Picea wilsonii transcription factor NAC2 enhanced plant tolerance to abiotic stress and participated in RFCP1-regulated flowering time

Zhang Hehua; Cui Xiaoyue; Guo Yuxiao; Luo Chaobing; Zhang Lingyun

首页> 外文期刊>Plant Molecular Biology >Picea wilsonii transcription factor NAC2 enhanced plant tolerance to abiotic stress and participated in RFCP1-regulated flowering time

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Picea wilsonii transcription factor NAC2 enhanced plant tolerance to abiotic stress and participated in RFCP1-regulated flowering time

机译：Picea wilsonii转录因子NaC2增强了对非生物压力的植物耐受性，并参加了RFCP1监管的开花时间

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Key message Picea wilsonii transcription factor PwNAC2 enhanced plant tolerance to salt and drought stress through multiple signaling pathway and interacted with PwRFCP1 to participate in flowering regulation.

机译：关键消息Picea WilsonII转录因子PWNAC2通过多个信号通路增强植物耐受性和干旱胁迫，并与PWRFCP1相互作用以参与开花调节。

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来源
《Plant Molecular Biology 》 |2018年第6期| 共23页
作者
Zhang Hehua; Cui Xiaoyue; Guo Yuxiao; Luo Chaobing; Zhang Lingyun;
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作者单位

Beijing Forestry Univ Key Lab Forest Silviculture &

Conservat Minist Educ Beijing 100083 Peoples R China;

Beijing Forestry Univ Key Lab Forest Silviculture &

Conservat Minist Educ Beijing 100083 Peoples R China;

Beijing Forestry Univ Key Lab Forest Silviculture &

Conservat Minist Educ Beijing 100083 Peoples R China;

Beijing Forestry Univ Key Lab Forest Silviculture &

Conservat Minist Educ Beijing 100083 Peoples R China;

Beijing Forestry Univ Key Lab Forest Silviculture &

Conservat Minist Educ Beijing 100083 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类植物生物化学 ;
关键词
Picea wilsonii; Transcription factor; PwNAC2; PwRFCP1; Abiotic stress; Flowering time;

机译：Picea wilsonii;转录因子;pwnac2;pwrfcp1;非生物胁迫;开花时间;

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专利

1. Picea wilsonii transcription factor NAC2 enhanced plant tolerance to abiotic stress and participated in RFCP1-regulated flowering time [J] . Zhang Hehua, Cui Xiaoyue, Guo Yuxiao, Plant Molecular Biology . 2018 ,第6期

机译：Picea wilsonii转录因子NaC2增强了对非生物压力的植物耐受性，并参加了RFCP1监管的开花时间
2. The AaDREB1 Transcription Factor from the Cold-Tolerant Plant Adonis amurensis Enhances Abiotic Stress Tolerance in Transgenic Plant [J] . Jun-Mei Zong, Xiao-Wei Li, Yuan-Hang Zhou, International Journal of Molecular Sciences . 2016 ,第4期

机译：耐寒植物Adonis amurensis的AaDREB1转录因子增强转基因植物的非生物胁迫耐受性
3. The Novel Wheat Transcription Factor TaNAC47 Enhances Multiple Abiotic Stress Tolerances in Transgenic Plants [J] . Lina Zhang, Lichao Zhang, Chuan Xia, Frontiers in Plant Science . 2015 ,第1期

机译：新型小麦转录因子TaNAC47增强了转基因植物的多种非生物胁迫耐受性
4. Generation of transgenic tall fescue plants with enhanced abiotic stress tolerance [C] . I. Alam, Y. G. Kim, K. H. Kim, International Grassland Congress . 2013

机译：具有增强的非生物胁迫耐受性转基因高杂草植物的产生
5. Improvement of abiotic stress tolerance and calcium-deficiency disorder resistance of tomato plants [D] . Wu, Qingyu 2012

机译：改善番茄植物的非生物胁迫耐受性和钙缺乏症抗性
6. Genome-wide study of pineapple (Ananas comosus L.) bHLH transcription factors indicates that cryptochrome-interacting bHLH2 (AcCIB2) participates in flowering time regulation and abiotic stress response [O] . Mohammad Aslam, Bello Hassan Jakada, Beenish Fakher, 2020

机译：菠萝（Ananas Comosus L.）的基因组研究BHLH转录因子表明加密色谱间BHLH2（ACCIV2）参与开花时间调节和非生物应激反应
7. Genome-wide study of pineapple (Ananas comosus L.) bHLH transcription factors indicates that cryptochrome-interacting bHLH2 (AcCIB2) participates in flowering time regulation and abiotic stress response [O] . Mohammad Aslam, Bello Hassan Jakada, Beenish Fakher, 2020

机译：菠萝（Ananas Comosus L.）的基因组研究BHLH转录因子表明，加密色谱间BHLH2（ACCIV2）参与开花时间调节和非生物应激反应
8. New Gene Sources for Development of Agronomic Plants with Tolerances to Drought and Other Abiotic Stresses [R] . Kuehn, G. D. 1989

机译：开发具有耐受干旱和其他非生物胁迫的农艺植物的新基因来源

Picea wilsonii transcription factor NAC2 enhanced plant tolerance to abiotic stress and participated in RFCP1-regulated flowering time

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