收藏本站
收藏 | 手机打开
二维码
手机客户端打开本文

Functional analysis and application of temperature stress proteins

【摘要】:正Abiotic stresses, such as temperature stress, oxidative stress, drought, salinity, and heavy metals may cause crop production losses. Exposure of plants to environmental stresses results in acute changes in gene expression. However, the roles of many of these gene products are still unknown. Our major goal is to study the roles of these proteins to better understand plant stress response and to engender plant tolerance.

知网文化
【相似文献】
中国期刊全文数据库 前20条
1 Shengjie Bao;Changmei Hua;Lisha Shen;Hao Yu;;New insights into gibberellin signaling in regulating flowering in Arabidopsis[J];Journal of Integrative Plant Biology;2020年01期
2 Tenai Eguen;Jorge Gomez Ariza;Vittoria Brambilla;Bin Sun;Kaushal Kumar Bhati;Fabio Fornara;Stephan Wenkel;;Control of flowering in rice through synthetic microProteins[J];Journal of Integrative Plant Biology;2020年06期
3 SONG Shi-wei;LEI Yu-ling;HUANG Xin-min;SU Wei;CHEN Ri-yuan;HAO Yan-wei;;Crosstalk of cold and gibberellin effects on bolting and flowering in flowering Chinese cabbage[J];Journal of Integrative Agriculture;2019年05期
4 HART Samantha;MIKHAILOVA Elena;POST Christopher;Mc MILLAN Patrick;SHARP Julia;BRIDGES William;;Spatio-temporal analysis of flowering using Li DAR topography[J];Journal of Geographical Sciences;2017年01期
5 ;Interaction between temperature and photoperiod in regulation of flowering time in rice[J];Science China(Life Sciences);2012年03期
6 ;Effects of different plant growth inhibitors on growth and flowering of narcissus[J];HuNan Agricultural Science & Technology Newsletter;2003年04期
7 沈伟其 ,张国平 ,奚利峰 ,桂文光;Effects of light and temperature conditions on flowering in Mat Rush[J];Journal of Zhejiang University Science;2002年05期
8 ;Gene control of flowering time in higher plants[J];Chinese Science Bulletin;2000年18期
9 Zhiwei Li;Xiaogang Liu;Xiaojie Xu;Jiacheng Liu;Zhiqin Sang;Kanchao Yu;Yuxin Yang;Wenshuang Dai;Xin Jin;Yunbi Xu;;Favorable haplotypes and associated genes for flowering time and photoperiod sensitivity identified by comparative selective signature analysis and GWAS in temperate and tropical maize[J];The Crop Journal;2020年02期
10 Xue Dong;Xiaodong Jiang;Guoqiang Kuang;Qingbo Wang;Micai Zhong;Dongmin Jin;Jinyong Hu;;Genetic control of flowering time in woody plants:Roses as an emerging model[J];Plant Diversity;2017年02期
11 WU Pingping;WU Chubin;ZHOU Biyan;;Drought Stress Induces Flowering and Enhances Carbohydrate Accumulation in Averrhoa Carambola[J];Horticultural Plant Journal;2017年02期
12 ;Regulation of flowering time in perennial herbaceous plant[J];Science Foundation in China;2013年02期
13 李立武,谭克辉;SPECIFIC PROTEIN OCCURRENCE RELATED WITH PHOTOPERIODIC FLOWER INDUCTION IN THE COTYLEDONS OF Pharbitis nil CV. VIOLET[J];Science in China,Ser.B;1991年05期
14 Yan Zheng;Landi Luo;Yuanyuan Liu;Yunqiang Yang;Chuntao Wang;Xiangxiang Kong;Yongping Yang;;Effect of vernalization on tuberization and flowering in the Tibetan turnip is associated with changes in the expression of FLC homologues[J];Plant Diversity;2018年02期
15 Rodrigo Contreras-Soto;Paulina Ballesta;Eduardo Ruiz;Freddy Mora;;Identification of ISSR markers linked to flowering traits in a representative sample of Eucalyptus cladocalyx[J];Journal of Forestry Research;2016年02期
