Genome Size and Chromosome Number Evolution in Korean Iris L. Species (Iridaceae Juss.)

Soonku So,Bokyung Choi,Hyeon-Ho Myeong,Eva M Temsch,Tae-Soo Jang,Hanna Weiss-Schneeweiss

doi:10.3390/plants9101284

Abstract

Chromosome numbers, karyotypes, and genome sizes of 14 Iris L. (Iridaceae Juss.) species in Korea and their closely related taxon, Sisyrinchium rosulatum, are presented and analyzed in a phylogenetic framework. To date, understanding the chromosomal evolution of Korean irises has been hampered by their high chromosome numbers. Here, we report analyses of chromosome numbers and karyotypes obtained via classic Feulgen staining and genome sizes measured using flow cytometry in Korean irises. More than a two-fold variation in chromosome numbers (2n = 22 to 2n = 50) and over a three-fold genome size variation (2.39 pg to 7.86 pg/1 C) suggest the putative polyploid and/or dysploid origin of some taxa. Our study demonstrates that the patterns of genome size variation and chromosome number changes in Korean irises do not correlate with the phylogenetic relationships and could have been affected by different evolutionary processes involving polyploidy or dysploidy. This study presents the first comprehensive chromosomal and genome size data for Korean Iris species. Further studies involving molecular cytogenetic and phylogenomic analyses are needed to interpret the mechanisms involved in the origin of chromosomal variation in the Iris.

Highlights

Chromosomal changes play a major role in plant evolution and are important in diversification and speciation in angiosperms [1,2,3]
Chromosome numbers for 74 individuals of 14 currently recognized the Korean Iris species and two individuals of Sisyrinchium rosulatum are provided in Table 1 and Figures 1 and 2
The analysis revealed a 3.29-fold variation in nuclear DNA content among the analyzed taxa, with genome sizes ranging from 2.39 pg/1 C in Iris ruthenica to 7.86 pg/1 C in I. ensata

Summary

Introduction

Chromosomal changes play a major role in plant evolution and are important in diversification and speciation in angiosperms [1,2,3]. Ploidy levels, and genome sizes have been frequently analyzed for a better understanding of evolutionary patterns and species relationships in plants [4,5,6,7]. Iris is an excellent system in which to study the evolutionary patterns of chromosome number and genome size evolution because this group has an exceptionally high diversity of chromosome numbers (n = 7, 8, 9, 10, 11, 12, 13, 15, 16, 17, 18, 19, 20, 21, 22, 24, 25, 27, 36, 54) [17] and genome sizes (1.05–28.2 pg/1 C) [15]. The genus Iris L. is perennial and comprises approximately 300 species worldwide, with the greatest number of endemic species occurring in the Plants 2020, 9, 1284; doi:10.3390/plants9101284 www.mdpi.com/journal/plants

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