Abstract
The biogenic amine octopamine (OA) and its precursor tyramine (TA) are involved in controlling a plethora of different physiological and behavioral processes. The tyramine-β-hydroxylase (tβh) gene encodes the enzyme catalyzing the last synthesis step from TA to OA. Here, we report differential dominance (from recessive to overdominant) of the putative null tβhnM18 allele in 2 behavioral measures in Buridan’s paradigm (walking speed and stripe deviation) and in proboscis extension (sugar sensitivity) in the fruit fly Drosophila melanogaster. The behavioral analysis of transgenic tβh expression experiments in mutant and wild-type flies as well as of OA and TA receptor mutants revealed a complex interaction of both aminergic systems. Our analysis suggests that the different neuronal networks responsible for the 3 phenotypes show differential sensitivity to tβh gene expression levels. The evidence suggests that this sensitivity is brought about by a TA/OA opponent system modulating the involved neuronal circuits. This conclusion has important implications for standard transgenic techniques commonly used in functional genetics.
Highlights
Pleiotropy is a central feature in genetics with pervasive implications for evolution [1,2,3,4,5]
Differential dominance is often accompanied by overdominance effects, which are thought to underlie the high level of heterozygosity found in these populations [4,6,7,9,10,11]
It is not immediately obvious that the effects we observed are attributable to differential dominance
Summary
Pleiotropy is a central feature in genetics with pervasive implications for evolution [1,2,3,4,5]. Pleiotropic genes play an important evolutionary role because they create functional and developmental relationships among traits, and because they can become relevant for the maintenance of genetic variability in a population [6,7]. Pleiotropy is a prerequisite for differential dominance. Differential dominance is often accompanied by overdominance effects, which are thought to underlie the high level of heterozygosity found in these populations [4,6,7,9,10,11]. While heterozygosity tends to decrease in laboratory populations [12,13,14,15,16,17,18], the differential dominance effects may persist in pleiotropic genes, including overdominance
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