Mate Searching in Caenorhabditis elegans: A Genetic Model for Sex Drive in a Simple Invertebrate

Much of animal behavior is regulated to accomplish goals necessary for survival and reproduction. Little is known about the underlying motivational or drive states that are postulated to mediate such goal-directed behaviors. Here, we describe a mate-searching behavior of the Caenorhabditis elegans m...

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Published in	The Journal of neuroscience Vol. 24; no. 34; pp. 7427 - 7434
Main Authors	Lipton, Jonathan, Kleemann, Gunnar, Ghosh, Rajarshi, Lints, Robyn, Emmons, Scott W
Format	Journal Article
Language	English
Published	United States Soc Neuroscience 25.08.2004 Society for Neuroscience
Subjects	Animals Caenorhabditis elegans Caenorhabditis elegans - genetics Caenorhabditis elegans - physiology Cellular/Molecular Disorders of Sex Development Feeding Behavior Female Germ Cells - cytology Germ Cells - physiology Insulin - genetics Insulin - physiology Male Models, Genetic Motivation Mutation Reproduction - physiology Serotonin - genetics Serotonin - physiology Sexual Behavior, Animal - physiology Signal Transduction - genetics
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Abstract	Much of animal behavior is regulated to accomplish goals necessary for survival and reproduction. Little is known about the underlying motivational or drive states that are postulated to mediate such goal-directed behaviors. Here, we describe a mate-searching behavior of the Caenorhabditis elegans male that resembles the motivated behaviors of vertebrates. Adult C. elegans males, if isolated from mating partners, will leave the area of a food source and wander about their environment in an apparent search for a mate. When mating partners are present on the food source, males do not wander but remain with them. This behavior is sexually dimorphic for C. elegans and two additional male/hermaphrodite species studied; for these species, hermaphrodites leave food significantly slower than males. In contrast, for three male-female species examined, both males and females left food, in two cases with similar frequency, suggesting coordinate evolution of behavioral dimorphism with hermaphroditism. We use a quantitative behavioral assay to show that C. elegans male mate searching is regulated by signals from hermaphrodites and by physiological signals indicating nutritional and reproductive status. We identify genes in the serotonin, insulin, and sex determination pathways that affect the rate of mate searching. These genes may contribute to physiological and reproductive regulatory mechanisms. Our results establish C. elegans as a model genetic animal with a simple nervous system in which neural pathways leading to a motivated behavior may be genetically dissected.
AbstractList	Much of animal behavior is regulated to accomplish goals necessary for survival and reproduction. Little is known about the underlying motivational or drive states that are postulated to mediate such goal-directed behaviors. Here, we describe a mate-searching behavior of the Caenorhabditis elegans male that resembles the motivated behaviors of vertebrates. Adult C. elegans males, if isolated from mating partners, will leave the area of a food source and wander about their environment in an apparent search for a mate. When mating partners are present on the food source, males do not wander but remain with them. This behavior is sexually dimorphic for C. elegans and two additional male/hermaphrodite species studied; for these species, hermaphrodites leave food significantly slower than males. In contrast, for three male-female species examined, both males and females left food, in two cases with similar frequency, suggesting coordinate evolution of behavioral dimorphism with hermaphroditism. We use a quantitative behavioral assay to show that C. elegans male mate searching is regulated by signals from hermaphrodites and by physiological signals indicating nutritional and reproductive status. We identify genes in the serotonin, insulin, and sex determination pathways that affect the rate of mate searching. These genes may contribute to physiological and reproductive regulatory mechanisms. Our results establish C. elegans as a model genetic animal with a simple nervous system in which neural pathways leading to a motivated behavior may be genetically dissected. Much of animal behavior is regulated to accomplish goals necessary for survival and reproduction. Little is known about the underlying motivational or drive states that are postulated to mediate such goal-directed behaviors. Here, we describe a mate-searching behavior of the Caenorhabditis elegans male that resembles the motivated behaviors of vertebrates. Adult C. elegans males, if isolated from mating partners, will leave the area of a food source and wander about their environment in an apparent search for a mate. When mating partners are present on the food source, males do not wander but remain with them. This behavior is sexually dimorphic for C. elegans and two additional male/hermaphrodite species studied; for these species, hermaphrodites leave food significantly slower than males. In contrast, for three male-female species examined, both males and females left food, in two cases with similar frequency, suggesting coordinate evolution of behavioral dimorphism with hermaphroditism. We use a quantitative behavioral assay to show that C. elegans male mate searching is regulated by signals from hermaphrodites and by physiological signals indicating nutritional and reproductive status. We identify genes in the serotonin, insulin, and sex determination pathways that affect the rate of mate searching. These genes may contribute to physiological and reproductive regulatory mechanisms. Our results establish C. elegans as a model genetic animal with a simple nervous system in which neural pathways leading to a motivated behavior may be genetically dissected.
Author	Lints, Robyn Lipton, Jonathan Ghosh, Rajarshi Emmons, Scott W Kleemann, Gunnar
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Snippet	Much of animal behavior is regulated to accomplish goals necessary for survival and reproduction. Little is known about the underlying motivational or drive...
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StartPage	7427
SubjectTerms	Animals Caenorhabditis elegans Caenorhabditis elegans - genetics Caenorhabditis elegans - physiology Cellular/Molecular Disorders of Sex Development Feeding Behavior Female Germ Cells - cytology Germ Cells - physiology Insulin - genetics Insulin - physiology Male Models, Genetic Motivation Mutation Reproduction - physiology Serotonin - genetics Serotonin - physiology Sexual Behavior, Animal - physiology Signal Transduction - genetics
Title	Mate Searching in Caenorhabditis elegans: A Genetic Model for Sex Drive in a Simple Invertebrate
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