OsAAP6 functions as an important regulator of grain protein content and nutritional quality in rice

Bo Peng; Huili Kong; Yibo Li; Lingqiang Wang; Ming Zhong; Liang Sun; Guanjun Gao; Qinglu Zhang; Lijun Luo; Gongwei Wang; Weibo Xie; Junxiao Chen; Wen Yao; Yong Peng; Lei Lei; Xingmin Lian; Jinghua Xiao; Caiguo Xu; Xianghua Li; Yuqing He

doi:10.1038/ncomms5847

OsAAP6 functions as an important regulator of grain protein content and nutritional quality in rice

Bo Peng(Huazhong Agricultural University), Huili Kong(Huazhong Agricultural University), Yibo Li(Huazhong Agricultural University), Lingqiang Wang(Huazhong Agricultural University), Ming Zhong(Huazhong Agricultural University), Liang Sun(Huazhong Agricultural University), Guanjun Gao(Huazhong Agricultural University), Qinglu Zhang(Huazhong Agricultural University), Lijun Luo(Shanghai Agrobiological Gene Center), Gongwei Wang(Huazhong Agricultural University), Weibo Xie(Huazhong Agricultural University), Junxiao Chen(Huazhong Agricultural University), Wen Yao(Huazhong Agricultural University), Yong Peng(Huazhong Agricultural University), Lei Lei(Huazhong Agricultural University), Xingmin Lian(Huazhong Agricultural University), Jinghua Xiao(Huazhong Agricultural University), Caiguo Xu(Huazhong Agricultural University), Xianghua Li(Huazhong Agricultural University), Yuqing He(Huazhong Agricultural University)

Nature Communications

September 11, 2014

10.1038/ncomms5847

Cited by 371Open Access

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Abstract

Grains from cereals contribute an important source of protein to human food, and grain protein content (GPC) is an important determinant of nutritional quality in cereals. Here we show that the quantitative trait locus (QTL) qPC1 in rice controls GPC by regulating the synthesis and accumulation of glutelins, prolamins, globulins, albumins and starch. qPC1 encodes a putative amino acid transporter OsAAP6, which functions as a positive regulator of GPC in rice, such that higher expression of OsAAP6 is correlated with higher GPC. OsAAP6 greatly enhances root absorption of a range of amino acids and has effects on the distribution of various amino acids. Two common variations in the potential cis-regulatory elements of the OsAAP6 5'-untranslated region seem to be associated with GPC diversity mainly in indica cultivars. Our results represent the first step toward unravelling the mechanism of regulation underlying natural variation of GPC in rice.

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