Author: "Tian, Yunlu" - Searchworks@Jio Institute Digital Library Search Results

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228 results on '"Tian, Yunlu"'

1. OsSRF8 interacts with OsINP1 and OsDAF1 to regulate pollen aperture formation in rice

Author: Chen, Keyi, Wang, Qiming, Yu, Xiaowen, Wang, Chaolong, Gao, Junwen, Zhang, Shihao, Cheng, Siqi, You, Shimin, Zheng, Hai, Lu, Jiayu, Zhu, Xufei, Lei, Dekun, Jian, Anqi, He, Xiaodong, Yu, Hao, Chen, Yun, Zhou, Mingli, Li, Kai, He, Ling, Tian, Yunlu, Liu, Xi, Liu, Shijia, Jiang, Ling, Bao, Yiqun, Wang, Haiyang, Zhao, Zhigang, and Wan, Jianmin
Published: 2024
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2. Rice floury endosperm26 encoding a mitochondrial single-stranded DNA-binding protein is essential for RNA-splicing of mitochondrial genes and endosperm development

Author: Teng, Xuan, Wang, Yongfei, Liu, Linglong, Yang, Hang, Wu, Mingming, Chen, Xiaoli, Ren, Yulong, Wang, Yunlong, Duan, Erchao, Dong, Hui, Jiang, Ling, Zhang, Yuanyan, Zhang, Wenwei, Chen, Rongbo, Liu, Shijia, Liu, Xi, Tian, Yunlu, Chen, Liangming, Wang, Yihua, and Wan, Jianmin
Published: 2024
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3. Engineer and split an efficient hypercompact CRISPR–CasΦ genome editor in plants

Author: Sun, Yan, Hu, Jianjian, Hu, Zhichao, Zhou, Hejie, Gao, Yuhong, Liu, Yini, Ji, Yuan, Xu, Gencheng, Guo, Yifan, Zhang, Yuanyan, Tian, Yunlu, Liu, Xi, Zhou, Shirong, Liu, Yuqiang, Li, Tingdong, Li, Chao, and Wan, Jianmin
Published: 2024
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4. The RNA binding protein EHD6 recruits the m6A reader YTH07 and sequesters OsCOL4 mRNA into phase-separated ribonucleoprotein condensates to promote rice flowering

Author: Cui, Song, Song, Peizhe, Wang, Chaolong, Chen, Saihua, Hao, Benyuan, Xu, Zhuang, Cai, Liang, Chen, Xu, Zhu, Shanshan, Gan, Xiangchao, Dong, Hui, Hu, Yuan, Zhou, Liang, Hou, Haigang, Tian, Yunlu, Liu, Xi, Chen, Liangming, Liu, Shijia, Jiang, Ling, Wang, Haiyang, Jia, Guifang, Zhou, Shirong, and Wan, Jianmin
Published: 2024
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5. A toxin-antidote system contributes to interspecific reproductive isolation in rice

Author: You, Shimin, Zhao, Zhigang, Yu, Xiaowen, Zhu, Shanshan, Wang, Jian, Lei, Dekun, Zhou, Jiawu, Li, Jing, Chen, Haiyuan, Xiao, Yanjia, Chen, Weiwei, Wang, Qiming, Lu, Jiayu, Chen, Keyi, Zhou, Chunlei, Zhang, Xin, Cheng, Zhijun, Guo, Xiuping, Ren, Yulong, Zheng, Xiaoming, Liu, Shijia, Liu, Xi, Tian, Yunlu, Jiang, Ling, Tao, Dayun, Wu, Chuanyin, and Wan, Jianmin
Published: 2023
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6. A natural gene drive system confers reproductive isolation in rice

