This study focuses on the molecular features of three candidate behavioural genes in Drosophila melanogaster from the opposite slopes of Nahal Oren Canyon, Mount Carmel, Israel. These slopes display dramatic physical and biotic contrasts. Spatial variation of microclimatic conditions leads to adaptive differentiation and partial sexual isolation of populations, as suggested by our previous studies. The chosen candidate genes presumably contributing to genetic variation in sexual behaviour of Drosophila in the Canyon were desaturase, period, and no-on-transient A. These genes are known to include polymorphic repeated sequences, insertions/deletions, or nucleotide substitutions. The idea was that their polymorphism might be one of the determinants of behavioural peculiarities of flies derived from the opposite slopes. Indeed, interslope differences in the sequence encoding the (Thr-Gly)n repeat (exon 5) of the period gene were established, suggesting evolutionary functional importance. In particular, we unraveled variation in the length and composition of this region in different NFS (north-facing slope) and SFS (south-facing slope) lines. The 'European' allele (n = 20) was a 2.6-fold more abundant on the NFS compared to the SFS. This predominance probably gives some advantages for flies inhabiting wet and less warm conditions of the NFS. We suggest that repeat length/composition may influence the functional features of flies, i.e. habitat choice, nonrandom mating, and temperature adaptation. A series of female single-mate-choice tests show that females derived from NFS distinguish between males with specific per alleles (n = 17 vs. n = 20), as well as between males originated from the opposing slopes. Females from SFS were less discriminating and did not manifest significant deviation from random mating.
Regulation of genetic variation in natural populations is a problem of primary importance to evolutionary biology. In the reported study, the repair efficiency of double strand DNA breaks was compared in six wild barley accessions from Israeli natural populations of H. spontaneum: three from mesic populations (one from Maalot and two from Mount Meron, Upper Galilee) and three from xeric populations (one from Wadi Quilt in the Judean Desert and two from Sede Boqer, in the northern Negev Desert). Pulsed field gel electrophoresis was used to score double-strand breaks of DNA (DSBs) caused by methyl methanesulphonate (MMS) treatment. All six accessions were also tested for heat tolerance: four of these, three xeric and one mesic (from Maalot population), were scored as heat tolerant whereas both accessions from Mount Meron population displayed heat sensitivity. MMS caused a significant increase in the level of DSBs relative to the control in all accessions. The major questions were whether and how the efficiency of DNA repair after mutagenic treatment is affected by the environmental conditions and accession's adaptation to these conditions. Differences were found among the accessions in the repair pattern. Plants of two out of the four heat tolerant accessions did not manage to repair DNA neither at 25 degrees Celsius nor at 37 degrees Celsius. The remaining two heat tolerant accessions significantly repaired the breaks at 37 degrees Celsius, but not at 25 degrees Celsius. By contrast, plants of the two heat susceptible accessions significantly lowered the level of DSBs at 25 degrees Celsius but not at 37 degrees Celsius. Therefore, the accessions that proved capable to repair the induced damages in DNA at one of the two temperatures displayed a pattern that may imply the existence of a negative feedback mechanism in regulation of genetic variation. Such a dependence of DNA integrity on environment and genotype may serve an important factor for maintaining relatively high level of mutability without increasing the genetic load.
Molecular analysis of the desaturase2 (desat2) gene responsible for female cuticular hydrocarbon synthesis, revealed that all tested Israeli populations of Drosophila melanogaster belong to the 'Low' type (low ratio of 5,9-/7,11-heptacosadiene) with a 16 bp deletion in the promoter region. Additional deletion leading to the appearance of the stop-codon TGA was found in exon 1 in populations inhabiting opposite slopes at Nahal Oren canyon. Mating experiments between carriers of various desat2 alleles estimated the putative effect of desat2 status on courtship behaviour. The allele with an additional deletion in exon 1 seems to play some role in mating success, which is associated with shorter courtship latency and courtship duration. The appearance and maintenance of this mutant allele in populations inhabiting Nahal Oren canyon may reflect flies' adaptation to peculiar microscale climatic conditions and may be associated with incipient sympatric differentiation.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.