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本文引用的文献

1
Calmodulins and related potential calcium sensors of Arabidopsis.拟南芥的钙调蛋白及相关潜在钙传感器
New Phytol. 2003 Sep;159(3):585-598. doi: 10.1046/j.1469-8137.2003.00845.x.
2
Nitric oxide production in plants: facts and fictions.植物中的一氧化氮生成:事实与虚构。
Plant Signal Behav. 2006 Mar;1(2):46-51. doi: 10.4161/psb.1.2.2435.
3
Aluminium toxicity in plants: internalization of aluminium into cells of the transition zone in Arabidopsis root apices related to changes in plasma membrane potential, endosomal behaviour, and nitric oxide production.植物中的铝毒性:铝在拟南芥根尖过渡区细胞中的内化与质膜电位、内体行为和一氧化氮产生的变化有关。
J Exp Bot. 2006;57(15):4201-13. doi: 10.1093/jxb/erl197. Epub 2006 Nov 3.
4
FLOWERING LOCUS C-dependent and -independent regulation of the circadian clock by the autonomous and vernalization pathways.自主途径和春化途径对生物钟的开花位点C依赖性和非依赖性调控。
BMC Plant Biol. 2006 May 31;6:10. doi: 10.1186/1471-2229-6-10.
5
Genetic polymorphism and protein conformational plasticity in the calmodulin superfamily: two ways to promote multifunctionality.钙调蛋白超家族中的遗传多态性与蛋白质构象可塑性:促进多功能性的两种方式。
Proc Natl Acad Sci U S A. 2006 Jan 31;103(5):1159-64. doi: 10.1073/pnas.0508640103. Epub 2006 Jan 23.
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Mechanisms for nitric oxide synthesis in plants.植物中一氧化氮合成的机制。
J Exp Bot. 2006;57(3):471-8. doi: 10.1093/jxb/erj050. Epub 2005 Dec 15.
7
CML24, regulated in expression by diverse stimuli, encodes a potential Ca2+ sensor that functions in responses to abscisic acid, daylength, and ion stress.CML24受多种刺激调控表达,编码一种潜在的钙传感器,在对脱落酸、日照长度和离子胁迫的响应中发挥作用。
Plant Physiol. 2005 Sep;139(1):240-53. doi: 10.1104/pp.105.062612. Epub 2005 Aug 19.
8
Handling calcium signaling: Arabidopsis CaMs and CMLs.钙信号传导的调控:拟南芥钙调蛋白和钙调素类似蛋白
Trends Plant Sci. 2005 Aug;10(8):383-9. doi: 10.1016/j.tplants.2005.07.001.
9
Distinct roles of GIGANTEA in promoting flowering and regulating circadian rhythms in Arabidopsis.拟南芥中GIGANTEA在促进开花和调节昼夜节律中的不同作用。
Plant Cell. 2005 Aug;17(8):2255-70. doi: 10.1105/tpc.105.033464. Epub 2005 Jul 8.
10
The plant clock shows its metal: circadian regulation of cytosolic free Ca(2+).植物生物钟彰显其作用:胞质游离Ca(2+)的昼夜节律调控
Trends Plant Sci. 2005 Jan;10(1):15-21. doi: 10.1016/j.tplants.2004.12.001.

拟南芥潜在的钙传感器调节一氧化氮水平和向开花的转变。

Arabidopsis potential calcium sensors regulate nitric oxide levels and the transition to flowering.

机构信息

Biochemistry and Cell Biology; Rice University; Houston, Texas USA.

出版信息

Plant Signal Behav. 2007 Nov;2(6):446-54. doi: 10.4161/psb.2.6.4695.

DOI:10.4161/psb.2.6.4695
PMID:19517005
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2634334/
Abstract

In plants, flowering is a critical developmental transition orchestrated by four regulatory pathways. Distinct alleles encoding mutant forms of the Arabidopsis potential calcium sensor CML24 cause alterations in flowering time. CML24 can act as a switch in the response to day length perception; loss-of-function cml24 mutants are late flowering under long days, whereas apparent gain of CML24 function results in early flowering. CML24 function is required for proper CONSTANS (CO) expression; components upstream of CO in the photoperiod pathway are largely unaffected in the cml24 mutants. In conjunction with CML23, a related calmodulin-like protein, CML24 also inhibits FLOWERING LOCUS C (FLC) expression and therefore impacts the autonomous regulatory pathway of the transition to flowering. Nitric oxide (NO) levels are elevated in cml23/cml24 double mutants and are largely responsible for FLC transcript accumulation. Therefore, CML23 and CML24 are potential calcium sensors that have partially overlapping function that may act to transduce calcium signals to regulate NO accumulation. In turn, NO levels influence the transition to flowering through both the photoperiod and autonomous regulatory pathways.

摘要

在植物中,开花是由四个调控途径协调的关键发育转变。拟南芥潜在钙传感器 CML24 的不同等位基因编码突变形式的 CML24,导致开花时间的改变。CML24 可以作为对日照长度感知的反应的开关;在长日照下,cml24 功能丧失突变体开花较晚,而 CML24 功能的明显获得导致开花较早。CML24 功能对于 CONSTANS(CO)的正确表达是必需的;在 cml24 突变体中,CO 上游的光周期途径的组成部分在很大程度上不受影响。与相关的钙调蛋白样蛋白 CML23 一起,CML24 还抑制 FLOWERING LOCUS C(FLC)的表达,因此影响到开花向自主调控途径的转变。在 cml23/cml24 双突变体中,一氧化氮(NO)水平升高,并且主要负责 FLC 转录物的积累。因此,CML23 和 CML24 是潜在的钙传感器,具有部分重叠的功能,可能通过传递钙信号来调节 NO 的积累。反过来,NO 水平通过光周期和自主调控途径影响开花的转变。