Genetic factors underlying host resistance to Rhipicephalus microplus tick infestation in Braford cattle: a systems biology perspective.

IF 2.7 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Mammalian Genome Pub Date : 2024-06-01 Epub Date: 2024-03-13 DOI:10.1007/s00335-024-10030-x

Wanessa A Carvalho, Emanuelle B Gaspar, Robert Domingues, Luciana C A Regitano, Fernando F Cardoso

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Abstract

Approximately 80% of the world's cattle are raised in regions with a high risk of tick-borne diseases, resulting in significant economic losses due to parasitism by Rhipicephalus (Boophilus) microplus. However, the lack of a systemic biology approach hampers a comprehensive understanding of tick-host interactions that mediate tick resistance phenotypes. Here, we conducted a genome-wide association study (GWAS) of 2933 Braford cattle and found 340 single-nucleotide polymorphisms (SNPs) associated with tick counts. Gene expression analyses were performed on skin samples obtained from previously tick-exposed heifers with extremely high or low estimated breeding values for R. microplus counts. Evaluations were performed both before and after artificial infestation with ticks. Differentially expressed genes were found within 1-Mb windows centered at significant SNPs from GWAS. A total of 330 genes were related to the breakdown of homeostasis that was induced by larval attachment to bovine skin. Enrichment analysis pointed to a key role of proteolysis and signal transduction via JAK/STAT, NFKB and WNT/beta catenin signaling pathways. Integrative analysis on matrixEQTL revealed two cis-eQTLs and four significant SNPs in the genes peptidyl arginine deiminase type IV (PADI4) and LOC11449251. The integration of genomic data from QTL maps and transcriptome analyses has identified a set of twelve key genes that show significant associations with tick loads. These genes could be key candidates to improve the accuracy of genomic predictions for tick resistance in Braford cattle.

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布拉福德牛宿主对 Rhipicephalus microplus 蜱虫侵扰抵抗力的遗传因素：系统生物学视角。

全球约有 80% 的牛是在蜱传疾病高发地区饲养的，由于小加蜱的寄生，造成了巨大的经济损失。然而，系统生物学方法的缺乏阻碍了对蜱-宿主相互作用的全面了解，而这种相互作用是蜱抗性表型的介导因素。在这里，我们对 2933 头布拉福牛进行了全基因组关联研究（GWAS），发现了 340 个与蜱数量相关的单核苷酸多态性（SNPs）。基因表达分析是在先前接触过蜱虫的小母牛皮肤样本上进行的，这些小母牛的蜱虫数量估计育种值极高或极低。在蜱虫人工感染之前和之后都进行了评估。在以来自 GWAS 的重要 SNP 为中心的 1-Mb 窗口内发现了差异表达基因。共有 330 个基因与幼虫附着在牛皮肤上引起的平衡破坏有关。富集分析表明，蛋白分解和通过 JAK/STAT、NFKB 和 WNT/beta catenin 信号通路的信号转导起着关键作用。对 matrixEQTL 的整合分析表明，在肽基精氨酸脱氨酶 IV 型（PADI4）和 LOC11449251 基因中存在两个顺式-eQTL 和四个显著的 SNPs。通过整合 QTL 图谱和转录组分析的基因组数据，确定了一组与蜱载量有显著关联的 12 个关键基因。这些基因可能是提高布拉福牛抗蜱基因组预测准确性的关键候选基因。

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来源期刊

Mammalian Genome 生物-生化与分子生物学

CiteScore

4.00

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Mammalian Genome focuses on the experimental, theoretical and technical aspects of genetics, genomics, epigenetics and systems biology in mouse, human and other mammalian species, with an emphasis on the relationship between genotype and phenotype, elucidation of biological and disease pathways as well as experimental aspects of interventions, therapeutics, and precision medicine. The journal aims to publish high quality original papers that present novel findings in all areas of mammalian genetic research as well as review articles on areas of topical interest. The journal will also feature commentaries and editorials to inform readers of breakthrough discoveries as well as issues of research standards, policies and ethics.