Divergence and population traits in evolution of the genus Pisum L. as reconstructed using genes of two histone H1 subtypes showing different phylogenetic resolution

Abstract

Two histone H1 subtype genes, His7 and His5, were sequenced in a set of 56 pea accessions. Phylogenetic reconstruction based on concatenated His5 and His7 sequences had three main clades. First clade corresponded to Pisum fulvum, the next divergence separated a clade inside Pisum sativum in the broad sense that did not correspond strictly to any proposed taxonomical subdivisions. According to our estimations, the earliest divergence separating P. fulvum occurred 1.7±0.4MYA. The other divergence with high bootstrap support that separated two P. sativum groups took place approximately 1.3±0.3MYA. Thus, the main divergences in the genus took place either in late Pliocene or in early Pleistocene, the time of onset of the profound climate cooling in the northern hemisphere. The ω=K(a)/K(s) ratio was 2.5 times higher for His5 sequences than for His7. Thus, His7 gene, coding for a unique subtype specific for actively growing tissues, might have evolved under stricter evolutionary constraints than His5, that codes for a minor H1 subtype with less specific expression pattern. For this reason phylogenetic reconstructions separately obtained from His5 sequences resolved tree topology much better than those obtained from His7 sequences. Computational estimation of population dynamic parameters in the genus Pisum L. from His5-His7 sequences using IMa2 software revealed a decrease of effective population size on the early stage of Pisum evolution.