national and regional bryophyte records, 33

Author

Halina Bednarek-Ochyra, P. Szucs, Francisco Lara, J. Váňa, Grzegorz J. Wolski, V. M. Virchenko, L. E. Kurbatova, András Bidló, Cecília Sérgio, Mesut Kirmaci, M V Dulin, Isabel Draper, Beáta Papp, Tülay Ezer, Recep Kara, Emre Agcagil, Marko Sabovljevic, Manuela Sim-Sim, César Garcia, Leonard T. Ellis, Jakub Sawicki, Tamás Pócs, Ryszard Ochyra, Jorge R. Flores, Marc Lebouvier, Beatriz Vigalondo, Guillermo M. Suárez, Anabela Martins, B Cykowska, Ricardo Garilleti, Erzsébet Szurdoki, D. A. Philippov, Vítězslav Plášek, Vana, Jiri -- 0000-0001-5532-3286, Wolski, Grzegorz -- 0000-0003-1480-8003, Garcia, Cesar -- 0000-0001-9729-0494, Martins, Anabela -- 0000-0002-6644-4339, Philippov, Dmitriy -- 0000-0003-3075-1959, Draper, Isabel -- 0000-0003-3102-9386, Sawicki, Jakub -- 0000-0002-4759-8113, Wolski, Grzegorz J. -- 0000-0003-1480-8003, Lara, Francisco -- 0000-0002-1665-5277, KARA, Recep -- 0000-0001-6594-7172, Sim-Sim, Manuela -- 0000-0003-3467-6538, Cykowska-Marzencka, Beata -- 0000-0002-5468-4909, Sergio, Cecilia -- 0000-0001-5145-5329, Garilleti, Ricardo -- 0000-0002-5977-2908, Ochyra, Ryszard -- 0000-0002-2541-0722, Sabovljevic, Marko -- 0000-0001-5809-0406, Bednarek-Ochyra, Halina -- 0000-0002-6994-8313, Vigalondo, Beatriz -- 0000-0003-1425-4661, [Ellis, L. T.] Nat Hist Museum, Dept Life Sci, London SW7 5BD, England -- [Bednarek-Ochyra, H. -- Ochyra, R. -- Cykowska, B.] Polish Acad Sci, Inst Bot, Lab Bryol, Krakow, Poland -- [Dulin, M. V.] Komi Sci Ctr UB RAS, Inst Biol, Komi, Russia -- [Ezer, T. -- Kara, R.] Nigde Univ, Fac Sci, Dept Biol, Nigde, Turkey -- [Flores, J. R. -- Suarez, G. M.] Fac Ciencias Nat, San Miguel De Tucuman, Argentina -- [Flores, J. R. -- Suarez, G. M.] Inst Miguel Lillo, San Miguel De Tucuman, Argentina -- [Garcia, C. -- Martins, A. -- Sergio, C.] Univ Nova Lisboa, Museu Nacl Hist Nat & Ciencia, P-1200 Lisbon, Portugal -- [Garilleti, R.] Univ Valencia, Fac Farm, Dept Bot, Burjassot, Spain -- [Kirmaci, M. -- Agcagil, E.] Adnan Menderes Univ, Fen Edebiyat Fak, Biyol Bolumu, Kepez Aydin, Turkey -- [Kurbatova, L. E.] Russian Acad Sci, Komarov Bot Inst, Moscow, Russia -- [Lebouvier, M.] Univ Rennes 1, CNRS, UMR 6553, F-35014 Rennes, France -- [Papp, B. -- Szurdoki, E.] Hungarian Nat Hist Museum, Dept Bot, Budapest, Hungary -- [Philippov, D. A.] ID Papanin Inst Biol Inland Water RAS, Nekouz, Russia -- [Plasek, V.] Univ Ostrava, Dept Biol & Ecol, Ostrava, Czech Republic -- [Pocs, T.] Eszterhazy Karoly Coll, Dept Bot, Eger, Hungary -- [Sabovljevic, M.] Univ Belgrade, Fac Biol, Inst Bot & Bot Garden, Belgrade 11001, Serbia -- [Sawicki, J.] Univ Warmia & Mazury, Dept Bot & Nat Protect, Olsztyn, Poland -- [Sim-Sim, M.] Museo Nacl Hist Nat, Lisbon, Portugal -- [Szuecs, P. -- Bidlo, A.] Univ W Hungary, Dept Forest Site Diag & Classificat, Sopron, Hungary -- [Vana, J.] Charles Univ Prague, Dept Bot, Prague, Czech Republic -- [Vigalondo, B. -- Lara, F. -- Draper, I.] Univ Autonoma Madrid, Dept Biol Bot, E-28049 Madrid, Spain -- [Virchenko, V. M.] Natl Acad Sci Ukraine, Inst Bot, Dept Lichenol & Bryol, Kiev, Ukraine -- [Wolski, G. J.] Univ Lodz, Deptartment Geobot & Plant Ecol, PL-90131 Lodz, Poland, The Natural History Museum [London] (NHM), Polish Academy of Science, Inst Bot, Polska Akademia Nauk = Polish Academy of Sciences (PAN), Institute of Biology Komi Science Centre UB RAS, Nigde University, Biology Dept, Nigde University, Fdn Miguel Lillo, Museu Nacl Hist Nat, Université de Lisbonne, Universidad de Valencia, Universitat de València (UV), Adnan Menderes Üniversitesi, Komarov Botanical Institute of Russian Academy of Science, Russian Academy of Sciences [Moscow] (RAS), Ecosystèmes, biodiversité, évolution [Rennes] (ECOBIO), Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Institut Ecologie et Environnement (INEE), Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)-Observatoire des Sciences de l'Univers de Rennes (OSUR)-Centre National de la Recherche Scientifique (CNRS), Department of Botany, Hungarian Natural History Museum (Magyar Természettudományi Múzeum), ID Papanin Inst Biol Inland Water RAS, Dept Biol & Ecol, Techn Univ Ostrava, Technical University of Ostrava [Ostrava] (VSB), Eszterhazy Karoly College, Université de Belgrade, Botanical Garden, University of Belgrade [Belgrade], University of Warmia and Mazury [Olsztyn], Faculdade de Ciências [Lisboa], Universidade de Lisboa (ULISBOA), Departement of Forest Site Diagnosis and Classification, University of West Hungary [Sopron], Charles University, Dept Bot, Charles University [Prague] (CU), Universidad Autonoma de Madrid (UAM), Department of Lichenology and Bryology, National Academy of Sciences of Ukraine (NASU), Łódź University of Technology, Université de Rennes (UR)-Institut Ecologie et Environnement (INEE), Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)-Observatoire des Sciences de l'Univers de Rennes (OSUR), Université de Rennes (UR)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Rennes 2 (UR2)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Rennes 2 (UR2)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Centre National de la Recherche Scientifique (CNRS), Universidade de Lisboa = University of Lisbon (ULISBOA), Universidad Autónoma de Madrid (UAM), and 0-Belirlenecek

