Transcriptome provides insights into bovine mammary regulatory mechanisms during the lactation cycle

The molecular events underlying the lactation curve of dairy animals have long been a biological conundrum for mammary biologists, and a cause of a considerable loss of income for dairy farmers. To better understand the regulatory mechanisms and developmental processes of the mammary gland during th...

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Veröffentlicht in:	Journal of Applied Animal Research 2022-12, Vol.50 (1), p.275-288
Hauptverfasser:	Song, Xuyang, Zhao, Meng, Cao, Qiaoqiao, Wang, Shengxuan, Li, Ranran, Zhang, Xuan, Zhang, Letian, Shi, Kerong
Format:	Artikel
Sprache:	eng
Schlagworte:	dairy cattle Epithelium Extracellular matrix Gene expression Genomes Lactation Lactation cycle Mammary gland mammary gland development Milk production milk production traits QTLs Quantitative trait loci Transcriptomes
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description	The molecular events underlying the lactation curve of dairy animals have long been a biological conundrum for mammary biologists, and a cause of a considerable loss of income for dairy farmers. To better understand the regulatory mechanisms and developmental processes of the mammary gland during the lactation cycle, whole-genome transcriptome profiles of bovine mammary tissues at five different lactation stages were investigated using the RNA-Seq technique. The differentially expressed genes were identified by comparing different lactation stage combinations. Gene expression changes were validated using quantitative reverse-transcription polymerase chain reaction. Some differentially expressed genes were found to locate in the known quantitative trait loci regions that are associated with multiple milk production traits. Proteins of potentially important genes were confirmed to be expressed in the mammary epithelium of dairy cows. An integrated analysis of differential gene expression indicated that internal development regularities underlying the shape of the milk production curve. First, the mammary gland is enriched in similar activities during lactation onset and involution, but in opposite regulatory directions. Second, the lactation stages before and after the milk peak shared similar biological processes that were mainly involved in extracellular matrix remodelling. The discoveries of the study provide information necessary to improve milk production.
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subjects	dairy cattle Epithelium Extracellular matrix Gene expression Genomes Lactation Lactation cycle Mammary gland mammary gland development Milk production milk production traits QTLs Quantitative trait loci Transcriptomes
title	Transcriptome provides insights into bovine mammary regulatory mechanisms during the lactation cycle
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