1. Mutations in wheat starch synthase II genes and PCR-based selection of a SGP-1 null line
- Author
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Y. Seto, Jun-ichi Yonemaru, H. Yasuda, Mika Saito, Patricia Vrinten, Toshiki Nakamura, and T. Shimbata
- Subjects
Genetic Markers ,Transposable element ,Molecular Sequence Data ,Locus (genetics) ,Breeding ,Biology ,Exon ,Starch Synthase ,Genetics ,Amino Acid Sequence ,Allele ,Gene ,Alleles ,Triticum ,DNA Primers ,Plant Proteins ,Base Sequence ,Intron ,food and beverages ,Sequence Analysis, DNA ,General Medicine ,Null allele ,Molecular biology ,Gene Components ,Mutation ,biology.protein ,Electrophoresis, Polyacrylamide Gel ,Starch synthase ,Agronomy and Crop Science ,Biotechnology - Abstract
Wheat (Triticum aestivum L.) starch synthase II, which is also known as starch granule protein 1 (SGP-1), plays a major role in endosperm starch synthesis. The three SGP-1 proteins, SGP-A1, B1 and D1, are produced by three homoeologous SSII genes, wSSII-A, B, and D. Lines carrying null alleles for each SGP-1 protein have previously been identified. In this report, the mutations occurring in each wSSII gene were characterized, and PCR-based DNA markers capable of detecting the mutations were developed. In the null wSSII-A allele, a 289 bp deletion accompanied by 8 bp of filler DNA was present near the initiation codon. A 175 bp insertion occurred in exon 8 of the null wSSII-B allele. The insertion represented a recently discovered miniature inverted-repeat transposable element (MITE) named Hikkoshi that was first found in a wheat waxy gene. A 63 bp deletion was found at the region surrounding the junction of the fifth exon and intron of the null wSSII-D allele. Based on this information, we designed primer sets to enable us to conduct allele-specific amplifications for each locus. The applicability of these primer sets for breeding programs was demonstrated by reconstructing a line lacking all three SGP-1 proteins using marker-assisted selection. These markers will also be useful in breeding programs aimed at obtaining partial mutants missing one or two SGP-1 proteins.
- Published
- 2005
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