Subjects

bryophyte, 0106 biological sciences, biology, Forestry, Plant Science, 15. Life on land, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 0-Belirlenecek, Metzgeriaceae, Geography, Botany, Bryophyte, Marchantiophyta, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Metzgeria, ComputingMilieux_MISCELLANEOUS, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany

Abstract

WOS: 000313348700006, …, Russian Foundation for Basic Research [12-04-01476, 11-04-01247-a]; Program of Presidium of the Russian Academy of Sciences [12-Pi-4-1018]; Vologda Department of the Russian Geographic Society; TUBITAK; Myndel Botanica Fundation; CONICET (Consejo Nacional de Investigaciones Cientificas y Tecnicas) [PIP 2012-2014]; Polish Ministry of Science and Higher Education [NN 303 796 940, N N 303 469 338]; Development for Innovations' Operational Programme [CZ.1.05/2.1.00/03.0100]; Structural Funds of the European Union; state budget of the Czech Republic; Spanish Ministry of Science and Innovation [CGL2010-15693, GL2011-28857]; Scientific and Technological Research Council of Turkey TUBITAK [111T359]; [TAMOP-4.2.2.B-10/1-2010-0018], The research of M. V. Dulin had the financial support of the Russian Foundation for Basic Research (projects no. 12-04-01476) and the Program of Presidium of the Russian Academy of Sciences (no. 12-Pi-4-1018). The research of L. E. Kurbatova was financially supported by grants from the Russian Foundation for Basic Research (project no. 11-04-01247-a). D. A. Philippov is grateful to the Vologda Department of the Russian Geographic Society for support. M. Kirmaci and E. Agcagil are very grateful to TUBITAK for providing a student scholarship to the second author and to Beata Papp (Hungarian Natural History Museum) for confirming the species.; J. R. Flores and G. M. Suarez had Financial support from the Myndel Botanica Fundation and PIP 2012-2014 CONICET (Consejo Nacional de Investigaciones Cientificas y Tecnicas). The contributions by H. Bednarek-Ochyra and R. Ochyra have been financially supported by the Polish Ministry of Science and Higher Education through grants no. NN 303 796 940 for H. Bednarek-Ochyra and no. N N 303 469 338 for R. Ochyra. They also thank the Curators at BM, PC and S for kindly allowing them to examine the herbarium material used in their study. The field work of R. Ochyra and Marc Leboubier on Iles Crozet and Iles Kerguelen was organised within the programme 136 ECOBIO of the French Polar Institute (IPEV). The investigations of P. Szucs and A. Bidlo have been carried out with the sponsorship of TAMOP-4.2.2.B-10/1-2010-0018. The contribution by V. Plasek, G. J. Wolski and J. Sawicki is part of a research project of the Institute of Environmental Technologies, reg. no. CZ.1.05/2.1.00/03.0100, supported by the 'Research and Development for Innovations' Operational Programme financed by the Structural Funds of the European Union and by the state budget of the Czech Republic.; B. Vigalondo, F. Lara, I. Draper & R. Garilleti are grateful to Belen Albertos, Rafael Medina and Belen Estebanez for their valuable field work and to the Spanish Ministry of Science and Innovation for financial support (projects CGL2010-15693 and CGL2011-28857). T. Ezer and R. Kara are indebted to the Scientific and Technological Research Council of Turkey TUBITAK (project no. 111T359).

