Dual localization of the carboxy-terminal tail of GLR3.3 in sieve element-companion cell complex.

Q2 Agricultural and Biological Sciences

Communicative and Integrative Biology Pub Date : 2023-01-01 DOI:10.1080/19420889.2023.2167558

Qian Wu, Mengjiao Chen, Archana Kumari

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Abstract

Glutamate receptor-like (GLR) 3.3 and 3.6 proteins are required for mediating wound-induced leaf-to-leaf electrical signaling. In the previous study, we found that the carboxy-terminal tail of GLR3.3 contains key residues that are indispensable for its action in electrical signaling. In the present work, we generated plants that expressed the truncated C-tail fraction of GLR3.3. To our expectation, the truncated C-tail itself was not functional in propagating leaf-to-leaf signals. However, we identified that the C-tail-mVENUS fusion proteins had dual localization patterns in sieve elements and companion cells. In companion cells, the fusion proteins overlapped largely with the nucleus. We speculated that a possible nuclear localization signal is present in the C-tail of GLR3.3, paralleling the C-tails of the ionotropic glutamate receptors in animal cells. Our further findings on the C-tail of GLR3.3 open up new possibilities for the regulatory roles of the C-tails to GLR proteins.

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筛元-伴侣细胞复合体中GLR3.3羧基末端尾部的双定位。

谷氨酸受体样(GLR) 3.3和3.6蛋白是介导损伤诱导的叶间电信号的必需蛋白。在之前的研究中，我们发现GLR3.3的羧基末端尾部含有其在电信号作用中不可或缺的关键残基。在本研究中，我们培育了表达GLR3.3截断的c尾片段的植株。与我们的预期一样，截断的c尾本身在传播叶片到叶片的信号中不起作用。然而，我们发现C-tail-mVENUS融合蛋白在筛元件和伴体细胞中具有双重定位模式。在伴生细胞中，融合蛋白大部分与细胞核重叠。我们推测GLR3.3的c尾可能存在核定位信号，与动物细胞中嗜电性谷氨酸受体的c尾平行。我们关于GLR3.3 c尾的进一步发现为c尾对GLR蛋白的调控作用开辟了新的可能性。

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