Characterization of Novel Muscle Expression Profiles Associated with Meat Quality in Beef Cattle

Overview

Journal Evol Appl

Specialty Biology

Date 2022 May 4

PMID 35505883

Authors

Maria Malane Magalhaes Muniz

Larissa Fernanda Simielli Fonseca

Daiane Cristina Becker Scalez

Aroa Suarez Vega

Danielly Beraldo Dos Santos Silva

Jesus Aparecido Ferro

Artur Loyola Chardulo

Fernando Baldi

Angela Canovas

Lucia Galvao De Albuquerque

Affiliations

Soon will be listed here.

Abstract

The aim of this study was to identify novel lncRNA differentially expressed (DE) between divergent animals for beef tenderness and marbling traits in Nellore cattle. muscle samples from the 20 most extreme bulls (of 80 bulls set) for tenderness, tender ( = 10) and tough ( = 10) groups, and marbling trait, high ( = 10) and low ( = 10) groups were used to perform transcriptomic analysis using RNA-Sequencing. For tenderness, 29 lncRNA were DE (-value ≤ 0.01) in tough beef animals in relation to tender beef animals. We observed that genic lncRNAs, for example, ., were overlapping exonic part of the gene, while . and . overlapped intronic part of the genes and . The lncRNA associated with , , and genes were enriched in the pathways associated with the ionotropic glutamate receptor, gamma-aminobutyric acid synthesis, and the ubiquitin-proteasome pathway. For marbling, 50 lncRNA were DE (-value ≤ 0.01) in high marbling group compared with low marbling animals. The genic lncRNAs, such as ., were overlapped exonic part of the gene, and the ., ., and . overlapped intronic parts of the and genes. The and genes were enriched in pathways associated with integrin signaling, which is involved in intracellular signals in response to the extracellular matrix, including cell form, mobility, and mediates progression through the cell cycle. In addition, the lincRNAs identified to marbling trait were associated with several genes related to calcium binding, muscle hypertrophy, skeletal muscle, lipase, and oxidative stress response pathways that seem to play a role important in the physiological processes related to meat quality. These findings bring new insights to better understand the biology mechanisms involved in the gene regulation of these traits, which will be valuable for a further investigation of the interactions between lncRNA and mRNAs, and of how these interactions may affect meat quality traits.

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