Published

2012

263. Sequencing of organellar genomes of Gymnomitrion concinnatum (Jungermanniales) revealed the first exception in the structure and gene order of evolutionary stable liverworts mitogenomes.

Author

Myszczyński, Kamil, Górski, Piotr, Ślipiko, Monika, and Sawicki, Jakub

Subjects

*JUNGERMANNIALES, *CHLOROPLASTS, *GENOMICS, *BRYOPHYTES, *LIVERWORTS

Abstract

Background: Comparative analyses of chloroplast and mitochondrial genomes have shown that organelle genomes in bryophytes evolve slowly. However, in contrast to seed plants, the organellar genomes are yet poorly explored in bryophytes, especially among liverworts. Discovering another organellar genomes of liverwort species by sequencing provides new conclusions on evolution of bryophytes. Results: In this work, the organellar genomes of Gymnomitrion concinnatum liverwort were sequenced, assembled and annotated for the first time. The chloroplast genome displays, typical for most plants, quadripartite structure containing large single copy region (81,701 bp), two inverted repeat regions (8704 bp each) and small single copy region (20,179 bp). The gene order and content of chloroplast are very similar to other liverworts with minor differences observed. A total number of 739 and 222 RNA editing sites were predicted in chloroplast and mitochondrial genes of G. concinnatum. The mitochondrial genome gene content is also in accordance with liverworts except few alterations such as: intron loss in cox1 and atp1 genes. Nonetheless the analysis revealed that G. concinnatum mitogenome structure and gene order are rearranged in comparison with other mitogenomes of liverworts. The causes underlying such mitogenomic rearrangement were investigated and the probable model of recombination was proposed. Conclusions: This study provide the overview of mitochondrial and chloroplast genome structure and gene order diversity of Gymnomitrion concinnatum against the background of known organellar genomes of liverworts. The obtained results cast doubt on the idea that mitogenome structure of early land plants is highly conserved as previous studies suggested. In fact is the very first case of recombination within, evolutionary stable, mitogenomes of liverworts. [ABSTRACT FROM AUTHOR]

Published

2018

264. SARS-CoV-2 disrupts host gene networks: Unveiling key hub genes as potential therapeutic targets for COVID-19 management.

Author

Majewska M, Maździarz M, Krawczyk K, Paukszto Ł, Makowczenko KG, Lepiarczyk E, Lipka A, Wiszpolska M, Górska A, Moczulska B, Kocbach P, Sawicki J, and Gromadziński L

Abstract

Purpose: Although the end of COVID-19 as a public health emergency was declared on May 2023, still new cases of the infection are reported and the risk remains of new variants emerging that may cause new surges in cases and deaths. While clinical symptoms have been rapidly defined worldwide, the basic body responses and pathogenetic mechanisms acting in patients with SARS-CoV-2 infection over time until recovery or death require further investigation. The understanding of the molecular mechanisms underlying the development and course of the disease is essential in designing effective preventive and therapeutic approaches, and ultimately reducing mortality and disease spreading., Methods: The current investigation aimed to identify the key genes engaged in SARS-CoV-2 infection. To achieve this goal high-throughput RNA sequencing of peripheral blood samples collected from healthy donors and COVID-19 patients was performed. The resulting sequence data were processed using a wide range of bioinformatics tools to obtain detailed modifications within five transcriptomic phenomena: expression of genes and long non-coding RNAs, alternative splicing, allel-specific expression and circRNA production. The in silico procedure was completed with a functional analysis of the identified alterations., Results: The transcriptomic analysis revealed that SARS-CoV-2 has a significant impact on multiple genes encoding ribosomal proteins (RPs). Results show that these genes differ not only in terms of expression but also manifest biases in alternative splicing and ASE ratios. The integrated functional analysis exposed that RPs mostly affected pathways and processes related to infection-COVID-19 and NOD-like receptor signaling pathway, SARS-CoV-2-host interactions and response to the virus. Furthermore, our results linked the multiple intronic ASE variants and exonic circular RNA differentiations with SARS-CoV-2 infection, suggesting that these molecular events play a crucial role in mRNA maturation and transcription during COVID-19 disease., Conclusions: By elucidating the genetic mechanisms induced by the virus, the current research provides significant information that can be employed to create new targeted therapeutic strategies for future research and treatment related to COVID-19. Moreover, the findings highlight potentially promising therapeutic biomarkers for early risk assessment of critically ill patients., Competing Interests: Declaration of competing interest The authors declare that they have no competing interests regarding the publication of this paper. All authors have seen and approved the final version of the manuscript., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

