Characterisation of white and black merino wools: a proteomics study

• Published in: Animal (Cambridge, England) Vol. 13; no. 3; pp. 659 - 665
• Main Authors: Plowman, J., Thomas, A., Perloiro, T., Clerens, S., de Almeida, A. M.
• Format: Journal Article
• Language: English
• Published: Cambridge, UK Cambridge University Press 01.03.2019; Elsevier Limited; Elsevier
• Subjects: 20th century; Agricultural commodities; Animals; Cashmere; Color; Curvature; Female; Fibers; fibre quality; Gene Expression; Glycine; high-glycine–tyrosine proteins; high-sulphur proteins; Keratin; Mohair; Ovis aries; Pigments, Biological; Portugal; Proteins; Proteome; Proteomics; Quality; Quality of Animal Products; Research Article; Sheep; Sheep, Domestic - genetics; Sheep, Domestic - physiology; Species Specificity; Sulfur; Textile industry; Tyrosine; Wool; Wool - chemistry; Portugal; Iberian Peninsula; keratin; high-sulphur proteins; fibre quality; high-glycine–tyrosine proteins; proteome
• ISSN: 1751-7311; 1751-732X
• DOI: 10.1017/S1751731118001647

Wool is an important agricultural commodity with merino wool being rated alongside the finest quality fibres, which include the goat fibres Mohair and Cashmere. Although pigmented wool merinos have become extremely rare, the market for this wool is increasing. In Portugal, there are two merino breeds: white and black, descendants of animals originally bred on the Iberian Peninsula. These breeds have the potential to assist in our understanding of how protein expression relates to wool traits of importance to the textile industry. Herein, we study the characteristics and protein expression profiles of wool from ewes of the Portuguese black and white merino (n=15). Both breeds had very similar results for fibre diameter (25 µm) and curvature (105 to 111°/mm). Significant between-breed differences were found in the two types of keratin-associated proteins (KAPs): high-sulphur proteins (HSPs) and high-glycine–tyrosine proteins (HGTPs). The expression of HSPs, KAP2-3 and KAP2-4, decreased expression in the pigmented animals, whereas KAP13-1 was found in higher amounts. Likewise, the expression of the ultra-high-sulphur proteins, KAP4-3 and KAP4-7-like, was reduced in black sheep to half the levels of the white wools, whereas the HGTPs, KAP6, KAP6-1, KAP6-2 and KAP16-2, were more abundant in black sheep. These results suggest structural differences between the black and white merino wool, because of differences among some KAPs. These differences have important implications for the textile industry.