Application of proteomics for determining protein markers for wool quality traits.

The technique of two-dimensional electrophoresis (2-DE) has been under investigation for its usefulness in identifying protein markers for wool quality traits in sheep. However, before this could be achieved, unique problems relating to the detection and quantitation of wool proteins needed to be overcome so that 2-DE protein maps could be examined using computational programs like Melanie II. Four protein staining regimes were examined. Colloidal Coomassie Blue G-250 was found to be superior to Coomassie Blue R-250 and gave satisfactory staining of all protein classes. Silver staining detects minor strings of keratinous proteins, but unfortunately it negatively stains intermediate filament proteins, the major high sulphur proteins (HSPs) and the high glycine tyrosine proteins and the latter two classes can only be seen by overstaining the background of the gel. In contrast, labeling reduced keratins with [14C]iodoacetamide, followed by autoradiography detection, results in a protein map with low background and all protein spots stained positively. 2-DE has been used to obtain wool protein maps of Lincoln/Merino chimeric sheep to examine wool originating from two genotypes grown with different crimp frequencies within the same fleece. Between fleece, variations have also been examined. Work to date suggests that several major HSPs may be associated with the fibre curvature trait known as crimp frequency. From matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectral mapping, one of these proteins has been identified as being from the B2A family from the HSP class.