The Impact of Terminal Peptide Extensions of Retinal Inosine 5´Monophosphate Dehydrogenase 1 Isoforms on their DNA-binding Activities

IF 1.9 4区 生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
Mohsen Nabi Afjadi, Razieh Yazdanparast, Ebrahim Barzegari
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Abstract

The main structural difference between the mutation-susceptible retinal isoforms of inosine 5´-monophosphate dehydrogenase-1 (IMPDH-1) with the canonical form resides in the C- and N-terminal peptide extensions with unknown structural/functional impacts. In this report, we aimed to experimentally evaluate the functional impact of these extensions on the specific/non-specific single-stranded DNA (ssDNA)-binding activities relative to those of the canonical form. Our in silico findings indicated the possible contribution of the C-terminal segment to the reduced flexibility of the Bateman domain of the enzyme. In addition, the in silico data indicated that the N-terminal tail acts by altering the distance between the tetramers in the concave octamer complex (the native form) of the enzyme. The overall impact of these predicted structural variations became evident, first, through higher Km values with respect to either of the substrates relative to the canonical isoform, as reported previously (Andashti et al. in Mol Cell Biochem 465(1):155-164, 2020). Secondary, the binding of the recombinant mouse retinal isoform IMPDH1 (603) to its specific Rhodopsin target gene was significantly augmented while its binding to non-specific ssDNA was lower than that of the canonical isoform. The DNA-binding activity of the other mouse retinal isoform, IMPDH1(546), to specific and non-specific ssDNA was lower than that of the canonical form most probably due to the in silico predicted rigidity created in the Bateman domain by the C-terminal peptide extension. Furthermore, the DNA binding to the Rhodopsin target gene by each of the IMPDH isoforms influenced in the presence of GTP (Guanosine triphosphate) and ATP (Adenosine triphosphate).

Abstract Image

视网膜肌苷-5´单磷酸脱氢酶 1 异构体的末端肽延伸对其 DNA 结合活性的影响
肌苷-5´-单磷酸脱氢酶-1(IMPDH-1)的易突变视网膜异构体与标准形式之间的主要结构差异在于 C 端和 N 端肽延伸部分,其结构/功能影响尚不清楚。在本报告中,我们旨在通过实验评估这些扩展肽对特异性/非特异性单链 DNA(ssDNA)结合活性的功能影响。我们的硅学研究结果表明,C-末端片段可能导致酶的贝特曼结构域灵活性降低。此外,硅学数据还表明,N 端尾部的作用是改变酶的凹八聚体复合物(原生形式)中四聚体之间的距离。这些预测的结构变化的总体影响显而易见,首先,与标准同工型相比,与任何一种底物的 Km 值都更高,这在以前的报告中已有报道(Andashti 等人,发表于《细胞生物化学分子》465(1):155-164, 2020 年)。其次,重组小鼠视网膜异构体 IMPDH1 (603) 与特异性视网膜蛋白靶基因的结合明显增强,而与非特异性 ssDNA 的结合则低于典型异构体。另一种小鼠视网膜异构体 IMPDH1(546)与特异性和非特异性 ssDNA 的 DNA 结合活性均低于同源异构体,这很可能是由于 C 端多肽延伸在 Bateman 结构域中产生了硅学预测的刚性。此外,在 GTP(三磷酸腺苷)和 ATP(三磷酸腺苷)存在的情况下,每种 IMPDH 异构体都会影响 DNA 与黄体素靶基因的结合。
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来源期刊
The Protein Journal
The Protein Journal 生物-生化与分子生物学
CiteScore
5.20
自引率
0.00%
发文量
57
审稿时长
12 months
期刊介绍: The Protein Journal (formerly the Journal of Protein Chemistry) publishes original research work on all aspects of proteins and peptides. These include studies concerned with covalent or three-dimensional structure determination (X-ray, NMR, cryoEM, EPR/ESR, optical methods, etc.), computational aspects of protein structure and function, protein folding and misfolding, assembly, genetics, evolution, proteomics, molecular biology, protein engineering, protein nanotechnology, protein purification and analysis and peptide synthesis, as well as the elucidation and interpretation of the molecular bases of biological activities of proteins and peptides. We accept original research papers, reviews, mini-reviews, hypotheses, opinion papers, and letters to the editor.
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