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03-142025
Chromatin accessibility mediated by CHROMATIN REMODELING 11 promotes chilling tolerance in rice Li, Jing; Liu, He; Qian, Hanying; Lu, Shan; Wu, Yufeng; Hua, Jian; Zou, BaohongChromatin accessibility mediated by CHROMATIN REMODELING 11 promotes chilling tolerance in ricePLANT PHYSIOLOGY IF5=7.
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03-142025
The brassinosteroid signaling-related ILI-OsAIF-OsbHLH92 transcription factor module antagonistically controls leaf angle and grain size in rice Lu, Mingmin; Liu, Mingqian; Luo, Qin; He, Yubing; Tian, Yanan; Zhan, HuadongThe brassinosteroid signaling-related ILI-OsAIF-OsbHLH92 transcription factor module antagonistically controls leaf angle and grain size in ricePLANT PHYSIOLOGY IF5=7.
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03-142025
COBRA-LIKE 9 modulates cotton cell wall development via regulating cellulose deposition He, Qingfei; Yu, Yujia; Qin, Zhiguang; Duan, Yujia; Liu, Hanqiao; Li, Weixi; Song, Xiaohui; Zhu, Guozhong; Shang, Xiaoguang; Guo, WangzhenCOBRA-LIKE 9 modulates cotton cell wall development via regulating cellulose depositionPLANT PHYSIOLOGY IF5=7.
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03-142025
Phytochemicals of nutraceutical importance from different pear cultivars in the early stage of development Basit, Abdul; Mueed, Abdul; Min, Li; Niu Mingxu; Xin, Gong; Shahzad, Raheem; Yue, Wen; Jia, Tian; Tao ShutianPhytochemicals of nutraceutical importance from different pear cultivars in the early stage of developmentFOOD CHEMISTRY-X IF5=6.
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03-142025
RsWOX13 promotes taproot development by activating cell division and expansion and sucrose metabolism in radish Zhang, Xiaoli; Xu, Liang; Wang, Yan; He, Min; Xin, Ruixian; Yang, Zhihe; Chu, Wenjing; Ma, Yinbo; Chen, Yinglong; Wang, Lun; Liu, LiwangRsWOX13 promotes taproot development by activating cell division and expansion and sucrose metabolism in radishPLANT PHYSIOLOGY AND BIOCHEMISTRY IF5=6.
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03-142025
BcWRKY53 promotes chlorophyll biosynthesis and cold tolerance of non-heading Chinese cabbage under cold stress Chen, Xiaoshan; Gao, Zhanyuan; Yu, Zhanghong; Ding, Qiang; Qian, Xiaojun; Zhang, Chenyang; Zhu, Chenyu; Wang, Yaolong; Zhang, Changwei; Li, Ying; Hou, XilinBcWRKY53 promotes chlorophyll biosynthesis and cold tolerance of non-heading Chinese cabbage under cold stressPLANT PHYSIOLOGY AND BIOCHEMISTRY IF5=6.
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03-142025
Development of a comprehensive evaluation system and models to determine soybean seed vigor Ding, Wentao; Lin, Jianyu; Li, Chen; Zhu, Zhen; Wu, Chao; Cao, Jiqiu; Liu, Dandan; Zhang, Yu; Yang, Qian; Xing, Aishuang; Yao, Shuqi; Sun, Yanhui; Guo, Na; Xing, Han; Zhao, JinmingDevelopment of a comprehensive evaluation system and models to determine soybean seed vigorINDUSTRIAL CROPS AND PRODUCTS IF5=5.
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03-062025
PNAS丨万建民院士团队在水稻抗病虫机制解析方面取得新进展 水稻生产常年遭受各类病虫害危害,严重威胁水稻安全生产。其中稻飞虱包括褐飞虱、白背飞虱和灰飞虱是水稻生产的首要害虫,稻瘟病和白叶枯病是水稻两大主要病害。当前水稻病虫害的防治主要依赖化学农药。长期过量使用农药,不仅增加生产成本、污染环境,还破坏生态平衡、产生稻米农药残留。利用抗性品种被认为是最为经济有效的防治措施。然而,目前已发掘的水稻广谱抗病虫基因相对较少。此外,抗病虫性与产量之间往往存在着权衡...
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02-202025
PNAS丨徐国华教授团队揭示协调作物氮素吸收直接途径和菌根途径的新机制 作物高产优质高度依赖氮肥施用,但氮肥很容易通过淋洗、径流、硝化-反硝化和氨挥发等途径从土壤中损失。氮肥利用效率低下不仅增加了生产成本,还引发了土壤酸化、水体富营养化和温室效应加剧等一系列生态环境问题。因此,提高作物对氮素的吸收利用效率,降低氮肥投入和损失对于可持续农业绿色发展具有重要的意义。大部分植物在进化过程中获得了与土壤中一些有益微生物(如固氮细菌、丛枝菌根真菌)共生的能力,以增加对氮素的获...
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02-082025
Nat Commun | 李姗课题组揭示水稻氮利用效率的调控新机制 氮肥的广泛使用促使全球作物产量大幅增长。然而,过量的氮肥投入不仅增加了经济成本,还对环境造成严重破坏,导致生物多样性丧失,并且给人类健康带来风险。因此,培育兼备高产与高氮肥利用效率的改良作物品种对减少氮肥需求和推动农业可持续发展、至关重要。在两大水稻亚种中,籼稻品种通常比粳稻品种表现出更高的硝酸盐(NO3-)吸收能力和氮肥利用效率(NUE)。将籼稻中高效的利用等位基因导入粳稻,有望提高粳稻的氮利用效率...
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