Morphological and molecular dissection of wild rices from eastern India suggests distinct speciation between O. rufipogon and O. nivara populations

Samal, Rashmita; Roy, Pritesh Sundar; Sahoo, Auromira; Kar, Meera Kumari; Patra, Bhaskar Chandra; Marndi, Bishnu Charan; Gundimeda, Jwala Narasimha Rao

doi:10.1038/s41598-018-20693-7

Cited by 45 publications

(31 citation statements)

References 45 publications

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“…Microsatellites (SSRs) are featured as co‐dominant, highly polymorphic, abundant, and randomly distributed markers in the genomes and have been successfully used for a variety of studies in rice biology (Kuroda et al, ; McCouch et al, ; Pusadee et al, ; Samal et al, ; Wang et al, ; Zhou et al, ). As SSR markers have good cross‐species amplification to the close relatives, they provide a powerful tool for studying O. nivara and O. rufipogon given that thousands of SSR markers across rice genome have been well characterized (Cho et al, ; McCouch et al, ).…”

Section: Discussionmentioning

confidence: 99%

“…To date, many investigations on genetic diversity of O. rufipogon and O. nivara have been undertaken using SSR markers and relatively high genetic diversity has been detected at both population and species levels (Banaticla‐Hilario et al, ; Kuroda et al, ; Pusadee et al, ; Samal et al, ; Zhou et al, ;). In a study on the Chinese O. rufipogon populations, Zhou, Wang, Davy, and Liu () found a genetic diversity of 0.413 and 0.787, as measured by H E , at population and species levels, respectively.…”

Section: Discussionmentioning

confidence: 99%

“…To date, many efforts have been made to investigate their classification, population genetics, evolutionary history, and adaptation potential as well as agronomical traits of the two species (Barbier, 1989; Grillo et al, ; Huang et al, ; Huang et al., ; Liu, Zheng, Zhou, Zhou, & Ge, ; Morishima, Sano, & Oka, ; Zhu & Ge, ; Zhu, Zheng, Luo, Gaut, & Ge, ). Extensive studies on the population genetics of these two species have been carried out either in global scale (Banaticla‐Hilario, Berg, Hamilton, & McNally, ; Huang et al, ; Liu et al, ; Zhu & Ge, 2005; Zheng & Ge, ;) or local scale (Kuroda, Sato, Bounphanousay, Kono, & Tanaka, ; Pusadee, Schaal, Rerkasem, & Jamjod, ; Samal et al, ; Zhou, Xie, & Ge, ; Zhou et al, ). However, the genetic variability and population genetic structure of these two species in Sri Lanka are not well understood (Rajkumar, Weerasena, Fernando, Liyanage, & Silva, ).…”

Section: Introductionmentioning

confidence: 99%

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Population genetics and evolutionary history of the wild rice species Oryza rufipogon and O. nivara in Sri Lanka

Sandamal

Tennakoon

Meng

et al. 2018

Ecology and Evolution

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Genetic diversity and population genetic structure of the wild rice species Oryza rufipogon and O. nivara in Sri Lanka were studied using 33 microsatellite markers. A total of 315 individuals of 11 natural populations collected from the wet, intermediate, and dry zones of the country were used in the study. We found a moderate to high level of genetic diversity at the population level, with the polymorphic loci (P) ranging from 60.6% to 100% (average 81.8%) and the expected heterozygosity (H E) varying from 0.294 to 0.481 (average 0.369). A significant genetic differentiation between species and strong genetic structure within species were also observed. Based on species distribution modeling, we detected the dynamics of the preferred habitats for the two species in Sri Lanka and demonstrated that both O. rufipogon and O. nivara populations have expanded substantially since the last internal glacial. In addition, we showed that the geographical distribution of the two species corresponded to the climate zones and identified a few of key environmental variables that contribute to the distribution of the two species, implying the potential mechanism for ecological adaptation of these two species in Sri Lanka. These studies provided important insights into the population genetics and evolution of these wild species in Sri Lanka and are of great significance to the in situ conservation and utilization of these wild resources in genetic improvement of rice.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Population genetics and evolutionary history of the wild rice species Oryza rufipogon and O. nivara in Sri Lanka

Sandamal

Tennakoon

Meng

et al. 2018

Ecology and Evolution

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“…Moreover, both O. rufipogon and O. nivara share a common geographical distribution in South and Southeast Asia therefore the probability of gene flow is higher between them. These species are cross compatible and exhibit little genetic differentiation and is supported by molecular phylogenetic analysis and population studies [48][49][50][51][52][53][54] .…”

