The hemoglobins of Artemia salina. IV. A model for genetic control of hemoglobin 1, hemoglobin 2, and hemoglobin X |
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Authors: | Bowen Sarane T. Sterling Gery Barkan Jean |
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Affiliation: | (1) Department of Biology, San Francisco State University, 1600 Holloway, 94132 San Francisco, California |
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Abstract: | Two loci account for all genetic variation resulting in difference in electrophoretic mobility in three hemoglobins (Hb1, Hb2, and HbX) in the hemolymph of the brine shrimp. Four alleles and nine alleles have been studied. In shrimps of all genotypes and in electrophoresis in media with varying degrees of molecular sieving, Hb2 is approximately equidistant from Hb1 and HbX. A shrimp heterozygous at both loci has a three-banded Hb1, a four-banded Hb2, and a three-banded HbX. We conclude that Hb2 contains n -polypeptides and n -polypeptides. Hb1 contains 2n -polypeptides. HbX contains 2n -polypeptides. During electrophoresis, the three native hemoglobins undergo reversible dissociation to n subunits. Subunits with the same charge reassemble to migrate as molecules of the same size as the native molecules. Although there is no evidence for an additional polypeptide in the three hemoglobins, we cannot exclude such a possibility. If it exists, it is under three constraints: (1) it must be present in equal amounts in each of the three hemoglobins; (2) it must have the same molecular weight as the - and -polypeptides; and (3) it must be free of genetic variation (detectable by electrophoresis).Supported by National Institutes of Health Grant HE-11445. |
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Keywords: | crustacean hemoglobin polyacrylamide electrophoresis Artemia |
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