265.  Orthotrichumcamanchacanum , a remarkable new moss species from Chile (Bryopsida, Orthotrichaceae).

Author

Plášek V, Sawicki J, Osorio F, Szczecińska M, and Režnarová H

Abstract

Orthotrichumcamanchacanum is presented as a newly described species from Chile. The species is primarily distinguished by its emergent capsule with cryptoporous stomata, a double peristome, linear-lanceolate stem leaves with a long hyaline aristae in apex, conspicuously differentiated perichaetial leaves, and a densely hairy vaginula. The species was discovered in the mountain massif of the Andes in the Coquimbo region, notable for its unique climatic conditions. Molecular data and a brief discussion comparing the newly described species with the most closely related taxa are also provided., Competing Interests: The authors have declared that no competing interests exist., (Vítězslav Plášek, Jakub Sawicki, Felipe Osorio, Monika Szczecińska, Hana Režnarová.)

Published

2024

266. Epitranscriptome insights into Riccia fluitans L. (Marchantiophyta) aquatic transition using nanopore direct RNA sequencing.

Author

Maździarz M, Krawczyk K, Kurzyński M, Paukszto Ł, Szablińska-Piernik J, Szczecińska M, Sulima P, and Sawicki J

Subjects

Nanopore Sequencing, Marchantia genetics, Gene Expression Regulation, Plant, RNA, Plant genetics, Adaptation, Physiological genetics, Epigenesis, Genetic, Transcriptome, Sequence Analysis, RNA

Abstract

Background: Riccia fluitans, an amphibious liverwort, exhibits a fascinating adaptation mechanism to transition between terrestrial and aquatic environments. Utilizing nanopore direct RNA sequencing, we try to capture the complex epitranscriptomic changes undergone in response to land-water transition., Results: A significant finding is the identification of 45 differentially expressed genes (DEGs), with a split of 33 downregulated in terrestrial forms and 12 upregulated in aquatic forms, indicating a robust transcriptional response to environmental changes. Analysis of N6-methyladenosine (m6A) modifications revealed 173 m6A sites in aquatic and only 27 sites in the terrestrial forms, indicating a significant increase in methylation in the former, which could facilitate rapid adaptation to changing environments. The aquatic form showed a global elongation bias in poly(A) tails, which is associated with increased mRNA stability and efficient translation, enhancing the plant's resilience to water stress. Significant differences in polyadenylation signals were observed between the two forms, with nine transcripts showing notable changes in tail length, suggesting an adaptive mechanism to modulate mRNA stability and translational efficiency in response to environmental conditions. This differential methylation and polyadenylation underline a sophisticated layer of post-transcriptional regulation, enabling Riccia fluitans to fine-tune gene expression in response to its living conditions., Conclusions: These insights into transcriptome dynamics offer a deeper understanding of plant adaptation strategies at the molecular level, contributing to the broader knowledge of plant biology and evolution. These findings underscore the sophisticated post-transcriptional regulatory strategies Riccia fluitans employs to navigate the challenges of aquatic versus terrestrial living, highlighting the plant's dynamic adaptation to environmental stresses and its utility as a model for studying adaptation mechanisms in amphibious plants., (© 2024. The Author(s).)

Published

2024

267. Decoding Evolution of Rubioideae: Plastomes Reveal Sweet Secrets of Codon Usage, Diagnostides, and Superbarcoding.

Author

Ciborowski K, Szczecińska M, Maździarz M, Sawicki J, and Paukszto Ł

Subjects

Codon genetics, DNA Barcoding, Taxonomic methods, Codon Usage, Phylogeny, Genome, Chloroplast genetics, Evolution, Molecular, Rubiaceae genetics

Abstract

Galium genus belongs to the Rubiaceae family, which consists of approximately 14,000 species. In comparison to its well-known relatives, the plastomes of the Galium genus have not been explored so far. The plastomes of this genus have a typical, quadripartite structure, but differ in gene content, since the infA gene is missing in Galium palustre and Galium trfidum . An evaluation of the effectiveness of using entire chloroplast genome sequences as superbarcodes for accurate plant species identification revealed the high potential of this method for molecular delimitation within the genus and tribe. The trnE -UUC- psbD region showed the biggest number of diagnostides (diagnostic nucleotides) which might be new potential barcodes, not only in Galium , but also in other closely related genera. Relative synonymous codon usage (RSCU) appeared to be connected with the phylogeny of the Rubiaceae family, showing that during evolution, plants started preferring specific codons over others.

Published

2024

268. The low level of plastome differentiation observed in some lineages of Poales hinders molecular species identification.

