Abstract
BackgroundSingle- and low- copy genes are less likely subject to concerted evolution, thus making themselves ideal tools for studying the origin and evolution of polyploid taxa. Leymus is a polyploid genus with a diverse array of morphology, ecology and distribution in Triticeae. The genomic constitution of Leymus was assigned as NsXm, where Ns was presumed to be originated from Psathyrostachys, while Xm represented a genome of unknown origin. In addition, little is known about the evolutionary history of Leymus. Here, we investigate the phylogenetic relationship, genome donor, and evolutionary history of Leymus based on a single-copy nuclear Acc1 gene.ResultsTwo homoeologues of the Acc1 gene were isolated from nearly all the sampled Leymus species using allele-specific primer and were analyzed with those from 35 diploid taxa representing 18 basic genomes in Triticeae. Sequence diversity patterns and genealogical analysis suggested that (1) Leymus is closely related to Psathyrostachys, Agropyron, and Eremopyrum; (2) Psathyrostachys juncea is an ancestral Ns-genome donor of Leymus species; (3) the Xm genome in Leymus may be originated from an ancestral lineage of Agropyron and Eremopyrum triticeum; (4) the Acc1 sequences of Leymus species from the Qinghai-Tibetan plateau are evolutionarily distinct; (5) North America Leymus species might originate from colonization via the Bering land bridge; (6) Leymus originated about 11-12MYA in Eurasia, and adaptive radiation might have occurred in Leymus during the period of 3.7-4.3 MYA and 1.7-2.1 MYA.ConclusionLeymus species have allopolyploid origin. It is hypothesized that the adaptive radiation of Leymus species might have been triggered by the recent upliftings of the Qinghai-Tibetan plateau and subsequent climatic oscillations. Adaptive radiation may have promoted the rapid speciation, as well as the fixation of unique morphological characters in Leymus. Our results shed new light on our understanding of the origin of Xm genome, the polyploidization events and evolutionary history of Leymus that could account for the rich diversity and ecological adaptation of Leymus species.
Highlights
Single- and low- copy genes are less likely subject to concerted evolution, making themselves ideal tools for studying the origin and evolution of polyploid taxa
One type of Acc1 sequence was detected from Leymus multicaulis (Ns-type), L. coreanus (Ns-type), L. ramosus (Xm-type), L. duthiei var. longearistata (Xm-type) and L. akmolinensis (Xm-type)
Another possibility is that one type has been pseudogenized so that they are undetectable by our primers
Summary
Single- and low- copy genes are less likely subject to concerted evolution, making themselves ideal tools for studying the origin and evolution of polyploid taxa. Leymus is a polyploid genus with a diverse array of morphology, ecology and distribution in Triticeae. Little is known about the evolutionary history of Leymus. We investigate the phylogenetic relationship, genome donor, and evolutionary history of Leymus based on a single-copy nuclear Acc gene. Leymus Hochst., a polyploid perennial genus in the wheat tribe (Poaceae: Triticeae), includes about 30 species that distribute in a wide range of ecological habitats over the temperate and subtropical and tropic alpine regions [1,2,3]. Yen and Yang [3] defined three ecological sections of Leymus: sect. While these studies add to our understanding of subdivision of Leymus, phylogenetic relationships among its species remain unclear.
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