Iy. Rauschenbach et al., ROLE OF PHENOL OXIDASES AND THYROSINE HYDROXYLASE IN CONTROL OF DOPAMINE CONTENT IN DROSOPHILA-VIRILIS UNDER NORMAL CONDITIONS AND HEAT-STRESS, Journal of insect physiology, 41(3), 1995, pp. 279-286
The activity of thyrosine hydroxylase (TH) was studied in adults of D.
virilis lines resistant and sensitive to heat stress, and in their F-
1 hybrids under normal conditions and heat stress. It was demonstrated
that in the resistant line TH activity is higher than in the sensitiv
e one under normal conditions; that the former line is dominant for th
e trait; and that the gene(s) controlling the activity level of TH und
er normal conditions is not sex-linked. It was also demonstrated that
30 min of heat stress produces a fall in TH activity in the resistant
line, and that, after 120 min of the stress, the activity of the enzym
e increases. TH activity does not alter in the sensitive line under he
at stress; this line is dominant for the trait and the gene(s) control
ling the activity level of the enzyme under stress is not sex-linked.
Phenol oxidase activity was also examined in these lines under normal
conditions and short-term heat stress. It was shown that neither mono,
nor diphenol oxidase activities change under heat stress. It was foun
d that lines of D. virilis resistant and sensitive to heat stress diff
er in diphenol oxidase activity under normal conditions. Genetic analy
sis of these differences revealed that they are controlled by a single
gene (or a group of closely linked genes). The gene is located on the
X-chromosome.