Songbirds are a leading model of neurobiological research with wide implications for understanding issues of human health and disease. They are among the few organisms that have evolved vocal learning, a complex trait that provides the basis of spoken language acquisition in humans. Studies of the ontogeny of songbird vocalizations and the organization of the brain circuitry that controls song learning and production have provided unique opportunities for uncovering the neural bases of vocal learning. Songbird research has also contributed novel insights into a broad range of fundamental questions in neurobiology, such as behaviorally- regulated gene expression, sex dimorphisms and the effects of sex steroids on brain structure and function, photoperiodicity and the regulation of seasonal brain plasticity, the role of sleep in learning, the neuroendocrine regulation of reproductive and social behaviors, and neurogenesis and neuronal replacement in adulthood. To help understand how the song control circuitry and birdsong behavior are shaped by genetic mechanisms, a wide set of modern molecular and genomic resources have recently become available to songbird researchers through NIH-funded initiatives;such resources include normalized brain cDNA libraries, comprehensive annotated EST databases, microarrays, a BAC library and the completed the zebra finch genome. Such resources have been instrumental in the rapid identification of genes and gene families of neurobiological interest, the study of gene structure and regulatory domains, high- throughput analysis of gene regulation through molecular profiling studies, and comparative genomics across the major higher vertebrate groups. A key next step in making full use of these genomic resources and understanding how genes relate to brain function and behavior in songbirds is to map gene expression in the context of functional brain circuits. To achieve this goal, we propose a single Specific Aim, namely to generate a Gene Expression Brain Atlas of the Zebra Finch. Specifically we propose to map the brain expression of a large set of genes (~2,500) that are of key importance to songbird and avian brain researchers, in register with a histological atlas, and make the data available as a web-based resource.
This resource will have an enormous impact on further establishing songbirds as a major model organism for neurobiological research, and substantiating their relevance for human health and disease, in particular the neural basis of speech and language learning and impairment. It will provide a vastly improved molecular characterization of the zebra finch brain, allow for neurotransmitter and receptor profiling of song nuclei, and reveal how aene regulation mav be linked to the sona svstem. singing behavior and vocal learning.
|Mello, C V; Lovell, P V (2018) Avian genomics lends insights into endocrine function in birds. Gen Comp Endocrinol 256:123-129|
|Lovell, Peter V; Mello, Claudio V (2017) Correspondence on Lovell et al.: response to Bornelöv et al. Genome Biol 18:113|
|Lovell, P V; Kasimi, B; Carleton, J et al. (2015) Living without DAT: Loss and compensation of the dopamine transporter gene in sauropsids (birds and reptiles). Sci Rep 5:14093|
|Mello, C V; Clayton, D F (2015) The opportunities and challenges of large-scale molecular approaches to songbird neurobiology. Neurosci Biobehav Rev 50:70-6|
|Lovell, Peter V; Wirthlin, Morgan; Carbone, Lucia et al. (2015) Response to Hron et al. Genome Biol 16:165|
|Olson, Christopher R; Hodges, Lisa K; Mello, Claudio V (2015) Dynamic gene expression in the song system of zebra finches during the song learning period. Dev Neurobiol 75:1315-38|
|Olson, Christopher R; Owen, Devin C; Ryabinin, Andrey E et al. (2014) Drinking songs: alcohol effects on learned song of zebra finches. PLoS One 9:e115427|
|Mello, Claudio V (2014) The zebra finch, Taeniopygia guttata: an avian model for investigating the neurobiological basis of vocal learning. Cold Spring Harb Protoc 2014:1237-42|
|Olson, Christopher R; Wirthlin, Morgan; Lovell, Peter V et al. (2014) Proper care, husbandry, and breeding guidelines for the zebra finch, Taeniopygia guttata. Cold Spring Harb Protoc 2014:1243-8|
|Wirthlin, Morgan; Lovell, Peter V; Jarvis, Erich D et al. (2014) Comparative genomics reveals molecular features unique to the songbird lineage. BMC Genomics 15:1082|
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