Author

Krawczyk K, Paukszto Ł, Maździarz M, and Sawicki J

Abstract

Chloroplast genomes are a source of information successfully used in various fields of plant genetics, including molecular species identification. However, recent studies indicate an extremely low level of interspecific variability in the plastomes of some taxonomic groups of plants, including the genus Stipa L., which is a representative of the grass family. In this study we aimed to analyze the level of chloroplast genome diversity within particular genera as well as the effectiveness of identifying plant species in the Poaceae family and the other representatives of Poales order. Analysis of complete plastid genome alignments created for 96 genera comprising 793 species and 1707 specimens obtained from the GenBank database allowed defining and categorizing molecular diagnostic characters distinguishing the analyzed species from the other representatives of the genus. The results also demonstrate which species do not have any species-specific mutations, thereby they cannot be identified on the basis of differences between the complete chloroplast genomes. Our research showed a huge diversity of the analyzed species in terms of the number of molecular diagnostic characters and indicated which genera pose a particular challenge in terms of molecular species identification. The results show that a very low level of genetic diversity between plastomes is not uncommon in Poales. This is the first extensive research on super-barcoding that tests this method on a large data set and illustrates its effectiveness against the background of phylogenetic relationships., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Krawczyk, Paukszto, Maździarz and Sawicki.)

Published

2023

269. Perspectives on adaptive dynamical systems.

Author

Sawicki J, Berner R, Loos SAM, Anvari M, Bader R, Barfuss W, Botta N, Brede N, Franović I, Gauthier DJ, Goldt S, Hajizadeh A, Hövel P, Karin O, Lorenz-Spreen P, Miehl C, Mölter J, Olmi S, Schöll E, Seif A, Tass PA, Volpe G, Yanchuk S, and Kurths J

Abstract

Adaptivity is a dynamical feature that is omnipresent in nature, socio-economics, and technology. For example, adaptive couplings appear in various real-world systems, such as the power grid, social, and neural networks, and they form the backbone of closed-loop control strategies and machine learning algorithms. In this article, we provide an interdisciplinary perspective on adaptive systems. We reflect on the notion and terminology of adaptivity in different disciplines and discuss which role adaptivity plays for various fields. We highlight common open challenges and give perspectives on future research directions, looking to inspire interdisciplinary approaches., (© 2023 Author(s). All article content, except where otherwise noted, is licensed under a Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).)

Published

2023

270. Modelling the perception of music in brain network dynamics.

Author

Sawicki J, Hartmann L, Bader R, and Schöll E

Abstract

We analyze the influence of music in a network of FitzHugh-Nagumo oscillators with empirical structural connectivity measured in healthy human subjects. We report an increase of coherence between the global dynamics in our network and the input signal induced by a specific music song. We show that the level of coherence depends crucially on the frequency band. We compare our results with experimental data, which also describe global neural synchronization between different brain regions in the gamma-band range in a time-dependent manner correlated with musical large-scale form, showing increased synchronization just before transitions between different parts in a musical piece (musical high-level events). The results also suggest a separation in musical form-related brain synchronization between high brain frequencies, associated with neocortical activity, and low frequencies in the range of dance movements, associated with interactivity between cortical and subcortical regions., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The handling editor KL declared a past collaboration with the authors JS and ES., (Copyright © 2022 Sawicki, Hartmann, Bader and Schöll .)

Published

2022

271. Editorial: Adaptive networks in functional modeling of physiological systems.

Author

Schöll E, Sawicki J, Berner R, and Ivanov PC

Abstract

Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Published

2022

272. Nanopore sequencing of chloroplast genome of Scapania undulata (L.) Dumort., 1835 (Scapaniaceae, Jungermanniales).

Author

Ciborowski K, Skierkowski B, Żukowska K, Krawczyk K, and Sawicki J

Abstract

We performed long-read sequencing of the Scapania undulata (L.) Dumort. chloroplast genome with Oxford Nanopore Technology using improved flow cells (10.3). S. undulata is a leafy liverwort living on rocks in or near water in mountains. The size of the complete plastome sequence is 117,651 bp long, the large single copy (LSC) region is 80,606 bp long, the small single copy (SSC) region is 19,401 bp long. The nanopore sequencing allowed for the distinction of inverted repeats A and B (IRA, IRB) which were not identical. Guanine cytosine (GC) ratio is 33.7% for the complete chloroplast genome, for LSC and SSC are 31.7% and 30.6%. The phylogeny reconstruction shows that Scapania undulata is the sister to S. ciliata and S. griffithii ., Competing Interests: No potential conflict of interest was reported by the author(s)., (© 2022 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.)

