Abstract
The model of congenic strains of Drosophila melanogaster was used to investigate the peculiarities of the effect of mutations in yellow (y), ebony (e), and black (b) genes involved in biogenesis of cuticle pigments on imago mating behavior indicators. The aim of this study was to find out if the effect of the given mutations on Drosophila imago mating behavior depends on the general genetic background on which they are realized. To achieve this goal, pairs of congenic strains were constructed using successive saturation crosses followed by selection for the marker phenotype resulted in each of the mutant alleles introduced in homozygous condition into the genotype of either Canton-S or Oregon-R wild-type stock instead of the corresponding wild-type allele present in these stocks initially. Individuals of strains resulted were tested for mating receptivity of females and mating activity of males. Each of the indicators was evaluated as a proportion of sexually mature but virgin individuals of a particular sex copulated successfully within the first hour after placing them in a test chamber with an excess of individuals of the opposite sex. According to the data obtained and the results of their statistical analysis, it was proved that the introduction of a mutation into the genetic background of the wild-type stock is accompanied with a change in the studied characteristics of imago mating behavior. The effect depends on the mutation introduced and on the genotype of the recipient stock. Thus, males of the yC-S strain are characterized by increased mating activity comparatively to males of the wild-type Canton-S stock. These results expand the known effects of yellow mutation. Males of the bC-S and eC-S strains, on the contrary, are less active than the males of the wild-type Canton-S stock. The most pronounced effects on mating receptivity of females were fixed for b (an increase in the indicator when introduced into Oregon genetic background) and e (a decrease when introduced into Canton-S genetic background) mutations. The indicators studied under the conditions of the given experimental scheme change in direct proportion (rS = 0,76; p < 0,05). In other words, if the strain is characterized by high mating activity of males, as a rule, a high mating receptivity of females will be also observed.
Highlights
Insect pigments biogenesis is a network of genetically determined interrelated metabolic transformations
The model of congenic strains of Drosophila melanogaster was used to investigate the peculiarities of the effect of mutations in yellow (y), ebony (e), and black (b) genes involved in biogenesis of cuticle pigments on imago mating behavior indicators
The most pronounced effects on mating receptivity of females were fixed for b and e mutations
Summary
Insect pigments biogenesis is a network of genetically determined interrelated metabolic transformations. T.R. Wright showed that genes essential for melanin synthesis in cuticle regulate DA synthesis in insect brain, the same is typical for mammalian brains (Wright, 1987), while the mechanism of genetic control of mammalian skin melanization differs (Raposo, Marks, 2007). Drosophila epidermal cells synthesize and secrete DA. The latter is incorporated into the cuticle and oxidized into melanin by phenoloxidases such as Laccase. Determined changes in cuticle pigmentation can be used in experimental models based on forward genetic approach to identify genes that regulate DA dynamics in both the cuticle and the nervous system. The aim of this study is to find out if the effect of the mutations in genes yellow, ebony, and black on Drosophila imago mating behavior depends on the genetic background in which they are realized
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More From: The Journal of V. N. Karazin Kharkiv National University, Series "Biology"
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