COLOUR INHERITANCE IN ICELANDIC SHEEP 111 action of modil'iers, and wliite heacl spot in animals heterozygous for white markings by incomplete dominance of the dominant allele for full pigmentation. If the above assumptions were valid, rnost of the discrepancies between earlier investigations and the present study could be explained. CHAPTER IX Gene action at colour loci in sheep and their homology with colour loci in rodents A. THE A-LOCUS The patterns produced by the alleles at the A-locus are a resuit of the inhibition of production of black and brown pigment in either certain parts of the body or in cer- tain types of follicles or both. The A-alleles manifest themselves in presence of both black and brown pigment, and the pigment type is easily detectable in presence of all the A-allefes except Ax. It will therefore be assumed that the black and brown pigment types are eumelanin pigments, similar to those found at the B-Iocus in the tnouse. The possibility that the brown (choco- late) sheep colour reierred to in the present work is in reality a dark modification of phaeomelanin pigment and not eumelanin must be rejected for the following reason. A recessive gene, e, is well known at the extension locus in guinea pigs and in the black rat which results in production of phaeomefanin onfy in ee-animals. This gene, however, when homozygous, masks completely the effect of the alleles at the agouti locus, while the brown colour found in the Icelandic sheep allows the expres- sion of all the lower A-alfeles (for references see Searle, f968). It may be assumed with some degree of confidence that the tan pigment found in some white Iceiandic sheep is phaeomelan- in. This assumption is partly based on the phenotypic similarity between tan colour in sheep and yellow in mice. Both colours occur as a result of the action of the top dominant allele at wliat must be regarded as the same locus. An important point in connection with the relationship between white colour in sheep and yellow colour in niice is the well known lack of tan colour in most white wool producing sheep breeds of the world. In that connection it is worth noting that a recessive fading gene, f, is known in guinea pigs which in homozygotes results in complete fading of all phaeomelanin, while eumelanin is unaffected. The inter- mecliate alleles in the albino series also sometimes affect phaeomelanin pigment to a greater extent than eumelanin (Searle, 1968). It is also likely that several minor modifying genes affect the occurrence of tan pigment in sheep. In wool producing breeds selection against pigmented wool has been carried out for a very fong time. The lowered amount of tan pigment in homozygous wliite animafs compared with lieterozygotes, found in the present study, would afso tend to lower the amount of tan colour in white, wool producing sheep. It is furthermore likely that the tan pig- ment decreases with decreasing fibre dia- meter of the wool. In a sefection experi- ment for and againsl hairy birthcoat in

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