Published

2022

273. Critical Parameters in Dynamic Network Modeling of Sepsis.

Author

Berner R, Sawicki J, Thiele M, Löser T, and Schöll E

Abstract

In this work, we propose a dynamical systems perspective on the modeling of sepsis and its organ-damaging consequences. We develop a functional two-layer network model for sepsis based upon the interaction of parenchymal cells and immune cells via cytokines, and the coevolutionary dynamics of parenchymal, immune cells, and cytokines. By means of the simple paradigmatic model of phase oscillators in a two-layer system, we analyze the emergence of organ threatening interactions between the dysregulated immune system and the parenchyma. We demonstrate that the complex cellular cooperation between parenchyma and stroma (immune layer) either in the physiological or in the pathological case can be related to dynamical patterns of the network. In this way we explain sepsis by the dysregulation of the healthy homeostatic state (frequency synchronized) leading to a pathological state (desynchronized or multifrequency cluster) in the parenchyma. We provide insight into the complex stabilizing and destabilizing interplay of parenchyma and stroma by determining critical interaction parameters. The coupled dynamics of parenchymal cells (metabolism) and nonspecific immune cells (response of the innate immune system) is represented by nodes of a duplex layer. Cytokine interaction is modeled by adaptive coupling weights between nodes representing immune cells (with fast adaptation timescale) and parenchymal cells (slow adaptation timescale), and between pairs of parenchymal and immune cells in the duplex network (fixed bidirectional coupling). The proposed model allows for a functional description of organ dysfunction in sepsis and the recurrence risk in a plausible pathophysiological context., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Berner, Sawicki, Thiele, Löser and Schöll.)

Published

2022

274. Modeling Tumor Disease and Sepsis by Networks of Adaptively Coupled Phase Oscillators.

Author

Sawicki J, Berner R, Löser T, and Schöll E

Abstract

In this study, we provide a dynamical systems perspective to the modelling of pathological states induced by tumors or infection. A unified disease model is established using the innate immune system as the reference point. We propose a two-layer network model for carcinogenesis and sepsis based upon the interaction of parenchymal cells and immune cells via cytokines, and the co-evolutionary dynamics of parenchymal, immune cells, and cytokines. Our aim is to show that the complex cellular cooperation between parenchyma and stroma (immune layer) in the physiological and pathological case can be qualitatively and functionally described by a simple paradigmatic model of phase oscillators. By this, we explain carcinogenesis, tumor progression, and sepsis by destabilization of the healthy homeostatic state (frequency synchronized), and emergence of a pathological state (desynchronized or multifrequency cluster). The coupled dynamics of parenchymal cells (metabolism) and nonspecific immune cells (reaction of innate immune system) are represented by nodes of a duplex layer. The cytokine interaction is modeled by adaptive coupling weights between the nodes representing the immune cells (with fast adaptation time scale) and the parenchymal cells (slow adaptation time scale) and between the pairs of parenchymal and immune cells in the duplex network (fixed bidirectional coupling). Thereby, carcinogenesis, organ dysfunction in sepsis, and recurrence risk can be described in a correct functional context., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Sawicki, Berner, Löser and Schöll.)

Published

2022

275. Synchronization scenarios in three-layer networks with a hub.

Author

Sawicki J, Koulen JM, and Schöll E

Abstract

We study various relay synchronization scenarios in a three-layer network, where the middle (relay) layer is a single node, i.e., a hub. The two remote layers consist of non-locally coupled rings of FitzHugh-Nagumo oscillators modeling neuronal dynamics. All nodes of the remote layers are connected to the hub. The role of the hub and its importance for the existence of chimera states are investigated in dependence on the inter-layer coupling strength and inter-layer time delay. Tongue-like regions in the parameter plane exhibiting double chimeras, i.e., chimera states in the remote layers whose coherent cores are synchronized with each other, and salt-and-pepper states are found. At very low intra-layer coupling strength, when chimera states do not exist in single layers, these may be induced by the hub. Also, the influence of the dilution of links between the remote layers and the hub upon the dynamics is investigated. The greatest effect of dilution is observed when links to the coherent domain of the chimeras are removed.

Published

2021

276. Remote pacemaker control of chimera states in multilayer networks of neurons.

Author

Ruzzene G, Omelchenko I, Sawicki J, Zakharova A, Schöll E, and Andrzejak RG

Abstract

Networks of coupled nonlinear oscillators allow for the formation of nontrivial partially synchronized spatiotemporal patterns, such as chimera states, in which there are coexisting coherent (synchronized) and incoherent (desynchronized) domains. These complementary domains form spontaneously, and it is impossible to predict where the synchronized group will be positioned within the network. Therefore, possible ways to control the spatial position of the coherent and incoherent groups forming the chimera states are of high current interest. In this work we investigate how to control chimera patterns in multiplex networks of FitzHugh-Nagumo neurons, and in particular we want to prove that it is possible to remotely control chimera states exploiting the multiplex structure. We introduce a pacemaker oscillator within the network: this is an oscillator that does not receive input from the rest of the network but is sending out information to its neighbors. The pacemakers can be positioned in one or both layers. Their presence breaks the spatial symmetry of the layer in which they are introduced and allows us to control the position of the incoherent domain. We demonstrate how the remote control is possible for both uni- and bidirectional coupling between the layers. Furthermore we show which are the limitations of our control mechanisms when it is generalized from single-layer to multilayer networks.

Published

2020

277. Diversity of Mobile Genetic Elements in the Mitogenomes of Closely Related Fusarium culmorum and F. graminearum sensu stricto Strains and Its Implication for Diagnostic Purposes.

