Contribution of molecular data to current concepts of phylogeny and biodiversity of Paeonia (Paeoniaceae)
УДК 57.088:582.675.1
Abstract
The article provides an overview of the current state of molecular phylogenetic studies of the genusPaeonia. Molecular data contributed significantly to developing a phylogeny and systematics of Paeonia, and confirmedits status as a separate monotypic family, established its position in Saxifragales, and confirmed the naturalness ofcurrently accepted intrageneric classification. However, high level of nucleotide sequence divergence makes it difficult toestablish relationships between Paeonia and other families, as well as between sections within the genus. In comparisonto morphological data, molecular data allow differentiating more accurately the species and help to separate situationswhen the observed differences are due to phenotypic variability, and when genetically fixed morphotypes occur.
Downloads
Metrics
References
Ефимов С. В., Дегтярева Г. В., Терентьева Е. И., Самигуллин Т. Х., Вальехо-Роман К. М. Современные данные о родственных взаимоотношениях рода Paeonia (Paeoniaceae) // Проблемы ботаники Южной Сибири и Монголии: Сб. науч. ст. по материалам XVII междунар. науч.-практ. конф. (24-27 мая 2018 г., Барнаул). – Барнаул: Изд-во АлтГУ, 2018. – С. 414–417.
Тахтаджян А. Л. Система магнолиофитов. – Л.: Наука, 1987. – 439 с. Álvarez I., Wendel J. F. Ribosomal ITS sequences and plant phylogenetic inference // Mol. Phylogenet. Evol., 2003. – Vol. 29. – P. 417–434.
Angiosperm Phylogeny Group. An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG IV // Bot. J. Linn. Soc., 2016. – Vol. 181. – P. 1–20.
Dong W., Xu Ch., Wu P., Cheng T., Yu J., Zhou Sh., Hong D. Y. Resolving the systematic positions of enigmatic taxa: manipulating the chloroplast genome data of Saxifragales // Mol. Phylogenet. Evol., 2018. – Vol. 126. – P. 321–330.
Endress P. K. Flower structure and trends of evolution in eudicots and their major subclades // Ann. Missouri Bot. Gard., 2010. – Vol. 97. – P. 541–583.
Hong D. Y. Peonies of the world: taxonomy and phytogeography. – London, UK: Royal Botanic Gardens, Kew, 2010. – 302 p.
Pan J., Zhang D., Sang T. Molecular phylogenetic evidence for the origin of a diploid hybrid of Paeonia (Paeoniaceae) // Am. J. Bot., 2007. – Vol. 94. – P. 400–408.
Punina E. O., Machs E. M., Krapivskaya E. E., Kim E. S., Mordak E. V., Myakoshina Yu. A., Rodionov A. V. Interspecific hybridization in the genus Paeonia (Paeoniaceae): polymorphic sites in transcribed spacers of the 45S rRNA genes as indicator of natural and artificial peony hybrids // Russ. J. Genet., 2012. – Vol. 48. – P. 684–697.
Ronse De Craene L. P. Floral Diagrams. An Aid to Understanding Flower Morphology and Evolution. – Cambridge: Cambridge University Press, 2010. – 441 p.
Samigullin T. H. Logacheva M. D., Degtjareva G. V., Efimov S. V., Terentieva E. I., Vallejo-Roman C. M. Complete plastome sequence of Paeonia lactiflora Pall. (Paeoniaceae: Saxifragales) // Mitochondrial DNA Part B, 2018. – Vol. 3. – P. 1110–1111.
Sang T., Crawford D. J., Stuessy T. F. Documentation of reticulate evolution in peonies (Paeonia) using internal transcribed spacer sequences of nuclear ribosomal DNA: implications for biogeography and concerted evolution // Proc. Natl. Acad. Sci. USA, 1995. – Vol. 92. – P. 6813–6817.
Sang T., Crawford D. J., Stuessy T. F. Chloroplast DNA phylogeny, reticulate evolution, and biogeography of Paeonia (Paeoniaceae) // Am. J. Bot., 1997a. – Vol. 89. – P. 1120–1136.
Sang T., Donoghue M. J., Zhan D. Evolution of alcohol dehydrogenase genes in Peonies (Paeonia): phylogenetic relationships of putative nonhybrid species // Mol. Biol. Evol., 1997b. – Vol. 14. – P. 994–1007.
Sang T., Pan J., Zhang D., Ferguson D., Wang C., Pan K. Y., Hong D. Y. Origins of polyploids: as example from peonies (Paeonia) and a model for angiosperms // Biol. J. Linn. Soc., 2004. – Vol. 82. – P. 561–571.
Stern F. C. A study of the genus Paeonia. – London: Royal Horticultural Society, 1946. – 155 p.
Tank D. C., Sang T. Phylogenetic utility of the glycerol-3-phosphate acyltransferase gene: evolution and implications in Paeonia (Paeoniaceae) // Mol. Phyl. Evol., 2001. – Vol. 19. – P. 421–429.
