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Discovery of genes and proteins possibly regulating mean wool fibre diameter using cDNA microarray and proteomic approaches

Jinshan Zhao, Huaiyuan Qin, Jingjing Xin, Nan Liu, Rongwei Han, Flor M. Pérez-Campo, Hegang Li

2020Scientific Reports17 citationsDOIOpen Access PDF

Abstract

Wool fibre diameter (WFD) is one of the wool traits with higher economic impact. However, the main genes specifically regulating WFD remain unidentified. In this current work we have used Agilent Sheep Gene Expression Microarray and proteomic technology to investigate the gene expression patterns of body side skin, bearing more wool, in Aohan fine wool sheep, a Chinese indigenous breed, and compared them with that of small tail Han sheep, a sheep bread with coarse wool. Microarray analyses showed that most of the genes likely determining wool diameter could be classified into a few categories, including immune response, regulation of receptor binding and growth factor activity. Certain gene families might play a role in hair growth regulation. These include growth factors, immune cytokines, solute carrier families, cellular respiration and glucose transport amongst others. Proteomic analyses also identified scores of differentially expressed proteins.

Topics & Concepts

WoolMicroarrayGeneBiologyMicroarray analysis techniquesGene expressionBreedProteomicsComplementary DNAGeneticsArchaeologyHistoryHair Growth and DisordersMolecular Biology Techniques and ApplicationsAdipokines, Inflammation, and Metabolic Diseases
Discovery of genes and proteins possibly regulating mean wool fibre diameter using cDNA microarray and proteomic approaches | Litcius