Yangyang Liu
Chinese Academy of Sciences
9 Papers
4 Citations
Yangyang Liu is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Gene & Genome-wide association study. The author has an hindex of 1, co-authored 2 publications.
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Papers
A high-resolution genotype–phenotype map identifies the TaSPL17 controlling grain number and size in wheat
Yangyang Liu,Jun Chen,Changbin Yin,Ziying Wang,He Wu,Kuocheng Shen,Zhiliang Zhang,Lipeng Kang,Songjie Xu,Aoyue Bi,Xuebo Zhao,Daxing Xu,Zhonghu He,Xueyong Zhang,Chenyang Hao,Jianhua Wu,Yangcang Gong,Xuchang Yu,Zhiwen Sun,Botao Ye,Danni Liu,Lili Zhang,Li-qun Shen,Yuan Feng Hao,Youzhi Ma,Fei Lu,Zifeng Guo +26 more
TL;DR: It is proposed that the genetic dissection of spike morphology is a powerful strategy to detect signals for grain yield traits in wheat and provides valuable resources for genetic improvement of spike morphology and a fast-forward genetic solution for candidate gene detection and cloning in wheat.
15
Ppd-1 Remodels Spike Architecture by Regulating Floral Development in wheat
Yangyang Liu,Lili Zhang,Michael Melzer,Liping Shen,Zhiwen Sun,Ziying Wang,Thorsten Schnurbusch,Thorsten Schnurbusch,Zifeng Guo +8 more
TL;DR: It is concluded that Ppd-1 remodels spike architecture by regulating floral development in wheat by regulating autophagy and extended floret development by regulating genes in different families.
3
The wheat sucrose synthase gene TaSus1 is a major determinant of grain number per spike
Lili Zhang,Changbin Yin,Xiaowan Xu,Yangyang Liu,Kuocheng Shen,He Wu,Zhiwen Sun,Ke Wang,Zhonghu He,Xueyong Zhang,Chenyang Hao,Jian Hou,Aoyue Bi,Xuebo Zhao,Daxing Xu,Botao Ye,Xuchang Yu,Ziying Wang,Danni Liu,Yuanfeng Hao,Fei Lu,Zifeng Guo +21 more
TL;DR: This study identifies TaSus1 as a major determinant of grain number per spike in wheat, with two single-nucleotide polymorphisms contributing differently to grain number, and introgression of these alleles confirming their effects on grain yield.
1
A transcriptional atlas identifies key regulators and networks for the development of spike tissues in barley.
Liping Shen,Yangyang Liu,Lili Zhang,Zhiwen Sun,Ziying Wang,Yuannian Jiao,Kuocheng Shen,Zifeng Guo +7 more
TL;DR: This work uses a six-rowed barley cultivar to develop a spatiotemporal transcriptome atlas and shows HvGELP96, encoding a GDSL domain-containing protein, as a regulator of spikelet fertility and grain number.
1
Mining the potential of VRS1-5 gene to raise barley grain yield
Liping Shen,Yangyang Liu,Zhiwen Sun,Ziying Wang,Lili Zhang,Yu Cai,Yuannian Jiao,He Wu,Kuocheng Shen,Ping Yang,Zifeng Guo +10 more
TL;DR: P phenotypic measurements demonstrated that mutations in VRS1-5 suppress the initiation of spikelet primordia and, trigger spikelet abortion by increasing cytokinin content and improving sensitivity of spike let primordias to cytokinIn, illustrating how breeding can globally alter spike morphology through diversity at the VRS 1-5 genes, which show great potential in increasing barley grain yield.