BBD1 和 BBD2 的系统发育分析和体外双功能核酸酶活性测定

Phylogenetic Analysis and In Vitro Bifunctional Nuclease Assay of BBD1 and BBD2.

机构信息

Division of Life Sciences, Korea University, Seoul 02841, Korea.

Department of Genetic Engineering and Graduate School of Biotechnology, College of Life Sciences, Kyung Hee University, Yongin 17104, Korea.

出版信息

Molecules. 2020 May 6;25(9):2169. doi: 10.3390/molecules25092169.

DOI:10.3390/molecules25092169

PMID:32384799

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7249048/

Abstract

Nucleases are a very diverse group of enzymes that play important roles in many crucial physiological processes in plants. We previously reported that the highly conserved region (HCR), domain of unknown function 151 (DUF151) and UV responsive (UVR) domain-containing OmBBD is a novel nuclease that does not share homology with other well-studied plant nucleases. Here, we report that DUF151 domain-containing proteins are present in bacteria, archaea and only Viridiplantae kingdom of eukarya, but not in any other eukaryotes. Two homologs of OmBBD, AtBBD1 and AtBBD2, shared 43.69% and 44.38% sequence identity and contained all three distinct domains of OmBBD. We confirmed that the recombinant MBP-AtBBD1 and MBP-AtBBD2 exhibited non-substrate-specific DNase and RNase activity, like OmBBD. We also found that a metal cofactor is not necessarily required for DNase activity of AtBBD1 and AtBBD2, but their activities were much enhanced in the presence of Mg or Mn. Using a yeast two-hybrid assay, we found that AtBBD1 and AtBBD2 each form a homodimer but not a heterodimer and that the HCR domain is possibly crucial for dimerization.

摘要

核酸酶是一组非常多样化的酶，在植物的许多重要生理过程中发挥着重要作用。我们之前报道过，高度保守区（HCR）、功能未知域 151（DUF151）和紫外线响应（UVR）域包含的 OmBBD 是一种新型核酸酶，与其他研究充分的植物核酸酶没有同源性。在这里，我们报告说，含有 DUF151 结构域的蛋白质存在于细菌、古菌和真核生物的Viridiplantae 王国中，但不存在于任何其他真核生物中。OmBBD 的两个同源物 AtBBD1 和 AtBBD2 分别具有 43.69%和 44.38%的序列同一性，并且都包含 OmBBD 的所有三个独特结构域。我们证实重组 MBP-AtBBD1 和 MBP-AtBBD2 表现出非底物特异性的 DNase 和 RNase 活性，与 OmBBD 相似。我们还发现，金属辅因子不一定是 AtBBD1 和 AtBBD2 的 DNase 活性所必需的，但在存在 Mg 或 Mn 的情况下，它们的活性大大增强。通过酵母双杂交测定，我们发现 AtBBD1 和 AtBBD2 各自形成同源二聚体但不形成异源二聚体，并且 HCR 结构域可能对二聚体化至关重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e69f/7249048/ab3754973ea3/molecules-25-02169-g001a.jpg

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BBD1 和 BBD2 的系统发育分析和体外双功能核酸酶活性测定

Phylogenetic Analysis and In Vitro Bifunctional Nuclease Assay of BBD1 and BBD2.

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