Genetic diversity, population structure of seven Indian domestic goat breeds based SNPs identified in CAPN1 gene

Q4 Biochemistry, Genetics and Molecular Biology

Animal Gene Pub Date : 2020-09-01 DOI:10.1016/j.angen.2020.200104

Lakshya Veer Singh , V. Tripathi , Rekha Sharma , A. Maitra , A.K. Pandey

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引用次数: 1

Abstract

The micromolar calcium-activated neutral protease (CAPN1) gene encodes μ-calpain that degrades myofibril proteins under the post-mortem conditions which appears to be the primary enzyme in the postmortem tenderization process, hence affecting the meat quality. Objective of this study was to analyze genetic polymorphism of the CAPN1 gene in seven diverse Indian goat breeds. Direct DNA sequencing was carried out to identify the genetic polymorphisms in 84 unrelated goats representing seven different goat breeds (Barbari, Beetal, Ganjam, Sirohi, Black Bengal, Osmanabadi and Malabari). Six single nucleotide polymorphisms (SNPs) were identified in CAPN1 gene intron 17. The observed heterozygosity (Ho) was highest (0.50) in Sirohi and Osmanabadi (0.42) breeds and lowest in Black Bengal (0.06) breed. The expected heterozygosity (He) was highest (0.45) in Sirohi followed by Osmanabadi (0.37), Barbari (0.34) and Beetal (0.37). The allele frequencies ranged from 0.083 to 0.917 and the major allele frequencies ranged from 0.595 (locus 6499 T/C) to 0.917 (locus 6529 T/C). In Black Bengal, polymorphism at all theloci was fixed with the exception of 6417 T/G and 6533C/G. The identity values oscillated from 0.7866 to 0.9593. The Nei's genetic distances were below 0.0294. Genetic diversity among different goat meat breeds indicates possible role in meat quality trait. Allelic diversity at this locus could be used in further for the association between gene polymorphism and enzyme activity as well as caprine meat quality traits.

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基于CAPN1基因snp的7个印度家山羊品种遗传多样性及群体结构分析

微摩尔钙活化中性蛋白酶(CAPN1)基因编码μ-calpain，该基因在死后条件下降解肌原纤维蛋白，是死后嫩化过程中的主要酶，从而影响肉质。本研究的目的是分析7个不同印度山羊品种CAPN1基因的遗传多态性。对来自7个山羊品种(Barbari、Beetal、Ganjam、Sirohi、Black Bengal、Osmanabadi和Malabari)的84只无亲缘关系山羊进行了直接DNA测序，以确定遗传多态性。在CAPN1基因17内含子中鉴定出6个单核苷酸多态性(snp)。观察到的杂合度(Ho)在Sirohi和Osmanabadi品种中最高(0.50)，在Black Bengal品种中最低(0.06)。期望杂合度(He)以Sirohi最高(0.45)，其次为Osmanabadi(0.37)、Barbari(0.34)和Beetal(0.37)。等位基因频率范围为0.083 ~ 0.917，主等位基因频率范围为0.595 ~ 0.917(基因座6499 T/C)。在黑孟加拉，除了6417 T/G和6533C/G位点外，其余位点的多态性都是固定的。恒等值在0.7866到0.9593之间振荡。Nei的遗传距离在0.0294以下。不同山羊品种间的遗传多样性可能在肉质性状中起作用。该位点的等位基因多样性可进一步用于研究基因多态性与酶活性之间的关系以及羊肉品质性状之间的关系。

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Animal Gene Agricultural and Biological Sciences-Insect Science

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期刊介绍： Gene Reports publishes papers that focus on the regulation, expression, function and evolution of genes in all biological contexts, including all prokaryotic and eukaryotic organisms, as well as viruses. Gene Reports strives to be a very diverse journal and topics in all fields will be considered for publication. Although not limited to the following, some general topics include: DNA Organization, Replication & Evolution -Focus on genomic DNA (chromosomal organization, comparative genomics, DNA replication, DNA repair, mobile DNA, mitochondrial DNA, chloroplast DNA). Expression & Function - Focus on functional RNAs (microRNAs, tRNAs, rRNAs, mRNA splicing, alternative polyadenylation) Regulation - Focus on processes that mediate gene-read out (epigenetics, chromatin, histone code, transcription, translation, protein degradation). Cell Signaling - Focus on mechanisms that control information flow into the nucleus to control gene expression (kinase and phosphatase pathways controlled by extra-cellular ligands, Wnt, Notch, TGFbeta/BMPs, FGFs, IGFs etc.) Profiling of gene expression and genetic variation - Focus on high throughput approaches (e.g., DeepSeq, ChIP-Seq, Affymetrix microarrays, proteomics) that define gene regulatory circuitry, molecular pathways and protein/protein networks. Genetics - Focus on development in model organisms (e.g., mouse, frog, fruit fly, worm), human genetic variation, population genetics, as well as agricultural and veterinary genetics. Molecular Pathology & Regenerative Medicine - Focus on the deregulation of molecular processes in human diseases and mechanisms supporting regeneration of tissues through pluripotent or multipotent stem cells.