Identification of potential candidate genes associated with milk protein differences in Holstein cows: A meta-Analysis integrating GWAS and RNA-Seq transcriptome

IF 1.2 4区农林科学 Q3 AGRICULTURE, DAIRY & ANIMAL SCIENCE

Canadian Journal of Animal Science Pub Date : 2024-04-04 DOI:10.1139/cjas-2023-0108

Somaieh Bakhshalizadeh, Saeed Zerehdaran, Karim Hasanpur, A. Javadmanesh

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引用次数: 0

Abstract

Despite the identification of candidate genes influencing milk protein, the connections between genes and regulatory pathways remains elusive. This study aimed integrate findings from genome wide association studies (GWAS) and RNA sequencing (RNA-Seq) through meta-analysis to pinpoint single nucleotide polymorphisms (SNPs) and genes responsible for high and low protein yield in cows. Previous GWAS and RNA-Seq analyses had identified 663 SNPs and 1,106 genes (P<0.05). 20 SNPs from GWAS, 10 genes from RNA-Seq, and 49 SNP/gene associations from both datasets, were identified using meta-analysis. Meta-analysis validated several SNPs previously identified through GWAS, such as rs135549651 (P=2.6×〖10〗^(-256)), rs109146371 (P=3.1×〖10〗^(-208)), rs109350371 (P=4.0×〖10〗^(-207)), and rs109774038 (P=8.6×〖10〗^(-587)). Genes identified in RNA-Seq experiments, including NR4A1 (P=3.2×〖10〗^(-7)), ATF3 (P=9.6×〖10〗^(-7)), CDH16 (P=9.9×〖10〗^(-7)), VEGFA (P=1.0×〖10〗^(-6)), and SAA3 (P=7.3×〖10〗^(-11)), were confirmed. The combined GWAS and RNA-Seq datasets highlighted CCND2 (P=8.9×〖10〗^(-111)), MAPK15 (P=1.3×〖10〗^(-151)), and CPSF1 (P=1.2×〖10〗^(-306)) as the most significant genes. Additionally, significant GO terms including ionizing radiation (P=1.5×〖10〗^(-4)), nuclear pore cytoplasmic filaments (P=9.4×〖10〗^(-5)), and phenylalanine 4-monooxygenase activity (P=1.4×〖10〗^(-5)) were identified. In conclusion, the integration of GWAS and RNA-Seq, coupled with GO enrichment, allowed identification of candidate SNPs and genes with higher accuracy. These findings improve our knowledge about genomic architecture of milk protein, and enhance evaluation of Holstein cows.

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鉴定与荷斯坦奶牛乳蛋白差异相关的潜在候选基因：整合 GWAS 和 RNA-Seq 转录组的元分析

尽管已经发现了影响牛奶蛋白的候选基因，但基因与调控途径之间的联系仍然难以捉摸。本研究旨在通过荟萃分析整合基因组关联研究（GWAS）和 RNA 测序（RNA-Seq）的研究结果，找出导致奶牛蛋白质产量高低的单核苷酸多态性（SNPs）和基因。之前的 GWAS 和 RNA-Seq 分析确定了 663 个 SNP 和 1,106 个基因（P<0.05）。通过荟萃分析确定了来自 GWAS 的 20 个 SNPs、来自 RNA-Seq 的 10 个基因以及来自这两个数据集的 49 个 SNP/ 基因关联。荟萃分析验证了之前通过 GWAS 确定的几个 SNP，如 rs135549651（P=2.6×〖10〗^(-256)）、rs109146371（P=3.1×〖10〗^(-208)）、rs109350371（P=4.0×〖10〗^(-207)）和 rs109774038（P=8.6×〖10〗^(-587)）。在 RNA-Seq 实验中发现的基因，包括 NR4A1（P=3.2×〖10〗^(-7)）、ATF3（P=9.6×〖10〗^(-7)）、CDH16（P=9.9×〖10〗^(-7)）、VEGFA（P=1.0×〖10〗^(-6)）和 SAA3（P=7.3×〖10〗^(-11)），均得到了证实。结合 GWAS 和 RNA-Seq 数据集，CCND2（P=8.9×〖10〗^(-111)）、MAPK15（P=1.3×〖10〗^(-151)）和 CPSF1（P=1.2×〖10〗^(-306)）是最重要的基因。此外，还发现了包括电离辐射（P=1.5×〖10〗^(-4)）、核孔细胞质丝（P=9.4×〖10〗^(-5)）和苯丙氨酸 4-单加氧酶活性（P=1.4×〖10〗^(-5)）在内的重要 GO 项。总之，GWAS 和 RNA-Seq 的整合，再加上 GO 富集，使得候选 SNP 和基因的鉴定具有更高的准确性。这些发现提高了我们对牛奶蛋白基因组结构的认识，并加强了对荷斯坦奶牛的评估。

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来源期刊

Canadian Journal of Animal Science 农林科学-奶制品与动物科学

CiteScore

2.30

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： Published since 1957, this quarterly journal contains new research on all aspects of animal agriculture and animal products, including breeding and genetics; cellular and molecular biology; growth and development; meat science; modelling animal systems; physiology and endocrinology; ruminant nutrition; non-ruminant nutrition; and welfare, behaviour, and management. It also publishes reviews, letters to the editor, abstracts of technical papers presented at the annual meeting of the Canadian Society of Animal Science, and occasionally conference proceedings.