Author: Wang, Chaolong, Wang, Jian, Lu, Jiayu, Xiong, Yehui, Zhao, Zhigang, Yu, Xiaowen, Zheng, Xiaoming, Li, Jing, Lin, Qibing, Ren, Yulong, Hu, Yang, He, Xiaodong, Li, Chao, Zeng, Yonglun, Miao, Rong, Guo, Mali, Zhang, Bosen, Zhu, Ying, Zhang, Yunhui, Tang, Weijie, Wang, Yunlong, Hao, Benyuan, Wang, Qiming, Cheng, Siqi, He, Xiaojuan, Yao, Bowen, Gao, Junwen, Zhu, Xufei, Yu, Hao, Wang, Yong, Sun, Yan, Zhou, Chunlei, Dong, Hui, Ma, Xiaoding, Guo, Xiuping, Liu, Xi, Tian, Yunlu, Liu, Shijia, Wang, Chunming, Cheng, Zhijun, Jiang, Ling, Zhou, Jiawu, Guo, Huishan, Jiang, Liwen, Tao, Dayun, Chai, Jijie, Zhang, Wei, Wang, Haiyang, Wu, Chuanyin, and Wan, Jianmin
Published: 2023
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7. The N6-methyladenosine binding proteins YTH03/05/10 coordinately regulate rice plant height

Author: Cai, Long, Cui, Song, Jin, Tao, Huang, Xiaolong, Hou, Haigang, Hao, Benyuan, Xu, Zhuang, Cai, Liang, Hu, Yuan, Yang, Xue, Zhou, Lei, Yu, Ting, Tian, Yunlu, Liu, Xi, Chen, Liangming, Liu, Shijia, Jiang, Ling, Zhou, Shirong, and Wan, Jianmin
Published: 2023
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8. FLOURY AND SHRUNKEN ENDOSPERM6 Encodes a Glycosyltransferase and is Essential for the Development of Rice Endosperm

Author: Yang, Hang, Liu, Linglong, Wu, Kai, Liu, Shijia, Liu, Xi, Tian, Yunlu, Wang, Yunlong, Duan, Erchao, Lei, Jie, Bao, Xiuhao, Chen, Rongbo, Chen, Xiaoli, Ji, Yi, Zhang, Yu, Wang, Yihua, and Wan, Jianmin
Published: 2022
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9. Post-transcriptional regulation of Ghd7 protein stability by phytochrome and OsGI in photoperiodic control of flowering in rice

Author: Zheng, Tianhui, Sun, Juan, Zhou, Shirong, Chen, Saihua, Lu, Jian, Cui, Song, Tian, Yunlu, Zhang, Huan, Cai, Maohong, Zhu, Shanshan, Wu, Mingming, Wang, Yihua, Jiang, Ling, Zhai, Huqu, Wang, Haiyang, and Wan, Jianmin
Published: 2019

10. A functional chromogen gene C from wild rice is involved in a different anthocyanin biosynthesis pathway in indica and japonica

Author: Qiao, Weihua, Wang, Yanyan, Xu, Rui, Yang, Ziyi, Sun, Yan, Su, Long, Zhang, Lizhen, Wang, Junrui, Huang, Jingfen, Zheng, Xiaoming, Liu, Shijia, Tian, Yunlu, Chen, Liangming, Liu, Xi, Lan, Jinhao, and Yang, Qingwen
Published: 2021
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11. Global warming and shifts in cropping systems together reduce China's rice production

Author: Chen, Changqing, van Groenigen, Kees Jan, Yang, Huiyi, Hungate, Bruce A., Yang, Bing, Tian, Yunlu, Chen, Jin, Dong, Wenjun, Huang, Shan, Deng, Aixing, Jiang, Yu, and Zhang, Weijian
Published: 2020
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12. Fine‐tuning rice heading date through multiplex editing of the regulatory regions of key genes by CRISPR‐Cas9

Author: Zhou, Shirong, primary, Cai, Liang, additional, Wu, Haoqin, additional, Wang, Baoxiang, additional, Gu, Biao, additional, Cui, Song, additional, Huang, Xiaolong, additional, Xu, Zhuang, additional, Hao, Benyuan, additional, Hou, Haigang, additional, Hu, Yuan, additional, Li, Chao, additional, Tian, Yunlu, additional, Liu, Xi, additional, Chen, Liangming, additional, Liu, Shijia, additional, Jiang, Ling, additional, and Wan, Jianmin, additional
Published: 2023
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13. Heterosis-associated genes confer high yield in super hybrid rice

Author: Lin, Tianzi, Zhou, Cong, Chen, Gaoming, Yu, Jun, Wu, Wei, Ge, Yuwei, Liu, Xiaolan, Li, Jin, Jiang, Xingzhou, Tang, Weijie, Tian, Yunlu, Zhao, Zhigang, Zhu, Chengsong, Wang, Chunming, and Wan, Jianmin
Published: 2020
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14. Rice FLOURY SHRUNKEN ENDOSPERM 5 Encodes a Putative Plant Organelle RNA Recognition Protein that Is Required for cis-Splicing of Mitochondrial nad4 Intron 1