Section: Phylogenetic Relationships Of Ospldα1 Gene Among Diverese Wimentioning

confidence: 93%

Novel allelic variation in the Phospholipase D alpha1 gene (OsPLDα1) of wild Oryza species implies to its low expression in rice bran

Kaur

Neelam

Kaur

et al. 2020

Sci Rep

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Rice bran, a by-product after milling, is a rich source of phytonutrients like oryzanols, tocopherols, tocotrienols, phytosterols, and dietary fibers. Moreover, exceptional properties of the rice bran oil make it unparalleled to other vegetable oils. However, a lipolytic enzyme Phospholipase D alpha1 (OsPLDα1) causes rancidity and 'stale flavor' in the oil, and thus limits the rice bran usage for human consumption. To improve the rice bran quality, sequence based allele mining at OsPLDα1 locus (3.6 Kb) was performed across 48 accessions representing 11 wild Oryza species, 8 accessions of African cultivated rice, and 7 Oryza sativa cultivars. From comparative sequence analysis, 216 SNPs and 30 InDels were detected at the OsPLDα1 locus. Phylogenetic analysis revealed 20 OsPLDα1 cDNA variants which further translated into 12 protein variants. The O. officinalis protein variant, when compared to Nipponbare, showed maximum variability comprising 22 amino acid substitutions and absence of two peptides and two β-sheets. Further, expression profiling indicated significant differences in transcript abundance within as well as between the OsPLDα1 variants. Also, a new OsPLDα1 transcript variant having third exon missing in it, Os01t0172400-06, has been revealed. An O. officinalis accession (IRGC101152) had lowest gene expression which suggests the presence of novel allele, named as OsPLDα1-1a (GenBank accession no. MF966931). The identified novel allele could be further deployed in the breeding programs to overcome rice bran rancidity in elite cultivars.

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“…To date, many studies have been undertaken on O. nivara and O. rufipogon and have involved morphological variation and taxonomy, crossability and gene flow, and population genetic structure as well as population adaptation and speciation (Morishima et al, 1961;Chu et al, 1969;Morishima et al, 1984;Morishima, 1985;Barbier, 1989;Vaughan, 1989;Naredo et al, 1997;Lu et al, 1998;Cai et al, 2004;Kuroda et al, 2007;Zhou et al, 2008;Zheng and Ge, 2010;Huang and Schaal, 2012;Banaticla-Hilario et al, 2013;Liu et al, 2015;Samal et al, 2018;Cai et al, 2019). These studies clearly indicated that O. nivara was recently derived from O. rufipogon (about 0.16 million years ago) without apparent genetic differentiation between species, and supported the hypothesis that O. nivara originated from the adaptation of O. rufipogon to dry habitats during the last glaciations (Barbier, 1989;Zheng and Ge, 2010;Liu et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

Divergence in flowering time is a major component contributing to reproductive isolation between two wild rice species (Oryza rufipogon and O. nivara)

Meng

Geng

et al. 2020

Sci. China Life Sci.

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It is of critical importance for our understanding of speciation process to determine the forms of reproductive isolation and their relative importance in species divergence. Oryza nivara and O. rufipogon are direct ancestors of Asian cultivated rice and a progenitor-daughter species pair. Investigating the reproductive isolation between them provides insights into plant speciation and helps understanding of the rice domestication. Here, we quantitatively measured the major components of reproductive isolation between the two species based on common garden and crossing experiments for three pairs of sympatric populations in Nepal, Cambodia and Laos.We revealed significant differences in the flowering times between species pairs, with O. nivara flowering much earlier than O. rufipogon. A very weak reduction in seed set but no reduction in F1 viability and fertility were detected for the crosses between species relative to those within species. Moreover, we detected asymmetrical compatibility between species and found that emasculation significantly decreased pollination success in O. nivara but not in O. rufipogon. Our study demonstrates that the divergence between O. nivara and O. rufipogon is maintained almost entirely by the difference in flowering times and suggests that differential flowering times contribute to both habitat preferences and reproductive isolation between species.

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Morphological and molecular dissection of wild rices from eastern India suggests distinct speciation between O. rufipogon and O. nivara populations

Cited by 45 publications

References 45 publications

Population genetics and evolutionary history of the wild rice species Oryza rufipogon and O. nivara in Sri Lanka

Population genetics and evolutionary history of the wild rice species Oryza rufipogon and O. nivara in Sri Lanka

Novel allelic variation in the Phospholipase D alpha1 gene (OsPLDα1) of wild Oryza species implies to its low expression in rice bran

Divergence in flowering time is a major component contributing to reproductive isolation between two wild rice species (Oryza rufipogon and O. nivara)

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