Holocentric plants are more competitive under higher UV-B doses
Jazyk angličtina Země Anglie, Velká Británie Médium print-electronic
Typ dokumentu dopisy, práce podpořená grantem
PubMed
34547106
DOI
10.1111/nph.17750
Knihovny.cz E-zdroje
- Klíčová slova
- Cyperaceae, Paleozoic terrestrialisation, Poaceae, clastogens, holocentric chromosomes, ultraviolet radiation, vegetation plots,
- MeSH
- chromozomy rostlin * MeSH
- rostliny * genetika MeSH
- ultrafialové záření MeSH
- Publikační typ
- dopisy MeSH
- práce podpořená grantem MeSH
Zobrazit více v PubMed
Akaike H. 1978. A Bayesian analysis of the minimum AIC procedure. Annals of the Institute of Statistical Mathematics 30: 9-14.
Bakri A, Heather N, Hendrichs J, Ferris I. 2005. Fifty years of radiation biology in entomology: lessons learned from IDIDAS. Annals of the Entomological Society of America 98: 1-12.
Beckmann M, Václavík T, Manceur AM, Šprtová L, von Wehrden H, Welk E, Cord AF. 2014. glUV: a global UV-B radiation data set for macroecological studies. Methods in Ecology and Evolution 5: 372-383.
Borhidi A. 1995. Social behaviour types, the naturalness and relative ecological indicator values of the higher plants in the Hungarian flora. Acta Botanica Hungarica 39: 97-181.
Bouchenak-Khelladi Y, Muasya AM, Linder HP. 2014. A revised evolutionary history of Poales: origins and diversification. Botanical Journal of the Linnean Society 175: 4-16.
Breheny P, Burchett W. 2017. Visualization of regression models using visreg. R Journal 9: 56-71.
Bureš P, Zedek F, Marková M. 2013. Holocentric chromosomes. In: Leitch I, Greilhuber J, Dolezel J, Wendel J, eds. Plant genome diversity, vol. 2. Vienna, Austria: Springer-Verlag, 67-82.
Carpenter JE, Bloem S, Marec F. 2005. Inherited sterility in insects. In: Dyck VA, Hendrichs J, Robinson AS, eds. Sterile insect technique. Principles and practice in area-wide integrated pest management. Dordrecht, the Netherlands: Springer, 115-146.
Chytrý M, Hennekens SM, Jiménez-Alfaro B, Knollová I, Dengler J, Jansen F, Landucci F, Schaminée JHJ, Aćić S, Agrillo E et al. 2016. European Vegetation Archive (EVA): an integrated database of European vegetation plots. Applied Vegetation Science 19: 173-180.
Doglioni C, Pignatti J, Coleman M. 2016. Why did life develop on the surface of the Earth in the Cambrian? Geoscience Frontiers 7: 865-873.
Ellenberg H, Weber HE, Düll R, Wirth V, Werner W, Paulißen D. 1991. Zeigerwerte von Pflanzen in Mitteleuropa. Scripta Geobotanica 18: 1-248.
Escudero M, Márquez-Corro JI, Hipp AL. 2016. The phylogenetic origins and evolutionary history of holocentric chromosomes. Systematic Botany 41: 580-585.
Fischer HS. 2015. On the combination of species cover values from different vegetation layers. Applied Vegetation Science 8: 169-170.
Flach M. 1966. Nutmeg cultivation and its sex-problem; an agronomical and cytogenetical study of the dioecy in Myristica fragrans Houtt. and Myristica argentea Warb. PhD thesis, Wageningen: Mededelingen Landbouwhoge School Wageningen (66-1), Dissertation No. Flach 397, Veenman: Wageningen.
Furness NH, Jolliffe PA, Upadhyaya MK. 2005. Ultraviolet-B radiation and plant competition: experimental approaches and underlying mechanisms. Photochemistry and Photobiology 81: 1026-1037.
Godward MBE. 1966. Conjugales. In: Godward MBE, ed. The chromosomes of the algae. London, UK: Edward Arnold, 24-51.
Guerra M, Ribeiro T, Felix LP. 2019. Monocentric chromosomes in Juncus (Juncaceae) and implications for the chromosome evolution of the family. Botanical Journal of the Linnean Society 191: 475-483.
Güsewell S. 2005. High nitrogen: phosphorus ratios reduce nutrient retention and second-year growth of wetland sedges. New Phytologist 166: 537-550.
Hill MO, Mountford JO, Roy DB, Bunce RGH. 1999. Ellenberg's indicator values for British plants. ECOFACT Volume 2 Technical Annex. Huntingdon, UK: Institute of Terrestrial Ecology.