Author: Wang, Liang, Zhang, Wenwei, Liu, Shijia, Tian, Yunlu, Liu, Xi, Yan, Haigang, Cai, Yue, Teng, Xuan, Dong, Hui, Chen, Rongbo, Jiang, Xiaokang, Wang, Yihua, and Wan, Jianmin
Published: 2021
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15. A cyclic nucleotide-gated channel mediates cytoplasmic calcium elevation and disease resistance in rice

Author: Wang, Jiachang, Liu, Xi, Zhang, An, Ren, Yulong, Wu, Fuqing, Wang, Gang, Xu, Yang, Lei, Cailin, Zhu, Shanshan, Pan, Tian, Wang, Yongfei, Zhang, Huan, Wang, Fan, Tan, Yan-Qiu, Wang, Yupeng, Jin, Xin, Luo, Sheng, Zhou, Chunlei, Zhang, Xiao, Liu, Jinling, Wang, Shuai, Meng, Lingzhi, Wang, Yihua, Chen, Xi, Lin, Qibing, Zhang, Xin, Guo, Xiuping, Cheng, Zhijun, Wang, Jiulin, Tian, Yunlu, Liu, Shijia, Jiang, Ling, Wu, Chuanyin, Wang, Ertao, Zhou, Jian-Min, Wang, Yong-Fei, Wang, Haiyang, and Wan, Jianmin
Published: 2019
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16. Fine‐tuning rice heading date through multiplex editing of the regulatory regions of key genes by CRISPR‐Cas9.

Author: Zhou, Shirong, Cai, Liang, Wu, Haoqin, Wang, Baoxiang, Gu, Biao, Cui, Song, Huang, Xiaolong, Xu, Zhuang, Hao, Benyuan, Hou, Haigang, Hu, Yuan, Li, Chao, Tian, Yunlu, Liu, Xi, Chen, Liangming, Liu, Shijia, Jiang, Ling, and Wan, Jianmin
Subjects: CULTIVARS, GENOME editing, CRISPRS, FLOWERING time, PROMOTERS (Genetics), FIELD research
Abstract: Summary: Heading date (or flowering time) is a key agronomic trait that affects seasonal and regional adaption of rice cultivars. An unoptimized heading date can either not achieve a high yield or has a high risk of encountering abiotic stresses. There is a strong demand on the mild to moderate adjusting the heading date in breeding practice. Genome editing is a promising method which allows more precise and faster changing the heading date of rice. However, direct knock out of major genes involved in regulating heading date will not always achieve a new germplasm with expected heading date. It is still challenging to quantitatively adjust the heading date of elite cultivars with best adaption for broader region. In this study, we used a CRISPR‐Cas9 based genome editing strategy called high‐efficiency multiplex promoter‐targeting (HMP) to generate novel alleles at cis‐regulatory regions of three major heading date genes: Hd1, Ghd7 and DTH8. We achieved a series of germplasm with quantitative variations of heading date by editing promoter regions and adjusting the expression levels of these genes. We performed field trials to screen for the best adapted lines for different regions. We successfully expanded an elite cultivar Ningjing8 (NJ8) to a higher latitude region by selecting a line with a mild early heading phenotype that escaped from cold stress and achieved high yield potential. Our study demonstrates that HMP is a powerful tool for quantitatively regulating rice heading date and expanding elite cultivars to broader regions. [ABSTRACT FROM AUTHOR]
Published: 2024
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17. Corrigendum : WSL5, a pentatricopeptide repeat protein, is essential for chloroplast biogenesis in rice under cold stress

Author: Liu, Xi, Lan, Jie, Huang, Yunshuai, Cao, Penghui, Zhou, Chunlei, Ren, Yaken, He, Niqing, Liu, Shijia, Tian, Yunlu, Nguyen, Thanhliem, Jiang, Ling, and Wan, Jianmin
Published: 2018

18. WSL5, a pentatricopeptide repeat protein, is essential for chloroplast biogenesis in rice under cold stress

Author: Liu, Xi, Lan, Jie, Huang, Yunshuai, Cao, Penghui, Zhou, Chunlei, Ren, Yaken, He, Niqing, Liu, Shijia, Tian, Yunlu, Nguyen, Thanhliem, Jiang, Ling, and Wan, Jianmin
Published: 2018

