Localizing brain regions associated with female mate preference behavior in a swordtail

Female mate choice behavior is a critical component of sexual selection, yet identifying the neural basis of this behavior is largely unresolved. Previous studies have implicated sensory processing and hypothalamic brain regions during female mate choice and there is a conserved network of brain reg...

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Veröffentlicht in:	PloS one 2012-11, Vol.7 (11), p.e50355-e50355
Hauptverfasser:	Wong, Ryan Y, Ramsey, Mary E, Cummings, Molly E
Format:	Artikel
Sprache:	eng
Schlagworte:	Animal behavior Animal reproduction Animals Behavior, Animal Biology Brain Brain - metabolism Brain Mapping - methods Critical components Cyprinodontiformes - physiology Digoxigenin - metabolism Estradiol - metabolism Female Females Forebrain Gene expression Gene Expression Profiling Gene Expression Regulation Genes Genetic engineering Genomics Hybridization Hypothalamus In Situ Hybridization Information processing Males Mate selection Mating Preference, Animal - physiology Mesencephalon Models, Statistical Network analysis Neurons Neuropeptides - biosynthesis Neuroserpin Preferences Preoptic area Reinforcement Reptiles & amphibians Sensory integration Sensory perception Serpins - biosynthesis Sexual behavior Sexual Behavior, Animal Sexual selection Social aspects Social behavior Social organization Telencephalon Xiphophorus nigrensis
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description	Female mate choice behavior is a critical component of sexual selection, yet identifying the neural basis of this behavior is largely unresolved. Previous studies have implicated sensory processing and hypothalamic brain regions during female mate choice and there is a conserved network of brain regions (Social Behavior Network, SBN) that underlies sexual behaviors. However, we are only beginning to understand the role this network has in pre-copulatory female mate choice. Using in situ hybridization, we identify brain regions associated with mate preference in female Xiphophorus nigrensis, a swordtail species with a female choice mating system. We measure gene expression in 10 brain regions (linked to sexual behavior, reward, sensory integration or other processes) and find significant correlations between female preference behavior and gene expression in two telencephalic areas associated with reward, learning and multi-sensory processing (medial and lateral zones of the dorsal telencephalon) as well as an SBN region traditionally associated with sexual response (preoptic area). Network analysis shows that these brain regions may also be important in mate preference and that correlated patterns of neuroserpin expression between regions co-vary with differential compositions of the mate choice environment. Our results expand the emerging network for female preference from one that focused on sensory processing and midbrain sexual response centers to a more complex coordination involving forebrain areas that integrate primary sensory processing and reward.
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Previous studies have implicated sensory processing and hypothalamic brain regions during female mate choice and there is a conserved network of brain regions (Social Behavior Network, SBN) that underlies sexual behaviors. However, we are only beginning to understand the role this network has in pre-copulatory female mate choice. Using in situ hybridization, we identify brain regions associated with mate preference in female Xiphophorus nigrensis, a swordtail species with a female choice mating system. We measure gene expression in 10 brain regions (linked to sexual behavior, reward, sensory integration or other processes) and find significant correlations between female preference behavior and gene expression in two telencephalic areas associated with reward, learning and multi-sensory processing (medial and lateral zones of the dorsal telencephalon) as well as an SBN region traditionally associated with sexual response (preoptic area). Network analysis shows that these brain regions may also be important in mate preference and that correlated patterns of neuroserpin expression between regions co-vary with differential compositions of the mate choice environment. Our results expand the emerging network for female preference from one that focused on sensory processing and midbrain sexual response centers to a more complex coordination involving forebrain areas that integrate primary sensory processing and reward.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>23209722</pmid><doi>10.1371/journal.pone.0050355</doi><tpages>e50355</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animal behavior Animal reproduction Animals Behavior, Animal Biology Brain Brain - metabolism Brain Mapping - methods Critical components Cyprinodontiformes - physiology Digoxigenin - metabolism Estradiol - metabolism Female Females Forebrain Gene expression Gene Expression Profiling Gene Expression Regulation Genes Genetic engineering Genomics Hybridization Hypothalamus In Situ Hybridization Information processing Males Mate selection Mating Preference, Animal - physiology Mesencephalon Models, Statistical Network analysis Neurons Neuropeptides - biosynthesis Neuroserpin Preferences Preoptic area Reinforcement Reptiles & amphibians Sensory integration Sensory perception Serpins - biosynthesis Sexual behavior Sexual Behavior, Animal Sexual selection Social aspects Social behavior Social organization Telencephalon Xiphophorus nigrensis
title	Localizing brain regions associated with female mate preference behavior in a swordtail
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