Discovery of polymorphisms in starch‐related genes in rice germplasm by amplification of pooled DNA and deeply parallel sequencing<sup>†</sup>

Masouleh, Ardashir Kharabian; Waters, Daniel Le; Reinke, Russell; Henry, Robert J.

doi:10.1111/j.1467-7652.2011.00629.x

Cited by 53 publications

(50 citation statements)

References 80 publications

(109 reference statements)

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“…Roth et al (2006)31 have used the ratio of non-synonymous to synonymous SNPs (Ka/Ks ratio) for predicting the nature of selection on individual genes. Using the same criteria, the SSIIa gene was found to be under neutral conditions of evolution in indica (this study) as well as japonica rice32. The other SSRGs were found to be still evolving under positive or negative selection.…”

Section: Discussionmentioning

confidence: 61%

Whole genome sequencing and analysis of Swarna, a widely cultivated indica rice variety with low glycemic index

Rathinasabapathi

Natarajan

et al. 2015

Sci Rep

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Swarna is a popular cultivated indica rice variety with low glycemic index (GI) but its genetic basis is not known. The whole genome of Swarna was sequenced using Illumina’s paired-end technology, and the reads were mapped to the Nipponbare reference genome. Overall, 65,984 non-synonymous SNPs were identified in 20,350 genes, and in silico analysis predicted that 4,847 of them in 2,214 genes may have deleterious effect on protein functions. Polymorphisms were found in all the starch biosynthesis genes, except the gene for branching enzyme IIa. It was found that T/G SNP at position 246, ‘A’ at position 2,386, and ‘C’ at position 3,378 in the granule bound starch synthase I gene, and C/T SNP at position 1,188 in the glucose-6-phosphate translocator gene may contribute to the low GI phenotype in Swarna. All these variants were also found in the genome of another low GI indica rice variety from Columbia, Fedearroz 50. The whole genome analysis of Swarna helped to understand the genetic basis of GI in rice, which is a complex trait involving multiple factors.

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Section: Discussionmentioning

confidence: 61%

Whole genome sequencing and analysis of Swarna, a widely cultivated indica rice variety with low glycemic index

Rathinasabapathi

Natarajan

et al. 2015

Sci Rep

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“…Targeted haplotyping of starch biosynthesis genes has previously provided insights into the functional properties of rice grains (Kharabian-Masouleh et al, 2011. A major starch biosynthesis gene found in this study to be in LD with the topmost significant SNP is GBSSI.…”

Section: Gbssi Allele Mining Revealed Additional Snps Associated Withmentioning

confidence: 82%

Systems Genetics Identifies a Novel Regulatory Domain of Amylose Synthesis

et al. 2016

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A deeper understanding of the regulation of starch biosynthesis in rice (Oryza sativa) endosperm is crucial in tailoring digestibility without sacrificing grain quality. In this study, significant association peaks on chromosomes 6 and 7 were identified through a genomewide association study (GWAS) of debranched starch structure from grains of a 320 indica rice diversity panel using genotyping data from the high-density rice array. A systems genetics approach that interrelates starch structure data from GWAS to functional pathways from a gene regulatory network identified known genes with high correlation to the proportion of amylose and amylopectin. An SNP in the promoter region of Granule Bound Starch Synthase I was identified along with seven other SNPs to form haplotypes that discriminate samples into different phenotypic ranges of amylose. A GWAS peak on chromosome 7 between LOC_Os07g11020 and LOC_Os07g11520 indexed by a nonsynonymous SNP mutation on exon 5 of a bHLH transcription factor was found to elevate the proportion of amylose at the expense of reduced short-chain amylopectin. Linking starch structure with starch digestibility by determining the kinetics of cooked grain amylolysis of selected haplotypes revealed strong association of starch structure with estimated digestibility kinetics. Combining all results from grain quality genomics, systems genetics, and digestibility phenotyping, we propose target haplotypes for fine-tuning starch structure in rice through marker-assisted breeding that can be used to alter the digestibility of rice grain, thus offering rice consumers a new diet-based intervention to mitigate the impact of nutrition-related noncommunicable diseases.

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“…Discovery of genes controlling important biomass composition traits may now be easily achieved by association of variation in the traits in plant populations with gene sequences [7], determined by targeted amplicon sequencing [8], enriched genome sequencing [9], transcriptome sequencing [10] or whole genome resequencing [11]. The strategies used will depend upon the availability of knowledge about the trait or species of interest.…”

Section: Plantsmentioning

confidence: 99%

Advances in DNA sequencing enabling more rapid development of improved biomass and biofuel conversion technologies

Henry¹

2012

Biofuels

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Discovery of polymorphisms in starch‐related genes in rice germplasm by amplification of pooled DNA and deeply parallel sequencing^†

Cited by 53 publications

References 80 publications

Whole genome sequencing and analysis of Swarna, a widely cultivated indica rice variety with low glycemic index

Whole genome sequencing and analysis of Swarna, a widely cultivated indica rice variety with low glycemic index

Systems Genetics Identifies a Novel Regulatory Domain of Amylose Synthesis

Advances in DNA sequencing enabling more rapid development of improved biomass and biofuel conversion technologies

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Discovery of polymorphisms in starch‐related genes in rice germplasm by amplification of pooled DNA and deeply parallel sequencing†

Cited by 53 publications

References 80 publications

Whole genome sequencing and analysis of Swarna, a widely cultivated indica rice variety with low glycemic index

Whole genome sequencing and analysis of Swarna, a widely cultivated indica rice variety with low glycemic index

Systems Genetics Identifies a Novel Regulatory Domain of Amylose Synthesis

Advances in DNA sequencing enabling more rapid development of improved biomass and biofuel conversion technologies

Contact Info

Product

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About

Discovery of polymorphisms in starch‐related genes in rice germplasm by amplification of pooled DNA and deeply parallel sequencing^†