19. A selfish genetic element confers non-Mendelian inheritance in rice

Author: Yu, Xiaowen, Zhao, Zhigang, Zheng, Xiaoming, Zhou, Jiawu, Kong, Weiyi, Wang, Peiran, Bai, Wenting, Zheng, Hai, Zhang, Huan, Li, Jing, Liu, Jiafan, Wang, Qiming, Zhang, Long, Liu, Kai, Yu, Yang, Guo, Xiuping, Wang, Jiulin, Lin, Qibing, Wu, Fuqing, Ren, Yulong, Zhu, Shanshan, Zhang, Xin, Cheng, Zhijun, Lei, Cailin, Liu, Shijia, Liu, Xi, Tian, Yunlu, Jiang, Ling, Ge, Song, Wu, Chuanyin, Tao, Dayun, Wang, Haiyang, and Wan, Jianmin
Published: 2018

20. FLOURY SHRUNKEN ENDOSPERM1 Connects Phospholipid Metabolism and Amyloplast Development in Rice

Author: Long, Wuhua, Wang, Yunlong, Zhu, Susong, Jing, Wen, Wang, Yihua, Ren, Yulong, Tian, Yunlu, Liu, Shijia, Liu, Xi, Chen, Liangming, Di Wang, Zhong, Mingsheng, Zhang, Yuanyan, Hu, Tingting, Zhu, Jianping, Hao, Yuanyuan, Zhu, Xiaopin, Zhang, Wenwei, Wang, Chunming, Zhang, Wenhua, and Wan, Jianmin
Published: 2018

21. WSL6 encoding an Era-type GTP-binding protein is essential for chloroplast development in rice

Author: Sun, Yinglun, Tian, Yunlu, Cheng, Shuhan, Wang, Yunlong, Hao, Yuanyuan, Zhu, Jianping, Zhu, Xiaopin, Zhang, Yuanyan, Yu, Mingzhou, Lei, Jie, Bao, Xiuhao, Wu, Hongming, Wang, Yihua, and Wan, Jianmin
Published: 2019
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22. OsNDUFA9 encoding a mitochondrial complex I subunit is essential for embryo development and starch synthesis in rice

Author: Hu, Tingting, Tian, Yunlu, Zhu, Jianping, Wang, Yunlong, Jing, Ruonan, Lei, Jie, Sun, Yinglun, Yu, Yanfang, Li, Jingfang, Chen, Xiaoli, Zhu, Xiaopin, Hao, Yuanyuan, Liu, Linglong, Wang, Yihua, and Wan, Jianmin
Published: 2018
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23. A Plastid RNA Polymerase-Associated Protein Is Involved in Early Chloroplast Development in Rice

Author: Song, Shuang, primary, Wang, Ying, additional, Ding, Xin, additional, Tian, Yunlu, additional, Wu, Zewan, additional, Li, Hang, additional, Li, Qing, additional, Wang, Yunpeng, additional, Zhou, Shirong, additional, Dong, Xiaoou, additional, Wan, Jianmin, additional, and Liu, Linglong, additional
Published: 2023
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24. Fine mapping of qSdr9, a novel locus for seed dormancy (SD) in weedy rice, and development of NILs with a strong SD allele

Author: Nguyen, Thanhliem, Fu, Kai, Mou, Changling, Yu, Jiangfeng, Zhu, Xingjie, Huang, Yunshuai, Zhou, Chunlei, Hao, Qixian, Zhang, Fulin, Song, Weihan, Wang, Ping, Chen, Yaping, Ma, Tengfei, Tian, Yunlu, Liu, Shijia, Jiang, Ling, and Wan, Jianmin
Published: 2020
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25. Identification and genetic analysis of qCL1.2, a novel allele of the “green revolution” gene SD1 from wild rice (Oryza rufipogon) that enhances plant height

Author: Zhang, Lizhen, Huang, Jingfen, Wang, Yanyan, Xu, Rui, Yang, Ziyi, Zhao, Zhigang, Liu, Shijia, Tian, Yunlu, Zheng, Xiaoming, Li, Fei, Wang, Junrui, Song, Yue, Li, Jiaqi, Cui, Yongxia, Zhang, Li-Fang, Cheng, Yunlian, Lan, Jinhao, Qiao, Weihua, and Yang, Qingwen
Published: 2020
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26. Genome-wide associated study identifies NAC42-activated nitrate transporter conferring high nitrogen use efficiency in rice