Author

Kulik T, Brankovics B, van Diepeningen AD, Bilska K, Żelechowski M, Myszczyński K, Molcan T, Stakheev A, Stenglein S, Beyer M, Pasquali M, Sawicki J, Wyrȩbek J, and Baturo-Cieśniewska A

Abstract

Much of the mitogenome variation observed in fungal lineages seems driven by mobile genetic elements (MGEs), which have invaded their genomes throughout evolution. The variation in the distribution and nucleotide diversity of these elements appears to be the main distinction between different fungal taxa, making them promising candidates for diagnostic purposes. Fungi of the genus Fusarium display a high variation in MGE content, from MGE-poor ( Fusarium oxysporum and Fusarium fujikuroi species complex) to MGE-rich mitogenomes found in the important cereal pathogens F. culmorum and F. graminearum sensu stricto. In this study, we investigated the MGE variation in these latter two species by mitogenome analysis of geographically diverse strains. In addition, a smaller set of F. cerealis and F. pseudograminearum strains was included for comparison. Forty-seven introns harboring from 0 to 3 endonucleases (HEGs) were identified in the standard set of mitochondrial protein-coding genes. Most of them belonged to the group I intron family and harbored either LAGLIDADG or GIY-YIG HEGs. Among a total of 53 HEGs, 27 were shared by all fungal strains. Most of the optional HEGs were irregularly distributed among fungal strains/species indicating ancestral mosaicism in MGEs. However, among optional MGEs, one exhibited species-specific conservation in F. culmorum. While in F. graminearum s.s. MGE patterns in cox3 and in the intergenic spacer between cox2 and nad4L may facilitate the identification of this species. Thus, our results demonstrate distinctive traits of mitogenomes for diagnostic purposes of Fusaria., (Copyright © 2020 Kulik, Brankovics, van Diepeningen, Bilska, Żelechowski, Myszczyński, Molcan, Stakheev, Stenglein, Beyer, Pasquali, Sawicki, Wyrȩbek and Baturo-Cieśniewska.)

Published

2020

278. Effect of topology upon relay synchronization in triplex neuronal networks.

Author

Drauschke F, Sawicki J, Berner R, Omelchenko I, and Schöll E

Abstract

Relay synchronization in complex networks is characterized by the synchronization of remote parts of the network due to their interaction via a relay. In multilayer networks, distant layers that are not connected directly can synchronize due to signal propagation via relay layers. In this work, we investigate relay synchronization of partial synchronization patterns like chimera states in three-layer networks of interacting FitzHugh-Nagumo oscillators. We demonstrate that the phenomenon of relay synchronization is robust to topological random inhomogeneities of small-world type in the layer networks. We show that including randomness in the connectivity structure either of the remote network layers or of the relay layer increases the range of interlayer coupling strength where relay synchronization can be observed.

Published

2020

279. The Increase of Simple Sequence Repeats during Diversification of Marchantiidae, An Early Land Plant Lineage, Leads to the First Known Expansion of Inverted Repeats in the Evolutionarily-Stable Structure of Liverwort Plastomes.

Author

Sawicki J, Bączkiewicz A, Buczkowska K, Górski P, Krawczyk K, Mizia P, Myszczyński K, Ślipiko M, and Szczecińska M

Subjects

Embryophyta growth & development, Evolution, Molecular, Genome, Chloroplast genetics, Hepatophyta growth & development, High-Throughput Nucleotide Sequencing, Phylogeny, Embryophyta genetics, Hepatophyta genetics, Inverted Repeat Sequences genetics, Microsatellite Repeats genetics

Abstract

The chloroplast genomes of liverworts, an early land plant lineage, exhibit stable structure and gene content, however the known resources are very limited. The newly sequenced plastomes of Conocephalum, Riccia and Sphaerocarpos species revealed an increase of simple sequence repeats during the diversification of complex thalloid liverwort lineage. The presence of long TA motifs forced applying the long-read nanopore sequencing method for proper and dependable plastome assembly, since the length of dinucleotide repeats overcome the length of Illumina short reads. The accumulation of SSRs (simple sequence repeats) enabled the expansion of inverted repeats by the incorporation of rps 12 and rps 7 genes, which were part of large single copy (LSC) regions in the previously sequenced plastomes. The expansion of inverted repeat (IR) at the genus level is reported for the first time for non-flowering plants. Moreover, comparative analyses with remaining liverwort lineages revealed that the presence of SSR in plastomes is specific for simple thalloid species. Phylogenomic analysis resulted in trees confirming monophyly of Marchantiidae and partially congruent with previous studies, due to dataset-dependent results of Dumortiera - Reboulia relationships. Despite the lower evolutionary rate of Marchantiales plastomes, significant barcoding gap was detected, even for recently divergent holarctic Conocephalum species. The sliding window analyses revealed the presence of 18 optimal (500 bp long) barcodes that enable the molecular identification of all studied species.

