Analysis of immunoglobulin organization and complexity in mink (Neovison vison)

IF 2.7 3区 农林科学 Q1 FISHERIES Developmental and comparative immunology Pub Date : 2024-07-26 DOI:10.1016/j.dci.2024.105234
Xiaohua Yi , Yanbo Qiu , Shuhui Wang , Xiuzhu Sun
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Abstract

Mink are susceptible to viruses such as SARS-CoV-2, H1N1 and H9N2, so they are considered a potential animal model for studying human viral infections. Therefore, it is important to study the immune system of mink. Immunoglobulin (Ig) is an important component of humoral immunity and plays an important role in the body's immune defense. In this study, we described the gene loci structure of mink Ig germline by genome comparison, and analysed the mechanism of expression diversity of mink antibody library by 5′RACE and next-generation sequencing (NGS). The results were as follows: the IgH, Igκ and Igλ loci of mink were located on chromosome 13, chromosome 8 and chromosome 3, respectively, and they had 25, 36 and 7 V genes, 3, 5 and 7 J genes and 10 DH genes, respectively. Mink Ig heavy chain preferred the IGHV1, IGHD2 and IGHJ4 subgroups, κ chain mainly use the IGKV1, IGKJ1 and IGHL4 subgroups, and λ chain mainly use the IGLV3 and IGLJ3 subgroups. Linkage diversity analysis revealed that N nucleotide insertion was the main factor affecting the linkage diversity of mink Igs. On the mutation types of mink Ig Somatic Hypermutation (SHM), the high mutation types of heavy chain were mainly G > A, C > T, T > C, A > G, C > A, G > T, A > C, and T > G; the high mutation types of κ chain were G > A and T > C; and the high mutation types of λ chain were G > A and A > G. The objective of this study was to analyse the loci structure and expression diversity of Ig in mink. The results contribute to our comprehension of Ig expression patterns in mink and were valuable for advancing knowledge in mink immunogenetics, exploring the evolution of adaptive immune systems across different species, and conducting comparative genomics research.

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水貂(Neovison vison)免疫球蛋白组织和复杂性分析
水貂对 SARS-CoV-2、H1N1 和 H9N2 等病毒易感,因此被认为是研究人类病毒感染的潜在动物模型。因此,研究水貂的免疫系统非常重要。免疫球蛋白(Ig)是体液免疫的重要组成部分,在机体免疫防御中发挥着重要作用。本研究通过基因组比对描述了水貂Ig种系的基因位点结构,并通过5'RACE和下一代测序(NGS)分析了水貂抗体文库表达多样性的机制。结果表明:水貂的IgH、Igκ和Igλ基因座分别位于13号染色体、8号染色体和3号染色体上,分别有25、36和7个V基因,3、5和7个J基因,10个DH基因。水貂 Ig 重链首选 IGHV1、IGHD2 和 IGHJ4 亚群,κ链主要使用 IGKV1、IGKJ1 和 IGHL4 亚群,λ链主要使用 IGLV3 和 IGLJ3 亚群。连锁多样性分析表明,N核苷酸插入是影响水貂Igs连锁多样性的主要因素。在水貂Ig体细胞高突变(Shematic Hypermutation,SHM)的突变类型中,重链的高突变类型主要为G>A、C>T、T>C、A>G、C>A、G>T、A>C和T>G;κ链的高突变类型为G>A和T>C;λ链的高突变类型为G>A和A>G。本研究旨在分析水貂 Ig 的位点结构和表达多样性。研究结果有助于我们理解水貂Ig的表达模式,对增进水貂免疫遗传学知识、探索不同物种适应性免疫系统的进化以及开展比较基因组学研究具有重要价值。
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来源期刊
CiteScore
6.20
自引率
6.90%
发文量
206
审稿时长
49 days
期刊介绍: Developmental and Comparative Immunology (DCI) is an international journal that publishes articles describing original research in all areas of immunology, including comparative aspects of immunity and the evolution and development of the immune system. Manuscripts describing studies of immune systems in both vertebrates and invertebrates are welcome. All levels of immunological investigations are appropriate: organismal, cellular, biochemical and molecular genetics, extending to such fields as aging of the immune system, interaction between the immune and neuroendocrine system and intestinal immunity.
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