Zmejkoski Danica, Petković Branka, Pavković-Lučić Sofija, Prolić Zlatko, Anđelković Marko, Savić Tatjana
a Laboratory of Materials Science, University of Belgrade, Vinča Institute of Nuclear Sciences , Belgrade , Serbia.
b Department of Neurophysiology, University of Belgrade, Institute for Biological Research , Belgrade , Serbia.
Int J Radiat Biol. 2017 May;93(5):544-552. doi: 10.1080/09553002.2017.1268281. Epub 2017 Jan 12.
Extremely low frequency (ELF) magnetic fields as essential ecological factors may induce specific responses in genetically different lines. The object of this study was to investigate the impact of the ELF magnetic field on fitness components and locomotor activity of five Drosophila subobscura isofemale (IF) lines.
Each D. subobscura IF line, arbitrarily named: B16/1, B24/4, B39/1, B57/2 and B69/5, was maintained in five full-sib inbreeding generations. Their genetic structures were defined based on the mitochondrial DNA variability. Egg-first instar larvae and 1-day-old flies were exposed to an ELF magnetic field (50 Hz, 0.5 mT, 48 h) and thereafter, fitness components and locomotor activity of males and females in an open field test were observed for each selected IF line, respectively.
Exposure of egg-first instar larvae to an ELF magnetic field shortened developmental time, and did not affect the viability and sex ratio of D. subobscura IF lines. Exposure of 1-day-old males and females IF lines B16/1 and B24/4 to an ELF magnetic field significantly decreased their locomotor activity and this effect lasted longer in females than males.
These results indicate various responses of D. subobscura IF lines to the applied ELF magnetic field depending on their genetic background.
极低频(ELF)磁场作为重要的生态因子,可能在基因不同的品系中引发特定反应。本研究的目的是调查ELF磁场对五个暗果蝇同雌系(IF)品系的适合度组分和运动活性的影响。
每个暗果蝇IF品系,分别命名为:B16/1、B24/4、B39/1、B57/2和B69/5,维持五个全同胞近交世代。根据线粒体DNA变异性确定它们的遗传结构。将卵-一龄幼虫和1日龄果蝇暴露于ELF磁场(50Hz,0.5mT,48小时),此后,分别观察每个选定IF品系的雄性和雌性在旷场试验中的适合度组分和运动活性。
将卵-一龄幼虫暴露于ELF磁场可缩短发育时间,且不影响暗果蝇IF品系的活力和性别比。将1日龄的B16/1和B24/4品系的雄性和雌性暴露于ELF磁场显著降低了它们的运动活性,且这种影响在雌性中持续的时间比雄性更长。
这些结果表明,暗果蝇IF品系对施加的ELF磁场有不同反应,这取决于它们的遗传背景。