Molecular and Phenotypic Analysis of 25 Recessive, Homozygous-Viable Alleles at the Mouse agouti Locus

Molecular and Phenotypic Analysis of 25 Recessive, Homozygous-Viable Alleles at the Mouse agouti Locus

Rosalynn J. Miltenberger^a,b, Kazumasa Wakamatsu^c, Shosuke Ito^c, Richard P. Woychik^a, Liane B. Russell^a, and Edward J. Michaud^a,b
^a Life Sciences Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831,
^b School of Genome Science and Technology, University of Tennessee, Knoxville, Tennessee 37996
^c Department of Chemistry, Fujita Health University School of Health Sciences, Toyoake, Aichi, 470-1192, Japan

Corresponding author: Edward J. Michaud, Oak Ridge National Laboratory, Bldg. 1061, MS 6445, P.O. Box 2008, Oak Ridge, TN 37831-6445., michaudejiii{at}ornl.gov (E-mail)

Communicating editor: N. A. JENKINS

Agouti is a paracrine-acting, transient antagonist of melanocortin1 receptors that specifies the subapical band of yellow on otherwiseblack hairs of the wild-type coat. To better understand bothagouti structure/function and the germline damage caused bychemicals and radiation, an allelic series of 25 recessive,homozygous-viable agouti mutations generated in specific-locustests were characterized. Visual inspection of fur, augmentedby quantifiable chemical analysis of hair melanins, suggestedfour phenotypic categories (mild, moderate, umbrous-like, severe)for the 18 hypomorphs and a single category for the 7 amorphs(null). Molecular analysis indicated protein-coding alterationsin 8 hypomorphs and 6 amorphs, with mild-moderate phenotypescorrelating with signal peptide or basic domain mutations, andmore devastating phenotypes resulting from C-terminal lesions.Ten hypomorphs and one null demonstrated wild-type coding potential,suggesting that they contain mutations elsewhere in the $>=$ 125-kbagouti locus that either reduce the level or alter the temporal/spatialdistribution of agouti transcripts. Beyond the notable contributionsto the field of mouse germ cell mutagenesis, analysis of thisallelic series illustrates that complete abrogation of agoutifunction in vivo occurs most often through protein-coding lesions,whereas partial loss of function occurs slightly more frequentlyat the level of gene expression control.

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