Author: Tang, Weijie, Ye, Jian, Yao, Xiangmei, Zhao, Pingzhi, Xuan, Wei, Tian, Yunlu, Zhang, Yuanyan, Xu, Shuang, An, Hongzhou, Chen, Gaoming, Yu, Jun, Wu, Wei, Ge, Yuwei, Liu, Xiaolan, Li, Jin, Zhang, Hanzhi, Zhao, Yaqin, Yang, Bing, Jiang, Xingzhou, Peng, Chao, Zhou, Cong, Terzaghi, William, Wang, Chunming, and Wan, Jianmin
Published: 2019
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27. OsPPR6, a pentatricopeptide repeat protein involved in editing and splicing chloroplast RNA, is required for chloroplast biogenesis in rice

Author: Tang, Jianpeng, Zhang, Wenwei, Wen, Kai, Chen, Gaoming, Sun, Juan, Tian, Yunlu, Tang, Weijie, Yu, Jun, An, Hongzhou, Wu, Tingting, Kong, Fei, Terzaghi, William, Wang, Chunming, and Wan, Jianmin
Published: 2017
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28. Isolation and Characterization of SPOTTED LEAF42 Encoding a Porphobilinogen Deaminase in Rice

Author: Liu, Lin, primary, Wang, Yunpeng, additional, Tian, Yunlu, additional, Song, Shuang, additional, Wu, Zewan, additional, Ding, Xin, additional, Zheng, Hai, additional, Huang, Yunshuai, additional, Liu, Shijia, additional, Dong, Xiaoou, additional, Wan, Jianmin, additional, and Liu, Linglong, additional
Published: 2023
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29. Rice FLOURY ENDOSPERM22 , encoding a pentatricopeptide repeat protein, is involved in both mitochondrial RNA splicing and editing and is crucial for endosperm development

Author: Yang, Hang, primary, Wang, Yunlong, additional, Tian, Yunlu, additional, Teng, Xuan, additional, Lv, Zehui, additional, Lei, Jie, additional, Duan, Erchao, additional, Dong, Hui, additional, Yang, Xue, additional, Zhang, Yuanyan, additional, Sun, Yinglun, additional, Chen, Xiaoli, additional, Bao, Xiuhao, additional, Chen, Rongbo, additional, Gu, Chuanwei, additional, Zhang, Yipeng, additional, Jiang, Xiaokang, additional, Ma, Wenyu, additional, Zhang, Pengcheng, additional, Ji, Yi, additional, Zhang, Yu, additional, Wang, Yihua, additional, and Wan, Jianmin, additional
Published: 2023
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30. Tetrapyrrole biosynthesis pathway regulates plastid-to-nucleus signaling by controlling plastid gene expression in plants

Author: Wang, Yunlong, primary, Wang, Yihua, additional, Zhu, Xiaopin, additional, Ren, Yulong, additional, Dong, Hui, additional, Duan, Erchao, additional, Teng, Xuan, additional, Zhao, Huanhuan, additional, Chen, Rongbo, additional, Chen, Xiaoli, additional, Lei, Jie, additional, Yang, Hang, additional, Tian, Yunlu, additional, Chen, Liangming, additional, Liu, Xi, additional, Liu, Shijia, additional, Jiang, Ling, additional, Wang, Haiyang, additional, and Wan, Jianmin, additional
Published: 2023
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31. Identification of QTL for seed dormancy from weedy rice and its application to elite rice cultivar ‘Ninggeng 4’

Author: Nguyen, Thanhliem, Zhou, Chunlei, Zhang, Tianyu, Yu, Jiangfeng, Miao, Rong, Huang, Yunshuai, Zhu, Xingjie, Song, Weihan, Liu, Xi, Mou, Changling, Lan, Jie, Liu, Shijia, Tian, Yunlu, Zhao, Zhigang, Jiang, Ling, and Wan, Jianmin
Published: 2019
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32. The N6-methyladenosine binding proteins YTH03/05/10 coordinately regulate rice plant height

