体外研究与人类 tRNA 核苷酸转移酶相关的疾病变异体，揭示了其热稳定性降低和催化活性改变。

In vitro studies of disease-linked variants of human tRNA nucleotidyltransferase reveal decreased thermal stability and altered catalytic activity.

机构信息

Department of Chemistry and Biochemistry and Centre for Structural and Functional Genomics, Concordia University, 7141 Sherbrooke St. W., Montréal H4B 1R6, Québec, Canada.

出版信息

Biochim Biophys Acta Proteins Proteom. 2018 Apr;1866(4):527-540. doi: 10.1016/j.bbapap.2018.02.002. Epub 2018 Feb 16.

DOI:10.1016/j.bbapap.2018.02.002

PMID:29454993

Abstract

Mutations in the human TRNT1 gene encoding tRNA nucleotidyltransferase (tRNA-NT), an essential enzyme responsible for addition of the CCA (cytidine-cytidine-adenosine) sequence to the 3'-termini of tRNAs, have been linked to disease phenotypes including congenital sideroblastic anemia with B-cell immunodeficiency, periodic fevers and developmental delay (SIFD) or retinitis pigmentosa with erythrocyte microcytosis. The effects of these disease-linked mutations on the structure and function of tRNA-NT have not been explored. Here we use biochemical and biophysical approaches to study how five SIFD-linked amino acid substitutions (T154I, M158V, L166S, R190I and I223T), residing in the N-terminal head and neck domains of the enzyme, affect the structure and activity of human tRNA-NT in vitro. Our data suggest that the SIFD phenotype is linked to poor stability of the T154I and L166S variant proteins, and to a combination of reduced stability and altered catalytic efficiency in the M158 V, R190I and I223T variants.

摘要

人类 TRNT1 基因编码 tRNA 核苷酸转移酶（tRNA-NT）的突变，该酶是负责向 tRNA 的 3'-末端添加 CCA（胞嘧啶-胞嘧啶-腺苷）序列的必需酶，与疾病表型有关，包括先天性成红细胞性难治性贫血伴 B 细胞免疫缺陷、周期性发热和发育迟缓（SIFD）或红细胞小细胞性视网膜色素变性。这些与疾病相关的突变对 tRNA-NT 的结构和功能的影响尚未得到探索。在这里，我们使用生化和生物物理方法研究了五个 SIFD 相关的氨基酸替换（T154I、M158V、L166S、R190I 和 I223T），这些替换位于酶的 N 端头部和颈部结构域，如何影响体外人 tRNA-NT 的结构和活性。我们的数据表明，SIFD 表型与 T154I 和 L166S 变异蛋白的稳定性差有关，以及 M158V、R190I 和 I223T 变异蛋白的稳定性降低和催化效率改变的组合有关。

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体外研究与人类 tRNA 核苷酸转移酶相关的疾病变异体，揭示了其热稳定性降低和催化活性改变。

In vitro studies of disease-linked variants of human tRNA nucleotidyltransferase reveal decreased thermal stability and altered catalytic activity.

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