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A novel waxy allele in sorghum landraces in East Asia
Author(s) -
Kawahigashi Hiroyuki,
Oshima Masao,
Nishikawa Tomotaro,
Okuizumi Hisahito,
Kasuga Shigemitsu,
Yonemaru Junichi
Publication year - 2013
Publication title -
plant breeding
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.583
H-Index - 71
eISSN - 1439-0523
pISSN - 0179-9541
DOI - 10.1111/pbr.12054
Subject(s) - starch synthase , biology , amylopectin , allele , amylose , endosperm , genetics , sorghum , exon , germplasm , starch , genotype , gene , botany , biochemistry , agronomy
A loss of granule‐bound starch synthase I ( GBSS I) activity results in starch granules that contain mostly amylopectin and little or no amylose, a phenotype described as waxy. Previously, two phenotypic classes of waxy alleles, wx a , associated with no detectable GBSS I, and wx b , associated with apparently inactive GBSS I in the endosperm, were reported in sorghum ( Sorghum bicolor (L.) Moench). In this study, the waxy alleles in a sorghum core collection were investigated using DNA markers. Of the 337 sorghum accessions examined, 17 accessions that were confirmed to be waxy by a negative iodine staining result and 16 were found to be wx a . A novel waxy allele, wx c , was found in a Taiwanese landrace. This allele consists of a +1G to C mutation in the 5′ splice site at the intron 10–exon 11 boundary, a mutation that most likely resulted in the suppression of GBSS I gene expression. A DNA marker specific for wx c was produced to distinguish the wx c allele from other alleles, allowing the identification of heterozygous non‐waxy plants.