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Role of GBSS allelic diversity in rice grain quality

Amylose content is generally the most important factor determining rice eating and
cooking quality. Commercial rice varieties are, in fact, placed into market classes based
on having “zero” (0-7%), low (10-20), intermediate (20-25%), or high (>25%) apparent
amylose. This study demonstrates that the single-nucleotide polymorphisms (SNP) in
the exon 1 (G->T) and in exon 6 (A->C) of GBSS can be used as markers to efficiently
distinguish the amylose classes. These two SNPs accounted for 89.2% of the variation
in apparent amylose content in a pedigree of 89 US rice varieties and 93.8% of the
variation among 279 accessions in a European germplasm collection. All low amylose
varieties had the T allele of exon 1. All intermediate amylose varieties had the G allele
of exon 1 and the C allele of exon 6. All high amylose varieties had the G allele of exon
1 and the A allele of exon 6. In contrast to previous reports, the amylose content of rice
varieties in West Africa was also largely determined by GBSS alleles, which accounted
for 93.3% of the variation among 77 samples from West Africa Rice Development
Association. GBSS gene from O. glaberrima was found to lack a transposon in exon 10
and have an additional polymorphism (G->A) in exon 12, but these do not significantly
alter amylose content.
The study also shows that some GBSS genes from high amylose varieties contain an
additional C->T polymorphism in exon 10. This SNP does not significantly alter amylose content, but alters rice starch pasting properties. Traditional RVA analysis of
starch pasting properties is complicated by differences in the shear forces between
samples. However a simple method was developed to overcome this problem and it was
shown that starch granules from rice varieties with the T allele of exon 10 are notably
more shear resistant. Amylose and the SNP in exons 1, 6 and 10 of GBSS also played a
key role in starch re-association. They accounted for 81 and 71.5%, respectively, of the
variation in “gel hardness” of RVA samples which have been allowed to incubate at
room temperature for 24 hours.

Identiferoai:union.ndltd.org:tamu.edu/oai:repository.tamu.edu:1969.1/ETD-TAMU-1159
Date15 May 2009
CreatorsDobo, Macaire
ContributorsWilliam, Park D.
Source SetsTexas A and M University
Languageen_US
Detected LanguageEnglish
TypeBook, Thesis, Electronic Dissertation, text
Formatelectronic, application/pdf, born digital

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