Published

2020

280. Birth and Stabilization of Phase Clusters by Multiplexing of Adaptive Networks.

Author

Berner R, Sawicki J, and Schöll E

Subjects

Computer Simulation, Models, Neurological, Neurosciences methods, Oscillometry, Models, Theoretical

Abstract

We propose a concept to generate and stabilize diverse partial synchronization patterns (phase clusters) in adaptive networks which are widespread in neuroscience and social sciences, as well as biology, engineering, and other disciplines. We show by theoretical analysis and computer simulations that multiplexing in a multilayer network with symmetry can induce various stable phase cluster states in a situation where they are not stable or do not even exist in the single layer. Further, we develop a method for the analysis of Laplacian matrices of multiplex networks which allows for insight into the spectral structure of these networks enabling a reduction to the stability problem of single layers. We employ the multiplex decomposition to provide analytic results for the stability of the multilayer patterns. As local dynamics we use the paradigmatic Kuramoto phase oscillator, which is a simple generic model and has been successfully applied in the modeling of synchronization phenomena in a wide range of natural and technological systems.

Published

2020

281. Chimera states and the interplay between initial conditions and non-local coupling.

Author

Kalle P, Sawicki J, Zakharova A, and Schöll E

Abstract

Chimera states are complex spatio-temporal patterns that consist of coexisting domains of coherent and incoherent dynamics. We study chimera states in a network of non-locally coupled Stuart-Landau oscillators. We investigate the impact of initial conditions in combination with non-local coupling. Based on an analytical argument, we show how the coupling phase and the coupling strength are linked to the occurrence of chimera states, flipped profiles of the mean phase velocity, and the transition from a phase- to an amplitude-mediated chimera state.

Published

2017

282. Sweet syndrome with associated systemic inflammatory response syndrome: an ultimately fatal case.

Author

Sawicki J, Morton RA, and Ellis AK

Subjects

Acute-Phase Reaction, Adrenal Cortex Hormones administration & dosage, Adult, Bronchopneumonia, Diagnosis, Differential, Epinephrine administration & dosage, Erythema Nodosum, Fatal Outcome, Female, Fever, Humans, Immunoglobulins, Intravenous administration & dosage, Lymphoma, Large B-Cell, Diffuse complications, Lymphoma, Large B-Cell, Diffuse drug therapy, Lymphoma, Large B-Cell, Diffuse pathology, Lymphoma, Large B-Cell, Diffuse physiopathology, Multiple Organ Failure, Neutrophils pathology, Panniculitis, Recurrence, Sweet Syndrome drug therapy, Sweet Syndrome etiology, Sweet Syndrome pathology, Sweet Syndrome physiopathology, Systemic Inflammatory Response Syndrome drug therapy, Systemic Inflammatory Response Syndrome etiology, Systemic Inflammatory Response Syndrome pathology, Systemic Inflammatory Response Syndrome physiopathology, Dermis pathology, Lymphoma, Large B-Cell, Diffuse diagnosis, Neutrophils metabolism, Sweet Syndrome diagnosis, Systemic Inflammatory Response Syndrome diagnosis

Published

2010

283. Dermacase. Can you identify this condition? Favre-Racouchot syndrome.

Author

Sawicki J and Barankin B

Subjects

Adult, Diagnosis, Differential, Facial Dermatoses etiology, Facial Dermatoses therapy, Humans, Male, Syndrome, Facial Dermatoses pathology

Published

2010

284. Patterns of variation in DNA segments upstream of transcription start sites.

Author

Labuda D, Labbé C, Langlois S, Lefebvre JF, Freytag V, Moreau C, Sawicki J, Beaulieu P, Pastinen T, Hudson TJ, and Sinnett D

Subjects

Alleles, Animals, Genotype, Haplotypes, Humans, Polymorphism, Genetic, Promoter Regions, Genetic, DNA genetics, Transcription, Genetic

Abstract

It is likely that evolutionary differences among species are driven by sequence changes in regulatory regions. Likewise, polymorphisms in the promoter regions may be responsible for interindividual differences at the level of populations. We present an unbiased survey of genetic variation in 2-kb segments upstream of the transcription start sites of 28 protein-coding genes, characterized in five population groups of different geographic origin. On average, we found 9.1 polymorphisms and 8.8 haplotypes per segment with corresponding nucleotide and haplotype diversities of 0.082% and 58%, respectively. We characterized these segments through different summary statistics, Hardy-Weinberg equilibria fixation index (Fst) estimates, and neutrality tests, as well as by analyzing the distributions of haplotype allelic classes, introduced here to assess the departure from neutrality and examined by coalescent simulations under a simple population model, assuming recombinations or different demography. Our results suggest that genetic diversity in some of these regions could have been shaped by purifying selection and driven by adaptive changes in the other, thus explaining the relatively large variance in the corresponding genetic diversity indices loci. However, some of these effects could be also due to linkage with surrounding sequences, and the neutralists' explanations cannot be ruled out given uncertainty in the underlying demographic histories and the possibility of random effects due to the small size of the studied segments., (2007 Wiley-Liss, Inc.)

Published

2007