Comprehensive bioinformatics-based annotation and functional characterization of bovine chymosin protein revealed novel biological insights

IF 4.1 Q2 FOOD SCIENCE & TECHNOLOGY Food Chemistry Molecular Sciences Pub Date : 2023-12-27 DOI:10.1016/j.fochms.2023.100191
Hafsa Amjad , Faiza Saleem , Munir Ahmad , Uzma Nisar , Hamza Arshad Dar
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Abstract

Chymosin, an aspartic protease present in the stomachs of young ruminants like cows (bovine), causes milk coagulation and cheese production through the breakdown of κ-casein peptide bonds at the Met105-Phe106 site. Bovine chymosin is first synthesized as a pre-prochymosin that is cleaved to produce the mature chymosin protein. Despite significant strides in research, our understanding of this crucial enzyme remains incomplete. The purpose of this work was to perform in silico evolutionary and functional analysis and to gain unique insights into the structure of this protein. For this, the sequence of Bos taurus chymosin from UniProt database was subjected to various bioinformatics analyses. We found that bovine chymosin is a low molecular weight and hydrophilic protein that has homologs in other Bovidae species. Two active sites of aspartic peptidases, along with a functional domain, were identified. Gene Ontology analysis further confirmed chymosin's involvement in proteolysis and aspartic endopeptidase activity. Potential disordered residues and post-translational modification sites were also uncovered. It was revealed that the secondary structure of bovine chymosin is comprised of beta strands (44.27%), coils (43.65%), and alpha helices (12.07%). A highly optimized 3D structure was also obtained. Moreover, crucial protein–protein interactions were unveiled. Altogether, these findings provide valuable insights that could guide future research on bovine chymosin and its biological roles.

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基于生物信息学的牛糜蛋白酶蛋白全面注释和功能表征揭示了新的生物学见解
糜蛋白酶是一种天冬氨酸蛋白酶,存在于奶牛等年轻反刍动物的胃中,通过分解 Met105-Phe106 位点上的κ-酪蛋白肽键,使牛奶凝固并产生奶酪。牛糜蛋白首先合成为前糜蛋白,然后裂解产生成熟的糜蛋白。尽管研究取得了重大进展,但我们对这种关键酶的了解仍不全面。这项工作的目的是对这种蛋白质的结构进行硅学进化和功能分析,并获得独特的见解。为此,我们对 UniProt 数据库中的牛糜蛋白酶序列进行了各种生物信息学分析。我们发现,牛糜蛋白是一种低分子量的亲水蛋白,在其他牛科物种中也有同源物。我们还发现了两个天冬氨酸肽酶活性位点和一个功能域。基因本体分析进一步证实了糜蛋白参与蛋白分解和天冬氨酸内肽酶活性。此外,还发现了潜在的紊乱残基和翻译后修饰位点。研究发现,牛糜蛋白酶的二级结构由β股(44.27%)、线圈(43.65%)和α螺旋(12.07%)组成。此外,还获得了高度优化的三维结构。此外,还揭示了关键的蛋白质之间的相互作用。总之,这些发现提供了有价值的见解,可指导今后对牛糜蛋白及其生物学作用的研究。
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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来源期刊
Food Chemistry Molecular Sciences
Food Chemistry Molecular Sciences Agricultural and Biological Sciences-Food Science
CiteScore
6.00
自引率
0.00%
发文量
83
审稿时长
82 days
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