CYTOLOGIA
Online ISSN : 1348-7019
Print ISSN : 0011-4545
Regular Article
Determination of Genome Size, Chromosome Number, and Genetic Variation Using Inter-Simple Sequence Repeat Markers in Lotus spp.
Hidenori TanakaAwatsaya ChotekajornSayumi KaiGenki IshigakiMasatsugu HashiguchiRyo Akashi
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JOURNAL OPEN ACCESS

2016 Volume 81 Issue 1 Pages 95-102

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Abstract

Lotus is a leguminous and cosmopolitan genus in the Loteae tribe consisting of more than 200 species. The number of chromosomes has been reported for many Lotus species; however, molecular studies have focused only on a few important species of this genus. The present study was conducted to estimate the genome size and ploidy levels of 28 Lotus accessions, and to identify their genetic diversity using inter-simple sequence repeat (ISSR) analysis. The chromosome number of 16 accessions agreed with previous reports (except for Lotus salsuginosus), while that in 11 accessions were reported here for the first time. The smallest nuclear DNA content was identified in the diploid, Lotus unifoliolatus (0.28±0.01 pg C−1). In contrast, the tetraploid, Lotus australis, had a genome size of 1.28±0.03 pg C−1, representing a five-fold difference in genome size among the Lotus species. When expressed as a per Cx value, Lotus species genome sizes ranged from 0.28 pg Cx−1 in L. unifoliolatus to 0.71 pg Cx−1 in Lotus wrightii, representing a 2.5-fold difference. There was no relationship between genome size and chromosome number or ploidy level; thus, genome size is species specific in the Lotus species. On ISSR analysis, a total of 379 fragments were generated with 12 primers, and all accessions were grouped into four clusters by phylogenetic analysis. The results of this investigation will be useful for plant breeders attempting to expand the genetic variation found in this species by crossbreeding using these resources.

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© 2016 Japan Mendel Society, International Society of Cytology
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