An albino infant wallaby was born to a mother with the wild-type body color. PCR and sequencing analyses of <i>TYR</i> (encoding tyrosinase, which is essential for melanin biosynthesis) of this albino wallaby revealed a 7.1-kb-long DNA fragment inserted in the first exon. Because the fragment carried long terminal repeats, we assumed it to be a copy of an endogenous retrovirus, which we named <i>walb</i>. We cloned other <i>walb</i> copies residing in the genomes of this species and another wallaby species. The copies exhibited length variation, and the longest copy (>8.0 kb) contained open reading frames whose deduced amino acid sequences were well aligned with those of <i>gag</i>, <i>pol</i>, and <i>env</i> of retroviruses. It is not known through which of the following likely processes the walb copy was inserted into <i>TYR</i>: endogenization (infection of a germline cell by an exogenous virus), reinfection (infection by a virus produced from a previously endogenized provirus), or retrotransposition (intracellular relocation of a provirus). In any case, the insertion into <i>TYR</i> is considered to have been a recent event on an evolutionary timescale because albino mutant alleles generally do not persist for long because of their deleterious effects in wild circumstances.
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