| Literature DB >> 29401409 |
Yan-Jie Zhou1, Qiang Yang1, Xiao-Juan Zhong1, Hua-Ping Tang1, Mei Deng1, Jian Ma1, Peng-Fei Qi1, Ji-Rui Wang1, Guo-Yue Chen1, Ya-Xi Liu1, Zhen-Xiang Lu2, Wei Li3, Xiu-Jin Lan1, Yu-Ming Wei1, You-Liang Zheng1, Qian-Tao Jiang1.
Abstract
We evaluated the SGP-1 protein composition of 368 Chinese wheat landraces using SDS-PAGE. The SGP-D1 null type was identified in three accessions (Xiaoqingmang, Pushanbamai, and P119). An 18-bp deletion and 9-bp variation were found at the junction region of the 7th intron and 8th exon, leading to deletion of the intron-exon junction recognition site AG when aligned the 8261-bp DNA sequence of TaSSIIa-D in Pushanbamai with that of Chinese Spring. Four cDNA types with mis-spliced isoforms were subsequently detected through amplification of TaSSIIa-D cDNAs. Among these, nine type II cDNAs with a 16-bp deletion in the 8th exon were detected, indicating that the major transcriptional pattern of TaSSIIa in Pushanbamai is type II. In the type IV cDNA, a 97-bp sequence remains undeleted in the end of the 5th exon. The amylose content in Pushanbamai was significantly higher than that in all control lines under field conditions, which suggested that deletion of SGP-D1 has an efficient impact on amylose content. As the TaSSIIa gene plays an important role in regulating the content of amylose, it is anticipated that these natural variants of TaSSIIa-D will provide useful resources for quality improvement in wheat.Entities:
Keywords: Chinese wheat landrace; TaSSIIa; alternative splicing; amidon; amylose; starch; variété de pays chinoise du blé; épissage alternatif
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Year: 2018 PMID: 29401409 DOI: 10.1139/gen-2017-0246
Source DB: PubMed Journal: Genome ISSN: 0831-2796 Impact factor: 2.166