Hofstatter PG, Thangavel G, Castellani M, Marques A. 2021. Meiosis progression and recombination in Holocentric plants: what is known? Frontiers in Plant Science 12: 658296.
Hollis JA, Glover ML, Schlientz AJ, Cahoon CK, Bowerman B, Wignall SM, Libuda DE. 2020. Excess crossovers impede faithful meiotic chromosome segregation in C. elegans. PLoS Genetics 16: e1009001.
Jankowska M, Fuchs J, Klocke E, Fojtová M, Polanská P, Fajkus J, Schubert V, Houben A. 2015. Holokinetic centromeres and efficient telomere healing enable rapid karyotype evolution. Chromosoma 124: 519-528.
Jansen MA, Gaba V, Greenberg BM. 1998. Higher plants and UV-B radiation: balancing damage, repair and acclimation. Trends in Plant Science 3: 131-135.
Julve P. 1998. Baseveg. Répertoire synonymique des groupements végétaux de France. [WWW document] URL http://philippe.julve.pagesperso-orange.fr/baseflor.xlsx [accessed 17 September 2020].
King GC. 1960. The cytology of the desmids: the chromosomes. New Phytologist 59: 65-72.
Kolodin P, Cempírková H, Bureš P, Horová L, Veleba A, Francová J, Adamec L, Zedek F. 2018. Holocentric chromosomes may be an apomorphy of Droseraceae. Plant Systematics and Evolution 304: 1289-1296.
Körner C. 2003. Alpine plant life: functional plant ecology of high mountain ecosystems. Berlin & Heidelberg, Germany: Springer-Verlag.
Král J, Forman M, Kořínková T, Lerma ACR, Haddad CR, Musilová J, Řezáč M, Herrera IMÁ, Thakur S, Dippenaar-Schoeman AS et al. 2019. Insights into the karyotype and genome evolution of haplogyne spiders indicate a polyploid origin of lineage with holokinetic chromosomes. Scientific Reports 9: 3001.
Krátká M, Šmerda J, Lojdová K, Bureš P, Zedek F. 2021. Holocentric chromosomes probably do not prevent centromere drive in Cyperaceae. Frontiers in Plant Science 12: 642661.
Lang L, Schnittger A. 2020. Endoreplication - a means to an end in cell growth and stress response. Current Opinion in Plant Biology 54: 85-92.
Leitch IJ, Dodsworth S. 2017. Endopolyploidy in plants. In: eLS. Chichester, UK: John Wiley & Sons. doi: 10.1002/9780470015902.a0020097.pub2.
Linder HP, Rudall PJ. 2005. Evolutionary history of Poales. Annual Review of Ecology, Evolution, and Systematics 36: 107-124.
Lomax BH. 2012. Past extremes. In: Bell EM, ed. Life at extremes: environments, organisms and strategies for survival. Wallingford, UK: CABI, 13-35.
Mandrioli M, Manicardi GC. 2012. Unlocking holocentric chromosomes: new perspectives from comparative and functional genomics? Current Genomics 13: 343-349.
Mandrioli M, Manicardi GC. 2020. Holocentric chromosomes. PLoS Genetics 16: e1008918.
Márquez-Corro JI, Escudero M, Luceño M. 2018. Do holocentric chromosomes represent an evolutionary advantage? A study of paired analyses of diversification rates of lineages with holocentric chromosomes and their monocentric closest relatives. Chromosome Research 26: 139-152.
Melters DP, Paliulis LV, Korf IF, Chan SW. 2012. Holocentric chromosomes: convergent evolution, meiotic adaptations, and genomic analysis. Chromosome Research 20: 579-593.
Miehe G, Miehe S, Kaiser K, Liu J, Zhao X. 2008. Status and dynamics of the Kobresia pygmaea ecosystem on the Tibetan plateau. Ambio 37: 272-279.
Miehe G, Schleuss PM, Seeber E, Babel W, Biermann T, Braendle M, Chen F, Coners H, Foken T, Gerken T et al. 2019. The Kobresia pygmaea ecosystem of the Tibetan highlands-origin, functioning and degradation of the world’s largest pastoral alpine ecosystem: Kobresia pastures of Tibet. Science of the Total Environment 648: 754-771.
Nokkala S, Kuznetsova VG, Maryanska-Nadachowska A, Nokkala C. 2004. Holocentric chromosomes in meiosis. I. Restriction of the number of chiasmata in bivalents. Chromosome Research 12: 733-739.
Oliveira L, Neumann P, Jang TS, Klemme S, Schubert V, Koblížková A, Houben A, Macas J. 2020. Mitotic spindle attachment to the holocentric chromosomes of Cuscuta europaea does not correlate with the distribution of CENH3 chromatin. Frontiers in Plant Science 10: 1799.