16 Ning Zhao;Chang Liu;Yiqing Meng;Zhongyuan Hu;Mingfang Zhang;Jinghua Yang;;Identification of Flowering Regulatory Genes in Allopolyploid Brassica juncea[J];Horticultural Plant Journal;2019年03期
17 GUAN Yan-ren;XUE Jing-qi;XUE Yu-qian;YANG Ruo-wen;WANG Shun-li;ZHANG Xiu-xin;;Effect of exogenous GA_3 on flowering quality, endogenous hormones, and hormone-and flowering-associated gene expression in forcing-cultured tree peony(Paeonia suffruticosa)[J];Journal of Integrative Agriculture;2019年06期
18 Jin-Xing Zhou;Zhang-Wei Liu;Yong-Qiang Li;Lin Li;Bangjun Wang;She Chen;Xin-Jian He;;Arabidopsis PWWP domain proteins mediate H_3K_(27) trimethylation on FLC and regulate flowering time[J];Journal of Integrative Plant Biology;2018年05期
19 XIANG Chao;QU Li-jun;GAO Yong-ming;SHI Ying-yao;;Flower Development and Photoperiodic Control of Flowering in Rice[J];Rice Science;2013年02期
20 TURKINGTON Roy;;Flowering and Fruiting Phenology of 24 Plant Species on the North Slope of Mt. Qomolangma (Mt. Everest)[J];Journal of Mountain Science;2010年01期
中国重要会议论文全文数据库 前10条
1 ;Functional analysis and application of temperature stress proteins[A];2005'海峡两岸植物生理与分子生物学教学研讨会论文集[C];2005年
2 Zhengrui Qin;Yuxue Bai;Liang Wu;;Fine-tuning of flowering time control in inductive and non-inductive photoperiods in Brachypodium distachyon[A];第三届全国植物开花·衰老与采后生物学大会论文摘要集[C];2019年
3 Kunjiang Yu;Xiaodong Wang;Feng Chen;Wei Zhang;Jiefu Zhang;;Identification and physical mapping of QTLs associated with flowering time in Brassica napus L.[A];江苏省遗传学会2019年学术研讨会论文集[C];2019年
4 Jie Liu;Fengqi Zhang;Junyan Huang;Yueying Liu;Xiaohui Cheng;Shengyi Liu;;QTL fine mapping for S.sclertiotum resistance and flowering time in Brassica napus[A];2018全国植物生物学大会论文集[C];2018年
5 钱朝菊;Xia Yan;Jiecai Zhao;Guoxiong Chen;Eviatar Nevo;Xiao-Fei Ma;于黎;;The mechanism of adaptive evolution of the early flowering in wild barley to mitigate global climate change[A];遗传学与表观遗传学前沿暨第三届中国青年遗传学家论坛论文摘要汇编[C];2014年
6 ;OsELF3 is involved in circadian clock regulation for promoting flowering under long-day conditions in rice[A];第十三届全国植物基因组学大会论文集[C];2012年
7 ;Comparative genome analysis,identification of flowering pathway and development of genome-wide molecular markers based on genome survey sequence in Brassica juncea[A];第十三届全国植物基因组学大会论文集[C];2012年
8 ;SDG724 mediates H3K36me2/3 deposition at MADS50 and RFT1,and promotes flowering in rice[A];从植物科学到农业发展——2012全国植物生物学大会论文集[C];2012年
9 Claude dePamphilis;;The Amborella genome and the origin of flowering plants[A];第十四届全国植物基因组学大会摘要[C];2013年
10 Zhou Liu;U.A.Kapila Siri Udawela;Longxing Tao;Qiyuan Tang;Fei Li;Xiang Chao;Yongming Gao;Zhikang Li;;Detection of heat-related loci in rice at flowering time using selected introgressed lines[A];第十四届全国植物基因组学大会摘要[C];2013年
中国博士学位论文全文数据库 前6条
1 Eaknarin Ruangrak;番茄控制早开花的主效QTL的精细定位[D];中国农业科学院;2015年
2 KOVI MALLIKARJUNA RAO;[D];华中农业大学;2010年
3 Tankari Moussa;水分胁迫和根瘤菌对豇豆农艺性状的影响及其生理机制[D];中国农业科学院;2019年
4 KHAMDOK SONGYIKHANGSUTHOR;水稻种质资源中抗旱基因SNAC1的表达多样性[D];华中农业大学;2013年
5 Sachin Onkar Khairnar(萨辛);半滑舌鳎对盐度变化的生理生态响应机制[D];中国海洋大学;2013年
6 Haksong Pak (朴学成);[D];浙江大学;2010年
中国硕士学位论文全文数据库 前1条
1 Muslim Qadir;[D];西南科技大学;2018年
中国知网广告投放
 快捷付款方式  订购知网充值卡  订购热线  帮助中心
  • 400-819-9993
  • 010-62982499
  • 010-62783978