@article{moehring_llopart_elwyn_coyne_mackay_2006, title={The genetic basis of postzygotic reproductive isolation between Drosophila santomea and D-yakuba due to hybrid male sterility}, volume={173}, ISSN={["0016-6731"]}, DOI={10.1534/genetics.105.052985}, abstractNote={Abstract}, number={1}, journal={GENETICS}, author={Moehring, AJ and Llopart, A and Elwyn, S and Coyne, JA and Mackay, TFC}, year={2006}, month={May}, pages={225–233} }
 @article{moehring_llopart_elwyn_coyne_mackay_2006, title={The genetic basis of prezygotic reproductive isolation between Drosophila santomea and D-yakuba due to mating preference}, volume={173}, ISSN={["1943-2631"]}, DOI={10.1534/genetics.105.052993}, abstractNote={Abstract}, number={1}, journal={GENETICS}, author={Moehring, Amanda J. and Llopart, Ana and Elwyn, Susannah and Coyne, Jerry A. and Mackay, Trudy F. C.}, year={2006}, month={May}, pages={215–223} }
 @article{mackay_heinsohn_lyman_moehring_morgan_rollmann_2005, title={Genetics and genomics of Drosophila mating behavior}, volume={102}, ISSN={["0027-8424"]}, DOI={10.1073/pnas.0501986102}, abstractNote={
            The first steps of animal speciation are thought to be the development of sexual isolating mechanisms. In contrast to recent progress in understanding the genetic basis of postzygotic isolating mechanisms, little is known about the genetic architecture of sexual isolation. Here, we have subjected
            Drosophila melanogaster
            to 29 generations of replicated divergent artificial selection for mating speed. The phenotypic response to selection was highly asymmetrical in the direction of reduced mating speed, with estimates of realized heritability averaging 7%. The selection response was largely attributable to a reduction in female receptivity. We assessed the whole genome transcriptional response to selection for mating speed using Affymetrix GeneChips and a rigorous statistical analysis. Remarkably, >3,700 probe sets (21% of the array elements) exhibited a divergence in message levels between the Fast and Slow replicate lines. Genes with altered transcriptional abundance in response to selection fell into many different biological process and molecular function Gene Ontology categories, indicating substantial pleiotropy for this complex behavior. Future functional studies are necessary to test the extent to which transcript profiling of divergent selection lines accurately predicts genes that directly affect the selected trait.
          }, journal={PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA}, author={Mackay, TFC and Heinsohn, SL and Lyman, RF and Moehring, AJ and Morgan, TJ and Rollmann, SM}, year={2005}, month={May}, pages={6622–6629} }
 @article{moehring_li_schug_smith_deangelis_mackay_coyne_2004, title={Quantitative trait loci for sexual isolation between Drosophila simulans and D-mauritiana}, volume={167}, ISSN={["1943-2631"]}, DOI={10.1534/genetics.103.024364}, abstractNote={Abstract}, number={3}, journal={GENETICS}, author={Moehring, AJ and Li, JA and Schug, MD and Smith, SG and deAngelis, M and Mackay, TFC and Coyne, JA}, year={2004}, month={Jul}, pages={1265–1274} }
 @article{moehring_mackay_2004, title={The quantitative genetic basis of male mating behavior in Drosophila melanogaster}, volume={167}, ISSN={["1943-2631"]}, DOI={10.1534/genetics.103.024372}, abstractNote={Abstract}, number={3}, journal={GENETICS}, author={Moehring, AJ and Mackay, TFC}, year={2004}, month={Jul}, pages={1249–1263} }