A Glutamate Receptor-Like Gene AtGLR2.5 With Its Unusual Splice Variant Has a Role in Mediating Glutamate-Elicited Changes in Arabidopsis Root Architecture

IF 6.3 1区生物学 Q1 PLANT SCIENCES Plant, Cell & Environment Pub Date : 2025-01-16 DOI:10.1111/pce.15387

Yuan-Yong Gong, Chang-Zheng Wu, Yan-Sheng Wu, Andrea Alfieri, Yu-Cheng Xiang, Dong-Xue Shi, Shuhui Duan, Ming-Fa Zhang, Xiao-Xu Li, Yi-Chen Sun, Jin Chao, Mark Tester, Zhonglin Shang, Brian G. Forde, Lai-Hua Liu

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Abstract

The occurrence of external L-glutamate at the Arabidopsis root tip triggers major changes in root architecture, but the mechanism of -L-Glu sensing is unknown. Members of the family of GLUTAMATE RECEPTOR-LIKE (GLR) proteins are known to act as amino acid-gated Ca²⁺-permeable channels and to have signalling roles in diverse plant processes. To investigate the possible role of GLRs in the root architectural response to L-Glu, we screened a collection of mutants with T-DNA insertions in each of the 20 AtGLR genes. Reduced sensitivity of root growth to L-Glu was found in mutants of one gene, GLR2.5. Interestingly, GLR2.5 was found to apparently produce four transcript variants encoding hypothetical proteins of 169–720 amino acids. One of these transcripts, GLR2.5c, encodes a truncated GLR protein lacking both the conserved amino-terminal domain and part of the ligand-binding domain. When a glr2.5 mutant was transformed with a construct constitutively expressing GLR2.5c, both L-Glu sensitivity of root growth and L-Glu-elicited Ca²⁺ currents in root tip protoplasts were restored. These results, along with homology modelling of the truncated ligand-binding domain of GLR2.5c, suggest that GLR2.5c has a regulatory or scaffolding role in heteromeric GLR complex(es) that may involve triggering the root architectural response to L-Glu.

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谷氨酸受体样基因AtGLR25及其不寻常的剪接变异在介导谷氨酸诱导的拟南芥根结构变化中起作用。

拟南芥根尖外源l -谷氨酸的出现引发根系结构发生重大变化，但对- l -谷氨酸的感知机制尚不清楚。谷氨酸受体样（GLR）蛋白家族的成员被认为是氨基酸门控的Ca2+可渗透通道，并在多种植物过程中具有信号作用。为了研究glr在根对L-Glu的结构反应中可能发挥的作用，我们筛选了20个AtGLR基因中每一个都有T-DNA插入的突变体。在GLR2.5基因突变体中，发现根生长对L-Glu的敏感性降低。有趣的是，GLR2.5被发现明显产生四个转录本变体，编码169-720个氨基酸的假设蛋白质。其中一个转录本GLR2.5c编码一个截断的GLR蛋白，缺乏保守的氨基末端结构域和部分配体结合结构域。用组成型表达glr2.5 c的构建体转化glr2.5突变体后，根系生长的L-Glu敏感性和根尖原生质体中L-Glu诱导的Ca2+电流均得到恢复。这些结果以及GLR2.5c截断配体结合域的同源性建模表明，GLR2.5c在异聚GLR复合物中具有调节或支架作用，可能涉及触发对L-Glu的根结构反应。

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来源期刊

Plant, Cell & Environment 生物-植物科学

CiteScore

13.30

自引率

4.10%

发文量

253

审稿时长

1.8 months

期刊介绍： Plant, Cell & Environment is a premier plant science journal, offering valuable insights into plant responses to their environment. Committed to publishing high-quality theoretical and experimental research, the journal covers a broad spectrum of factors, spanning from molecular to community levels. Researchers exploring various aspects of plant biology, physiology, and ecology contribute to the journal's comprehensive understanding of plant-environment interactions.