Author: Cai, Long, primary, Cui, Song, additional, Jin, Tao, additional, Huang, Xiaolong, additional, Hou, Haigang, additional, Hao, Benyuan, additional, Xu, Zhuang, additional, Cai, Liang, additional, Hu, Yuan, additional, Yang, Xue, additional, Zhou, Lei, additional, Yu, Ting, additional, Tian, Yunlu, additional, Liu, Xi, additional, Chen, Liangming, additional, Liu, Shijia, additional, Jiang, Ling, additional, Zhou, Shirong, additional, and Wan, Jianmin, additional
Published: 2022
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33. Ribonuclease H‐like gene SMALL GRAIN2 regulates grain size in rice through brassinosteroid signaling pathway

Author: Huang, Yunshuai, primary, Dong, Hui, additional, Mou, Changling, additional, Wang, Ping, additional, Hao, Qixian, additional, Zhang, Min, additional, Wu, Hongmin, additional, Zhang, Fulin, additional, Ma, Tengfei, additional, Miao, Rong, additional, Fu, Kai, additional, Chen, Yaping, additional, Zhu, Ziyan, additional, Chen, Cheng, additional, Tong, Qikai, additional, Wang, Zhuoran, additional, Zhou, Shirong, additional, Liu, Xi, additional, Liu, Shijia, additional, Tian, Yunlu, additional, Jiang, Ling, additional, and Wan, Jianmin, additional
Published: 2022
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34. Auxin regulates source-sink carbohydrate partitioning and reproductive organ development in rice

Author: Zhao, Zhigang, primary, Wang, Chaolong, additional, Yu, Xiaowen, additional, Tian, Yunlu, additional, Wang, Wenxin, additional, Zhang, Yunhui, additional, Bai, Wenting, additional, Yang, Ning, additional, Zhang, Tao, additional, Zheng, Hai, additional, Wang, Qiming, additional, Lu, Jiayu, additional, Lei, Dekun, additional, He, Xiaodong, additional, Chen, Keyi, additional, Gao, Junwen, additional, Liu, Xi, additional, Liu, Shijia, additional, Jiang, Ling, additional, Wang, Haiyang, additional, and Wan, Jianmin, additional
Published: 2022
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35. Genome-wide association studies identify OsWRKY53 as a key regulator of salt tolerance in rice.

Author: Yu, Jun, Zhu, Chengsong, Xuan, Wei, An, Hongzhou, Tian, Yunlu, Wang, Baoxiang, Chi, Wenchao, Chen, Gaoming, Ge, Yuwei, Li, Jin, Dai, Zhaoyang, Liu, Yan, Sun, Zhiguang, Xu, Dayong, Wang, Chunming, and Wan, Jianmin
Subjects: GENOME-wide association studies, MITOGEN-activated protein kinases, SALT tolerance in plants, GENETIC variation, SALT, HALOPHYTES
Abstract: Salinity stress progressively reduces plant growth and productivity, while plant has developed complex signaling pathways to confront salt stress. However, only a few genetic variants have been identified to mediate salt tolerance in the major crop rice, and the molecular mechanism remains poorly understood. Here, we identify ten candidate genes associated with salt-tolerance (ST) traits by performing a genome-wide association analysis in rice landraces. We characterize two ST-related genes, encoding transcriptional factor OsWRKY53 and Mitogen-activated protein Kinase Kinase OsMKK10.2, that mediate root Na+ flux and Na+ homeostasis. We further find that OsWRKY53 acts as a negative modulator regulating expression of OsMKK10.2 in promoting ion homeostasis. Furthermore, OsWRKY53 trans-represses OsHKT1;5 (high-affinity K+transporter 1;5), encoding a sodium transport protein in roots. We show that the OsWRKY53-OsMKK10.2 and OsWRKY53-OsHKT1;5 module coordinate defenses against ionic stress. The results shed light on the regulatory mechanisms underlying plant salt tolerance. Only a few genetic variants have been identified to mediate salt tolerance in major crops and their molecular mechanisms are largely unknown. Here, the authors identify WRKY53 as a negative regulator of salt tolerance in rice, and show that it directly trans-regulates expression of MKK10.2 and HKT1;5 to meditate salt tolerance. [ABSTRACT FROM AUTHOR]
Published: 2023
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36. Association mapping and genetic dissection of nitrogen use efficiency-related traits in rice (Oryza sativa L.)

