Abstract
BackgroundChloroplast genome variations have been detected, despite its overall conserved structure, which has been valuable for plant population genetics and evolutionary studies. Here, we described chloroplast variation architecture of 383 rice accessions from diverse regions and different ecotypes, in order to mine the rice chloroplast genome variation architecture and phylogenetic.ResultsA total of 3677 variations across the chloroplast genome were identified with an average density of 27.33 per kb, in which wild rice showing a higher variation density than cultivated groups. Chloroplast genome nucleotide diversity investigation indicated a high degree of diversity in wild rice than in cultivated rice. Genetic distance estimation revealed that African rice showed a low level of breeding and connectivity with the Asian rice, suggesting the big distinction of them. Population structure and principal component analysis revealed the existence of clear clustering of African and Asian rice, as well as the indica and japonica in Asian cultivated rice. Phylogenetic analysis based on maximum likelihood and Bayesian inference methods and the population splits test suggested and supported the independent origins of indica and japonica within Asian cultivated rice. In addition, the African cultivated rice was thought to be domesticated differently from Asian cultivated rice.ConclusionsThe chloroplast genome variation architecture in Asian and African rice are different, as well as within Asian or African rice. Wild rice and cultivated rice also have distinct nucleotide diversity or genetic distance. In chloroplast level, the independent origins of indica and japonica within Asian cultivated rice were suggested and the African cultivated rice was thought to be domesticated differently from Asian cultivated rice. These results will provide more candidate evidence for the further rice chloroplast genomic and evolution studies.Electronic supplementary materialThe online version of this article (doi:10.1186/s12284-016-0129-y) contains supplementary material, which is available to authorized users.
Highlights
Chloroplast genome variations have been detected, despite its overall conserved structure, which has been valuable for plant population genetics and evolutionary studies
Variations in 383 rice accessions, including 335 Asian cultivated rice (O. sativa L.), 10 Asian wild rice (O. rufipogon, O. nivara), 19 African cultivated rice (Oryza glaberrima), and 19 African wild rice (Oryza barthii), were characterized based on whole-genome resequencing data using the chloroplast genome of O. rufipogon as a reference
By applied a chloroplast genome-wide variation analysis in current report, we found the evidence support the independent domestication of Asian cultivated rice, O. sativa L. spp. indica and japonica, which were thought to be originated from O. nivara and O. rufipogon, respectively
Summary
Chloroplast genome variations have been detected, despite its overall conserved structure, which has been valuable for plant population genetics and evolutionary studies. The availability of rice nuclear (Goff et al 2002; Yu et al 2002) and chloroplast (Hiratsuka et al 1989) reference genomes has enabled detailed studies of the origin, domestication, and phylogenetic relationships within this group. Due to the high level of conservation, analysis of the chloroplast genome has become a valuable tool for plant phylogenetic studies (Waters et al 2012; Yang et al 2013). Whole chloroplast genome sequencing for phylogenetic analysis without prior isolation or amplification is relatively straightforward for plant species (Nock et al 2011). Chloroplast-based evolutionary studies must sometimes be complemented by nuclear genomic information
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