Interaction Between Two Self-Incompatible Signal Elements, EXO70A1 and ARC1

Q3 Agricultural and Biological Sciences Acta Agronomica Sinica Pub Date : 2012-12-01 DOI:10.1016/S1875-2780(11)60054-0

Kun YANG , He-Cui ZANG , Richard CONVERSE , Li-Quan ZHU , Yong-Jun YANG , Li-Yan XUE , Bing LUO , Deng-Long CHANG , Qi-Guo GAO , Xiao-Jia WANG

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引用次数: 3

Abstract

ARC1 and EXO70A1 are important signal elements of self-incompatibility in Brassica. To characterize the interaction of ARC1-EXO70A1 during the course of self-incompatibility, the coding sequences of ARC1 and EXO70A1 were cloned from Brassica napus L. and B. oleracea L. var.acephala. Sequence analysis showed that ARC1 consisted of 663 amino acids in B. oleracea and 661 amino acids in B. napus, with a 45-amino-acid difference between them. Sequence alignment showed 95.9% similarity, with 93.9% exact match between BoARC1 and BnARC1. Only a 6-amino-acid difference was detected between BoEXO70A1 and BnEXO70A1, with 99.4% similarity and 98.9% exact match according to further sequence alignment. The homology between EXO70A1 alleles was higher than that between ARC1 alleles. Yeast 2-hybrid results indicated that a strong interaction existed between ARC1 and EXO70A1, which could activate the expressions of 4 reporter genes (ADE2, HIS3, AUR1-C, and MEL1) in diploid yeast. However, there was very weak interaction between EXO70A1 and a 316-C-terminal-deletion mutant of ARC1 (ARC1_N), which only activated the expressions from 3 reporter genes (ADE2, AUR1-C, and MEL1). This indicated that the interaction interface between ARC1 and EXO70A1 might not reside within the Armadillo (ARM) repeat domains of ARC1. The N-terminal domains of ARC1 play an essential role in the interaction of ARC1 with EXO70A1. The influence of the differences in amino-acid composition between BoARC1 and BnARC1 on the interaction between ARC1-EXO70A1 was not detected with a yeast 2-hybrid system, which may indicate that the binding interface between ARC1 and EXO70A1 was not altered by sequence differences between the 2 proteins in these Brassica species.

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两个自不相容信号元件EXO70A1和ARC1的相互作用

ARC1和EXO70A1是芸苔自交不亲和的重要信号元件。为了研究ARC1-EXO70A1在自交不亲和过程中的相互作用，从甘蓝型油菜和甘蓝中克隆了ARC1和EXO70A1的编码序列。序列分析表明，ARC1基因由甘蓝中的663个氨基酸和甘蓝型甘蓝中的661个氨基酸组成，两者之间的氨基酸差异为45个氨基酸。序列比对结果显示，BoARC1与BnARC1的相似度为95.9%，精确匹配度为93.9%。BoEXO70A1和BnEXO70A1之间仅检测到6个氨基酸的差异，根据进一步的序列比对，相似度为99.4%，精确匹配度为98.9%。EXO70A1等位基因间同源性高于ARC1等位基因间同源性。酵母2杂交结果表明，ARC1与EXO70A1之间存在强互作，可激活二倍体酵母中4个报告基因(ADE2、HIS3、AUR1-C和MEL1)的表达。然而，EXO70A1与ARC1的316- c末端缺失突变体(ARC1N)之间的相互作用非常弱，仅激活了3个报告基因(ADE2、AUR1-C和MEL1)的表达。这表明，ARC1和EXO70A1之间的交互界面可能不在ARC1的Armadillo (ARM)重复结构域内。ARC1的n端结构域在ARC1与EXO70A1的相互作用中起重要作用。在酵母2杂交系统中未检测到BoARC1和BnARC1氨基酸组成差异对ARC1-EXO70A1相互作用的影响，这可能表明在这些芸油菜种中，BoARC1和BnARC1的氨基酸组成差异并未改变ARC1与EXO70A1的结合界面。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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