, 2011). AVPR1a was shown to be associated with listening behavior and audio structuring ability. Highly significant epistatic interactions have also been observed between promoter region polymorphisms in the AVPR1a and SLC6A4 genes
and RG7204 mouse musical memory ( Ebstein et al., 2010). Future studies would be well advised to study genes that encode for oxytocin (OXTR), a neuropeptide with a pervasive role in mammalian social behaviors, including empathy, and with a known association with the AVPR1a gene. AVPR1a has been linked to anxiety and depression, and the connection between musical creativity and these traits is well known. Taken together, this suggests a role for AVPR1a as part of a putative genetic basis for both creativity and the artistic temperament. Linking genetic polymorphisms to personality variables
is an area of active research. Data from these investigations should be brought to bear on the question of identifying candidate genes for musicality to the extent that those personality variables are discovered to be linked to the musical phenotype. In summary, musicality is polymorphic. It is a complex interaction of physical, emotional, cognitive, and psychosocial traits, including some that are overtly “musical” and others that are not but that contribute to musicality in a variety of supporting ways. Musicality presents as both productive and receptive ability, selleck compound and skill can manifest itself as primarily technical, cognitive, intuitive, or emotional, or in various
combinations. If research is to provide an adequate account FMO2 of how music, genes, environment, and neural development interact, it must embrace the full variety of musical experiences and contexts (Sloboda, 2008). Studies of the genetics of music promise both practical and theoretical benefits. They can help in music education through identifying those students with high potential in specific areas of musical endeavor and can ultimately help teachers to select the most efficient instructional methods based on a student’s background and aptitudes. The important theoretical promise is in identifying and learning to measure component musical abilities more accurately so that musical behaviors can be correctly linked to genetics, to brain structures, and to other, nonmusical behaviors. In this latter case, there has been great interest in the question of cognitive transfer, that is, whether “music makes you smarter” (e.g., Kraus and Chandrasekaran, 2010). Questions such as these would benefit by a fractionating of musical ability, so that we can know which aspects of music correlate specifically with which other cognitive abilities. Finally, more accurately quantifying the musical phenotype is a necessary precursor to performing rigorous genetic studies. “
“Nociceptive pain reflects our capacity to detect the presence of potentially damaging stimuli; it is an essential early warning mechanism (Basbaum et al., 2009 and Woolf and Ma, 2007).