Author: Liu, Zhiyi, Zhu, Chengsong, Jiang, Yue, Tian, Yunlu, Yu, Jun, An, Hongzhou, Tang, Weijie, Sun, Juan, Tang, Jianpeng, Chen, Gaoming, Zhai, Huqu, Wang, Chunming, and Wan, Jianmin
Published: 2016
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37. Effect of rice panicle size on paddy field CH4 emissions

Author: Jiang, Yu, Tian, Yunlu, Sun, Yanni, Zhang, Yi, Hang, Xiaoning, Deng, Aixi, Zhang, Jun, and Zhang, Weijian
Published: 2016
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38. Genetic dissection of leaf-related traits using 156 chromosomal segment substitution lines

Author: Liu, Xi, Liu, Linglong, Xiao, Yinhui, Liu, Shijia, Tian, Yunlu, Chen, Liangming, Wang, Zhiquan, Jiang, Ling, Zhao, Zhigang, and Wan, Jianmin
Published: 2015
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39. OsTUB1 confers salt insensitivity by interacting with Kinesin13A to stabilize microtubules and ion transporters in rice

Author: Chen, Gaoming, primary, Xuan, Wei, additional, Zhao, Pingzhi, additional, Yao, Xiangmei, additional, Peng, Chao, additional, Tian, Yunlu, additional, Ye, Jian, additional, Wang, Baoxiang, additional, He, Jun, additional, Chi, Wenchao, additional, Yu, Jun, additional, Ge, Yuwei, additional, Li, Jin, additional, Dai, Zhaoyang, additional, Xu, Dayong, additional, Wang, Chunming, additional, and Wan, Jianmin, additional
Published: 2022
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40. Nuclear encoded elongation factor EF-Tu is required for chloroplast development in rice grown under low-temperature conditions

Author: Cai, Liang, primary, Liu, Zongkai, additional, Cai, Long, additional, Yan, Xiaofeng, additional, Hu, Yuan, additional, Hao, Benyuan, additional, Xu, Zhuang, additional, Tian, Yunlu, additional, Liu, Xi, additional, Liu, Linglong, additional, Jiang, Ling, additional, Zhou, Shirong, additional, and Wan, Jianmin, additional
Published: 2022
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41. Alternative splicing of OsGS1;1 affects nitrogen‐use efficiency, grain development, and amylose content in rice

Author: Liu, Xiaolan, primary, Tian, Yunlu, additional, Chi, Wenchao, additional, Zhang, Hanzhi, additional, Yu, Jun, additional, Chen, Gaoming, additional, Wu, Wei, additional, Jiang, Xingzhou, additional, Wang, Saisai, additional, Lin, Zhixi, additional, Xuan, Wei, additional, Ye, Jian, additional, Wang, Baoxiang, additional, Liu, Yan, additional, Sun, Zhiguang, additional, Xu, Dayong, additional, Wang, Chunming, additional, and Wan, Jianmin, additional
Published: 2022
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42. Evolution of Green Space Based on Remote Sensing Images in Zhengdong New District

Author: Xiao, Zhetao, primary, Tian, Yunlu, additional, and Hao, Lijun, additional
Published: 2022
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43. Plastidic pyruvate dehydrogenase complex E1 component subunit Alpha1 is involved in galactolipid biosynthesis required for amyloplast development in rice

Author: Lei, Jie, primary, Teng, Xuan, additional, Wang, Yongfei, additional, Jiang, Xiaokang, additional, Zhao, Huanhuan, additional, Zheng, Xiaoming, additional, Ren, Yulong, additional, Dong, Hui, additional, Wang, Yunlong, additional, Duan, Erchao, additional, Zhang, Yuanyan, additional, Zhang, Wenwei, additional, Yang, Hang, additional, Chen, Xiaoli, additional, Chen, Rongbo, additional, Zhang, Yu, additional, Yu, Mingzhou, additional, Xu, Shanbin, additional, Bao, Xiuhao, additional, Zhang, Pengcheng, additional, Liu, Shijia, additional, Liu, Xi, additional, Tian, Yunlu, additional, Jiang, Ling, additional, Wang, Yihua, additional, and Wan, Jianmin, additional
Published: 2021
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44. Nighttime Warming Will Increase Winter Wheat Yield Through Improving Plant Development and Grain Growth in North China