One Thousand Plant Transcriptomes Initiative. 2019. One thousand plant transcriptomes and the phylogenomics of green plants. Nature 574: 679-685.
Pignatti S, Menegoni P, Pietrosanti S. 2005. Valori di bioindicazione delle piante vascolari della Flora d’Italia [Bioindicator values of vascular plants of the Flora of Italy]. Braun-Blanquetia 39: 1-97.
Prychid CJ, Rudall PJ, Gregory M. 2003. Systematics and biology of silica bodies in Monocotyledons. Botanical Review 69: 377-440.
R Core Team. 2020. R: a language and environment for statistical computing. Vienna, Austria: R Foundation for Statistical Computing. [WWW document] URL http://www.R-project.org/.
Rastogi RP, Richa, Kumar A, Tyagi MB, Sinha RP. 2010. Molecular mechanisms of ultraviolet radiation-induced DNA damage and repair. Journal of Nucleic Acids 2010: 1-32.
Robson TM, Klem K, Urban O, Jansen MA. 2015. Re-interpreting plant morphological responses to UV-B radiation. Plant, Cell & Environment 38: 856-866.
Rozema J, Björn LO, Bornman JF, Gaberscik A, Häder DP, Trost T, Germ M, Klisch M, Gröniger A, Sinha RP et al. 2002. The role of UV-B radiation in aquatic and terrestrial ecosystems-an experimental and functional analysis of the evolution of UV-absorbing compounds. Journal of Photochemistry and Photobiology B: Biology 66: 2-12.
Schaller J, Brackhage C, Bäucker E, Dudel EG. 2013. UV-screening of grasses by plant silica layer? Journal of Biosciences 38: 413-416.
Šmarda P, Bureš P, Horová L, Leitch IJ, Mucina L, Pacini E, Tichý L, Grulich V, Rotreklová O. 2014. Ecological and evolutionary significance of genomic GC content diversity in monocots. Proceedings of the National Academy of Sciences, USA 111: E4096-E4102.
Su D, Yang L, Shi X, Ma X, Zhou X, Hedges SB, Zhong B. 2021. Large-scale phylogenomic analyses reveal the monophyly of bryophytes and Neoproterozoic origin of land plants. Molecular Biology and Evolution 38: 3332-3344.
Tanaka N. 1977. Chromosome studies in Chionographis (Liliaceae) I. On the holokinetic nature of chromosomes in Chionographis japonica Maxim. Cytologia 42: 753-763.
Tanaka N. 2020. High stability in chromosomal traits of Chamaelirium japonicum and C. koidzuminum (Melanthiaceae) with holocentric chromosomes. Cytologia 85: 33-40.
Tedetti M, Sempéré R. 2006. Penetration of ultraviolet radiation in the marine environment. A review. Photochemistry and Photobiology 82: 389-397.
Tichý L. 2002. Juice, software for vegetation classification. Journal of Vegetation Science 13: 451-453.
Verdebout J. 2004a. A European satellite-derived UV climatology available for impact studies. Radiation Protection Dosimetry 111: 407-411.
Verdebout J. 2004b. A satellite-derived UV radiation climatology over Europe to support impact studies. Arctic, Antarctic, and Alpine Research 36: 357-363.
Wickett NJ, Mirarab S, Nguyen N, Warnow T, Carpenter E, Matasci N, Ayyampalayam S, Barker MS, Burleigh JG, Gitzendanner MA et al. 2014. Phylotranscriptomic analysis of the origin and early diversification of land plants. Proceedings of the National Academy of Sciences, USA 111: E4859-4868.
Zedek F, Bureš P. 2018. Holocentric chromosomes: from tolerance to fragmentation to colonization of the land. Annals of Botany 121: 9-16.
Zedek F, Bureš P. 2019. Pest arthropods with holocentric chromosomes are more resistant to sterilizing ionizing radiation. Radiation Research 191: 255-261.
Zedek F, Plačková K, Veselý P, Šmerda J, Šmarda P, Horová L, Bureš P. 2020. Endopolyploidy is a common response to UV-B stress in natural plant populations, but its magnitude may be affected by chromosome type. Annals of Botany 126: 883-889.
Zedek F, Šmerda J, Veselý P, Horová L, Kocmanová J, Bureš P. 2021. Elevation-dependent endopolyploid response suggests that plants with holocentric chromosomes are less stressed by UV-B. Botanical Journal of the Linnean Society 195: 106-113.
Zhong B, Xi Z, Goremykin VV, Fong R, McLenachan PA, Novis PM, Davis CC, Penny D. 2014. Streptophyte algae and the origin of land plants revisited using heterogeneous models with three new algal chloroplast genomes. Molecular Biology and Evolution 31: 177-183.
Chromosome size matters: genome evolution in the cyperid clade
