KEY MESSAGE:RGA/GAI and NAP interacted with each other, and NAP was involved in GA signaling as a role of regulating age-dependent and dark-induced leaf senescence in Arabidopsis. Leaf senescence is a significant biological process which is beneficial for plant growth, development, and generation alternation in Arabidopsis. Recent researches have shown gibberellins (GAs) could accelerate leaf senescence. Nevertheless, the GA signaling involved in leaf senescence process remains elusive. Here, we reported a new potential regulation mechanism of GA-mediated chlorophyll degradation and leaf senescence. In this study, we confirmed that NAP positively regulated age-dependent and dark-induced leaf senescence and NAP knockout mutant nap was hyposensitive to GA3 (an active form of GA) treatment. DELLA family proteins with highly conserved structural domain function as master growth repressors that integrated GA signaling and leaf senescence. We validated RGA and GAI could interact with NAP in vitro and in vivo, and subsequently impaired the transcriptional activities of NAP to induce SAG113 and AAO3 expression in nap protoplasts. Taken together, we suggest that NAP is a novel component of the regulatory network that modulates the progress of leaf senescence in GA signaling.

译文

关键信息: RGA/GAI和NAP相互作用,NAP作为调节拟南芥年龄依赖性和黑暗诱导的叶片衰老的作用参与GA信号传导。叶片衰老是一个重要的生物学过程,有利于拟南芥植物的生长,发育和世代交替。最近的研究表明,赤霉素 (GAs) 可以加速叶片衰老。尽管如此,叶片衰老过程中涉及的GA信号仍然难以捉摸。在这里,我们报道了GA介导的叶绿素降解和叶片衰老的新的潜在调控机制。在这项研究中,我们证实了NAP正向调节年龄依赖性和黑暗诱导的叶片衰老,并且NAP敲除突变体nap对GA3 (GA的一种活性形式) 处理不敏感。具有高度保守的结构域功能的DELLA家族蛋白作为整合GA信号传导和叶片衰老的主要生长阻遏物。我们验证了RGA和GAI可以在体外和体内与NAP相互作用,随后损害了NAP的转录活性,从而诱导了nap原生质体中SAG113和AAO3的表达。总之,我们建议NAP是调节GA信号中叶片衰老进程的调节网络的新组成部分。

+1
+2
100研值 100研值 ¥99课程
检索文献一次
下载文献一次

去下载>

成功解锁2个技能,为你点赞

《SCI写作十大必备语法》
解决你的SCI语法难题!

技能熟练度+1

视频课《玩转文献检索》
让你成为检索达人!

恭喜完成新手挑战

手机微信扫一扫,添加好友领取

免费领《Endnote文献管理工具+教程》

微信扫码, 免费领取

手机登录

获取验证码
登录