Components of the major urinary protein complex of inbred mice: determination of NH2-terminal sequences and comparison with homologous components from wild mice.

Abstract

The major urinary protein (MUP) complex of normal inbred laboratory mice (Mus musculus musculus) is a family of three electrophoretically distinguishable components, designated 1, 2, and 3 in order of increasing anodal mobility at pH 5.5. Components 1 and 2 are under the control of a single genetic locus; the MUP complex of a given inbred strain consists of component 1 or 2 plus component 3. In this study, the urinary protein of two subspecies of Asian wild mice, Mus musculus molossinus (originally trapped in Japan) and Mus musculus castaneus (originally trapped in Thailand), was examined electrophoretically and ultracentrifugally. The MUP complex of male M. m. molossinus and M. m. castaneus sedimented at approximately the same rate as that of M. m. musculus (s 20 =2.0−2.2S). It consisted of a “fast” (i.e., more anodal than component 3) and an “intermediate” component plus one or more “origin” (i.e., less anodal than component 1) components. The “fast” and “origin” components were isolated chromatographically, and NH2-terminal sequences spanning the first 36 residues were determined. Comparison with the NH2-terminal sequences determined for components 1, 2, and 3 isolated from the urine of BALB/c or C57BL/6 mice revealed, except for a single replacement at position 6 in the “origin” component of M. m. molossinus, no differences among the 1, 2, “origin”, and “fast” components. Component 3 was highly homologous but differed from component 1 at nine positions; its residue at position 6 was the same as that of the M. m. molossinus “origin” component.