异源三聚体G蛋白复合物调节拟南芥种子萌发中的光敏感性。

The heterotrimeric G-protein complex modulates light sensitivity in Arabidopsis thaliana seed germination.

作者信息

Botto Javier F, Ibarra Silvia, Jones Alan M

机构信息

IFEVA, Facultad de Agronomía, Universidad de Buenos Aires y Consejo Nacional de Investigaciones Científicas y Técnicas, Buenos Aires, Argentina.

出版信息

Photochem Photobiol. 2009 Jul-Aug;85(4):949-54. doi: 10.1111/j.1751-1097.2008.00505.x.

DOI:10.1111/j.1751-1097.2008.00505.x

PMID:19192205

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4676404/

Abstract

Release of dormancy and induction of seed germination are complex traits finely regulated by hormonal signals and environmental cues such as temperature and light. The Red (R):Far-Red (FR) phytochrome photoreceptors mediate light regulation of seed germination. We investigated the possible involvement of heterotrimeric G-protein complex in the phytochrome signaling pathways of Arabidopsis thaliana seed germination. Germination rates of null mutants of the alpha (Galpha) and beta (Gbeta) subunits of the G-protein (Atgpa1-4 and agb1-2, respectively) and the double mutant (agb1-2/gpa1-4) are lower than the wildtype (WT) under continuous or pulsed light. The Galpha and Gbeta subunits play a role in seed germination under hourly pulses of R lower than 0.1 micromol m(-2) s(-1) whereas the Gbeta subunit plays a role in higher R fluences. The germination of double mutants of G-protein subunits with phyA-211 and phyB-9 suggests that AtGPA1 seems to act as a positive regulator of phyA and probably phyB signaling pathways, while the role of AGB1 is ambiguous. The imbibition of seeds at 4 degrees C and 35 degrees C alters the R and FR light responsiveness of WT and G-protein mutants to a similar magnitude. Thus, Galpha and Gbeta subunits of the heterotrimeric G-protein complex modulate light induction of seed germination by phytochromes and are dispensable for the control of dormancy by low and high temperatures prior to irradiation. We discuss the possible indirect role of the G-protein complex on the phytochrome-regulated germination through hormonal signaling pathways.

摘要

休眠的解除和种子萌发的诱导是由激素信号以及温度和光照等环境因素精细调控的复杂性状。红光（R）：远红光（FR）光敏色素光感受器介导种子萌发的光调节。我们研究了异源三聚体G蛋白复合物在拟南芥种子萌发的光敏色素信号通路中的可能作用。在连续光照或脉冲光照下，G蛋白α（Gα）和β（Gβ）亚基的缺失突变体（分别为Atgpa1 - 4和agb1 - 2）以及双突变体（agb1 - 2/gpa1 - 4）的萌发率低于野生型（WT）。在低于0.1微摩尔·米⁻²·秒⁻¹的每小时R脉冲下，Gα和Gβ亚基在种子萌发中起作用，而Gβ亚基在更高的R光通量下起作用。G蛋白亚基与phyA - 211和phyB - 9的双突变体的萌发表明，AtGPA1似乎作为phyA以及可能phyB信号通路的正向调节因子起作用，而AGB1的作用尚不明确。在4摄氏度和35摄氏度下对种子进行吸胀处理，会使WT和G蛋白突变体的R和FR光响应性发生类似程度的改变。因此，异源三聚体G蛋白复合物的Gα和Gβ亚基通过光敏色素调节种子萌发的光诱导，并且在辐照前对低温和高温控制休眠方面并非必需。我们讨论了G蛋白复合物通过激素信号通路对光敏色素调节的萌发可能产生的间接作用。

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