Author: Chen, Jin, Tian, Yunlu, Zhang, Xin, Zheng, Chengyan, Song, Zhenwei, Deng, Aixin, and Zhang, Weijian
Published: 2014
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45. BRITTLE PLANT1 is required for normal cell wall composition and mechanical strength in rice

Author: Zhang, Yuanyan, primary, Wang, Yihua, additional, Wang, Chunming, additional, Rautengarten, Carsten, additional, Duan, Erchao, additional, Zhu, Jianping, additional, Zhu, Xiaopin, additional, Lei, Jie, additional, Peng, Chao, additional, Wang, Yunlong, additional, Teng, Xuan, additional, Tian, Yunlu, additional, Liu, Xi, additional, Heazlewood, Joshua L., additional, Wu, Aimin, additional, and Wan, Jianmin, additional
Published: 2021
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46. FLOURY AND SHRUNKEN ENDOSPERM6 Encodes a Glycosyltransferase and is Essential for the Development of Rice Endosperm

Author: Yang, Hang, primary, Liu, Linglong, additional, Wu, Kai, additional, Liu, Shijia, additional, Liu, Xi, additional, Tian, Yunlu, additional, Wang, Yunlong, additional, Duan, Erchao, additional, Lei, Jie, additional, Bao, Xiuhao, additional, Chen, Rongbo, additional, Chen, Xiaoli, additional, Ji, Yi, additional, Zhang, Yu, additional, Wang, Yihua, additional, and Wan, Jianmin, additional
Published: 2021
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47. white panicle 2 encoding thioredoxin z , regulates plastid RNA editing by interacting with multiple organellar RNA editing factors in rice

Author: Wang, Yunlong, primary, Wang, Yihua, additional, Ren, Yulong, additional, Duan, Erchao, additional, Zhu, Xiaopin, additional, Hao, Yuanyuan, additional, Zhu, Jianping, additional, Chen, Rongbo, additional, Lei, Jie, additional, Teng, Xuan, additional, Zhang, Yuanyan, additional, Wang, Di, additional, Zhang, Xin, additional, Guo, Xiuping, additional, Jiang, Ling, additional, Liu, Shijia, additional, Tian, Yunlu, additional, Liu, Xi, additional, Chen, Liangming, additional, Wang, Haiyang, additional, and Wan, Jianmin, additional
Published: 2020
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48. A functional chromogen gene C from wild rice is involved in a different anthocyanin biosynthesis pathway in indica and japonica

Author: Qiao, Weihua, primary, Wang, Yanyan, additional, Xu, Rui, additional, Yang, Ziyi, additional, Sun, Yan, additional, Su, Long, additional, Zhang, Lizhen, additional, Wang, Junrui, additional, Huang, Jingfen, additional, Zheng, Xiaoming, additional, Liu, Shijia, additional, Tian, Yunlu, additional, Chen, Liangming, additional, Liu, Xi, additional, Lan, Jinhao, additional, and Yang, Qingwen, additional
Published: 2020
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49. Enhanced OsNLP4‐OsNiR cascade confers nitrogen use efficiency by promoting tiller number in rice

Author: Yu, Jun, primary, Xuan, Wei, additional, Tian, Yunlu, additional, Fan, Lei, additional, Sun, Juan, additional, Tang, Weijie, additional, Chen, Gaoming, additional, Wang, Baoxiang, additional, Liu, Yan, additional, Wu, Wei, additional, Liu, Xiaolan, additional, Jiang, Xingzhou, additional, Zhou, Cong, additional, Dai, Zhaoyang, additional, Xu, Dayong, additional, Wang, Chunming, additional, and Wan, Jianmin, additional
Published: 2020
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50. Rice Floury Shrunken Endosperm5 encodes a putative plant organelle RNA recognition protein that is required for cis-splicing of mitochondrial nad4 intron 1

Author: Wang, Liang, primary, Zhang, Wenwei, additional, Liu, Shijia, additional, Tian, Yunlu, additional, Liu, Xi, additional, Yan, Haigang, additional, Cai, Yue, additional, Teng, Xuan, additional, Dong, Hui, additional, Chen, Rongbo, additional, Jiang, Xiaokang, additional, Wang, Yihua, additional, and Wan, Jianmin, additional
Published: 2020
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