Q
Qing Li
Publications - 8
Citations - 28
Qing Li is an academic researcher. The author has contributed to research in topics: Biology & Gene. The author has an hindex of 3, co-authored 8 publications receiving 28 citations.
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Journal ArticleDOI
Genome-wide association study and transcriptome analysis reveal new QTL and candidate genes for nitrogen‐deficiency tolerance in rice
Qing Li,Xueli Lu,Chang-Jian Wang,Lan Shen,Liping Dai,Jinli He,Long Yang,Peiyuan Li,Yifeng Hong,Qiang Zhang,Guojun Dong,Jiang Hu,Guangheng Zhang,Deyong Ren,Zhenyu Gao,Longbiao Guo,Qian Qian,Li Zhu,Dali Zeng +18 more
TL;DR: In this paper , a genome-wide association study (GWAS) was conducted to identify quantitative trait loci (QTL) or genes associated with low N response, using a diverse panel of 230 rice accessions.
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Integrated Multi-Omics Perspective to Strengthen the Understanding of Salt Tolerance in Rice
TL;DR: In this paper , the authors review the research progress of omics related to salt tolerance in rice and discuss how these advances will promote the innovations of salt-tolerant rice breeding, and expect that the integration of multi-omics salt tolerance data can accelerate the solution of the response mechanism of rice to salt stress, and lay a molecular foundation for precise breeding of salt tolerance.
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SEMI‐ROLLED LEAF 10 stabilizes catalase isozyme B to regulate leaf morphology and thermotolerance in rice (Oryza sativa L.)
Jiajia Wang,Jing Xu,Liang Wang,Men Zhou,Jinqiang Nian,Minmin Chen,Xueli Lu,Xiong-fei Liu,Zian Wang,Jiang Cen,Yiting Liu,Zhihai Zhang,Dali Zeng,Jiang Hu,Li Zhu,Guojun Dong,Deyong Ren,Zhenyu Gao,Lan Shen,Qiang Zhang,Qing Li,Longbiao Guo,Sibin Yu,Qian Qian,Guangheng Zhang +24 more
TL;DR: In this article , a double-stranded RNA-binding protein (SRL10) was found to directly interact with catalase isozyme B (CATB), and the two proteins mutually increased one another's stability to enhance hydrogen peroxide scavenging, thereby contributing to thermotolerance.
Journal ArticleDOI
OsPPR11 encoding P-type PPR protein that affects group II intron splicing and chloroplast development
Qiang Zhang,Chang-Hung Chen,Yaliang Wang,Mengxing He,Zhiwen Li,Lan Shen,Qing Li,Li Zhu,Deyong Ren,Jiang Hu,Zhenyu Gao,Guangheng Zhang,Qian Qian +12 more
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OsPPR9 encodes a DYW-type PPR protein that affects editing efficiency of multiple RNA editing sites and is essential for chloroplast development
Chang-zhao Chen,Ya-Liang Wang,Mengxing He,Zhi-wen Li,Lan Shen,Qing Li,De-yong Re,Jiang Hu,Li Zhu,Guangheng Zhang,Zhenyu Gao,Dali Zeng,Longbiao Guo,Qian Qian,Qiang Zhang +14 more
TL;DR: Zhang et al. as discussed by the authors evaluated the functions of OsPPR9 in chloroplast RNA editing in rice and found that the loss of the protein function reduces the editing efficiency of rps8-C182, rpoC2-C4106, rps14-C80, and ndhB-C611 RNA editing sites.