Macromolecular interaction and the electrophoretic mobility of esterase-5 from Drosophila pseudoobscura
- 1 April 1987
- journal article
- research article
- Published by Springer Nature in Biochemical Genetics
- Vol. 25 (3-4) , 287-307
- https://doi.org/10.1007/bf00499322
Abstract
Esterase-5 is one of the most polymorphic loci in Drosophila pseudoobscura. Some variants reportedly produce a dimeric enzyme, while a few produce a monomeric form. This paper reports the finding that during electrophoresis ESTERASE-5 exists in a dynamic equilibrium between monomers and dimers, an equilibrium that is dependent on the running temperature of the gels. This is shown by a series of analytical electrophoresis experiments in which the apparent molecular weights of several variants are determined at four different temperatures. Increasing temperatures result in a linear decrease in the logarithm of apparent molecular weights. Macromolecular interactions thus are a significant determinant of EST-5 electrophoretic mobility.Keywords
This publication has 80 references indexed in Scilit:
- Review of Isoelectric Focusing for Gc, PGM1, Tf, and Pi Subtypes: Population DistributionsCRC Critical Reviews in Clinical Laboratory Sciences, 1984
- Interaction of Human Hemoglobin and Its Variants with AgarScience, 1983
- Theory of sedimentation for antigen-antibody reactions: Effect of antibody heterogeneity on the shape of the patternMolecular Immunology, 1982
- Isoelectric focusing of interacting systemsBiophysical Chemistry, 1979
- Study of the charge-state model for electrophoretic variation using isoelectric focusing of esterase-5 from Drosophila pseudoobscuraNature, 1978
- Theory of sedimentation for kinetically controlled dimerization reactionsBiochemistry, 1974
- A model of mutation appropriate to estimate the number of electrophoretically detectable alleles in a finite populationGenetics Research, 1973
- Bimodal Sedimenting Zones Due to Ligand-Mediated InteractionsScience, 1970
- Subdivision of the Three Common Haptoglobin Types based on ‘Hidden’ DifferencesNature, 1962
- Grouped Variations in the Occurrence of New Protein Components in Normal Human SerumNature, 1955