A network‐based approach to understanding gene–biological processes affecting economically important traits of Nelore cattle

Author:

Corrêa Mariely Simone Lopes1ORCID,Silva Evandro Neves12ORCID,dos Santos Thaís Cristina Ferreira13ORCID,Simielli Fonseca Larissa Fernanda4ORCID,Magalhães Ana Fabrícia Braga5ORCID,Verardo Lucas Lima5ORCID,de Albuquerque Lucia Galvão4ORCID,Silva Danielly Beraldo dos Santos14ORCID

Affiliation:

1. Professor Edson Antônio Velano University (UNIFENAS) Alfenas Minas Gerais Brazil

2. Federal University of Alfenas (UNIFAL) Alfenas Minas Gerais Brazil

3. National Center for Research in Energy and Materials (CNPEM) Campinas São Paulo Brazil

4. School of Agricultural and Veterinarian Sciences São Paulo State University (UNESP) Jaboticabal São Paulo Brazil

5. Department of Animal Science Federal University of Vales do Jequitinhonha e Mucuri (UFVJM) Diamantina Minas Gerais Brazil

Abstract

AbstractThis study aimed to build gene–biological process networks with differentially expressed genes associated with economically important traits of Nelore cattle from 17 previous studies. The genes were clustered into three groups by evaluated traits: group 1, production traits; group 2, carcass traits; and group 3, meat quality traits. For each group, a gene–biological process network analysis was performed with the differentially expressed genes in common. For production traits, 37 genes were found in common, of which 13 genes were enriched for six Gene Ontology (GO) terms; these terms were not functionally grouped. However, the enriched GO terms were related to homeostasis, the development of muscles and the immune system. For carcass traits, four genes were found in common. Thus, it was not possible to functionally group these genes into a network. For meat quality traits, the analysis revealed 222 genes in common. CSRP3 was the only gene differentially expressed in all three groups. Non‐redundant biological terms for clusters of genes were functionally grouped networks, reflecting the cross‐talk between all biological processes and genes involved. Many biological processes and pathways related to muscles, the immune system and lipid metabolism were enriched, such as striated muscle cell development and triglyceride metabolic processes. This study provides insights into the genetic mechanisms of production, carcass and meat quality traits of Nelore cattle. This information is fundamental for a better understanding of the complex traits and could help in planning strategies for the production and selection systems of Nelore cattle.

Publisher

Wiley

Subject

Genetics,Animal Science and Zoology,General Medicine

Reference62 articles.

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3. Introduction to lipid biochemistry, metabolism, and signaling;Alex H.B.;Chemical Reviews,2011

4. Systems Biology Reveals NR2F6 and TGFB1 as Key Regulators of Feed Efficiency in Beef Cattle

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