Five amino acid mismatches in the zinc-finger domains of Cellulose Synthase 5 and Cellulose Synthase 6 cooperatively modulate their functional properties by controlling homodimerization in Arabidopsis.

IF 3.9 2区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Sungjin Park, Shi-You Ding
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Abstract

Cellulose synthase 5 (CESA5) and CESA6 are known to share substantial functional overlap. In the zinc-finger domain (ZN) of CESA5, there are five amino acid (AA) mismatches when compared to CESA6. These mismatches in CESA5 were replaced with their CESA6 counterparts one by one until all were replaced, generating nine engineered CESA5s. Each N-terminal enhanced yellow fluorescent protein-tagged engineered CESA5 was introduced to prc1-1, a cesa6 null mutant, and resulting mutants were subjected to phenotypic analyses. We found that five single AA-replaced CESA5 proteins partially rescue the prc1-1 mutant phenotypes to different extents. Multi-AA replaced CESA5s further rescued the mutant phenotypes in an additive manner, culminating in full recovery by CESA5G43R + S49T+S54P+S80A+Y88F. Investigations in cellulose content, cellulose synthase complex (CSC) motility, and cellulose microfibril organization in the same mutants support the results of the phenotypic analyses. Bimolecular fluorescence complementation assays demonstrated that the level of homodimerization in every engineered CESA5 is substantially higher than CESA5. The mean fluorescence intensity of CSCs carrying each engineered CESA5 fluctuates with the degree to which the prc1-1 mutant phenotypes are rescued by introducing a corresponding engineered CESA5. Taken together, these five AA mismatches in the ZNs of CESA5 and CESA6 cooperatively modulate the functional properties of these CESAs by controlling their homodimerization capacity, which in turn imposes proportional changes on the incorporation of these CESAs into CSCs.

Abstract Image

拟南芥中纤维素合成酶 5 和纤维素合成酶 6 的锌指结构域中的五个氨基酸错配通过控制同源二聚体来协同调节它们的功能特性。
众所周知,纤维素合成酶 5(CESA5)和 CESA6 在功能上有很大的重叠。与 CESA6 相比,CESA5 的锌指结构域(ZN)中有五个氨基酸(AA)错配。将 CESA5 中的这些错配逐一替换为 CESA6 中的对应氨基酸,直至全部替换完毕,生成了九个工程化的 CESA5。将每个 N 端增强型黄色荧光蛋白标记的工程化 CESA5 导入 cesa6 空缺突变体 prc1-1,并对所产生的突变体进行表型分析。我们发现,五个单AA置换的CESA5蛋白在不同程度上部分拯救了prc1-1突变体的表型。多AA置换的CESA5以相加的方式进一步拯救突变体表型,最终CESA5G43R+S49T+S54P+S80A+Y88F完全恢复。对相同突变体中纤维素含量、纤维素合成酶复合物(CSC)运动性和纤维素微纤维组织的研究支持了表型分析的结果。双分子荧光互补试验表明,每个工程化 CESA5 的同源二聚化水平都大大高于 CESA5。携带每种工程化 CESA5 的 CSCs 的平均荧光强度随着引入相应的工程化 CESA5 对 prc1-1 突变体表型的拯救程度而波动。综上所述,CESA5和CESA6的ZNs中的这五个AA错配通过控制它们的同源二聚化能力而协同调节了这些CESA的功能特性,而这又反过来对这些CESA融入CSCs的过程产生了比例上的变化。
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来源期刊
Plant Molecular Biology
Plant Molecular Biology 生物-生化与分子生物学
自引率
2.00%
发文量
95
审稿时长
1.4 months
期刊介绍: Plant Molecular Biology is an international journal dedicated to rapid publication of original research articles in all areas of plant biology.The Editorial Board welcomes full-length manuscripts that address important biological problems of broad interest, including research in comparative genomics, functional genomics, proteomics, bioinformatics, computational biology, biochemical and regulatory networks, and biotechnology. Because space in the journal is limited, however, preference is given to publication of results that provide significant new insights into biological problems and that advance the understanding of structure, function, mechanisms, or regulation. Authors must ensure that results are of high quality and that manuscripts are written for a broad plant science audience.
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