Mitogen-induced B-cell differentiation in Xenopus laevis |
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Authors: | Joseph Schwager Irandokht Hadji-Azlmi |
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Affiliation: | Department of Physiology and Cell Biology and Center for Biomedical Research, University of Kansas, Lawrence, Kansas 66045, USA;Department of Biology, Indiana University, Bloomington, Indiana 47405, USA |
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Abstract: | Abstract. Four genes are known to affect pigmentation in the Mexican axolotl. The purpose of this article is to review previous information pertinent to these genes and to reevaluate such information in light of new evidence that demonstrates (in a preliminary way) how pigments, and subsequently phenotypes, are affected by the various pigment genes. Each of the mutant phenotypes – m (melanoid), ax (axanthic), a (albino), and d (white) - is compared to the wild type (D). All of these genes are recessives, all of them affect phenotypic changes during development, and three of the four ( m, a , and d ) also affect specific biochemical (i.e., pigment) changes during development. In the axolotl, color patterns can be directly correlated to the presence(or absence) of a variety of pigments that are normally found in discrete pigment cells. Qualitative and quantitative analyses of the bright-colored pigments (pteridines and flavins in this case) present in axolotl skin demonstrate that these pigments vary significantly among the various phenotypes under consideration. These analyses raise some interesting questions with regard to how each of the pigment genes is believed to act, and numerous possibilities for continued experimentation are suggested. |
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