IRIS publication 16860366
Leptin-deficient mice retain normal appetitive spatial learning yet exhibit marked increases in anxiety-related behaviours.
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TY - JOUR - Finger, BC; Dinan, TG; Cryan JF - 2010 - April - Psychopharmacology - Leptin-deficient mice retain normal appetitive spatial learning yet exhibit marked increases in anxiety-related behaviours. - Validated - () - The individual's emotional state influences food intake in both humans and rodents. Moreover, specific cognitive processes regulating the salient aspects of food reward are also critical for ingestive behaviour. However, the molecular mechanisms underlying such influence remain unclear. Genetic mouse models thus are important tools in dissecting the molecular and pathophysiological processes which cause complex human diseases. Leptin, encoded by the ob gene, plays an important part in the energy homeostasis and is critical for the development of obesity. - 10.1007/s00213-010-1858-z DA - 2010/04 ER -
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@article{V16860366, = {Finger, BC and Dinan, TG and Cryan JF}, = {2010}, = {April}, = {Psychopharmacology}, = {Leptin-deficient mice retain normal appetitive spatial learning yet exhibit marked increases in anxiety-related behaviours.}, = {Validated}, = {()}, = {{The individual's emotional state influences food intake in both humans and rodents. Moreover, specific cognitive processes regulating the salient aspects of food reward are also critical for ingestive behaviour. However, the molecular mechanisms underlying such influence remain unclear. Genetic mouse models thus are important tools in dissecting the molecular and pathophysiological processes which cause complex human diseases. Leptin, encoded by the ob gene, plays an important part in the energy homeostasis and is critical for the development of obesity.}}, = {10.1007/s00213-010-1858-z}, source = {IRIS} }
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AUTHORS | Finger, BC; Dinan, TG; Cryan JF | ||
YEAR | 2010 | ||
MONTH | April | ||
JOURNAL_CODE | Psychopharmacology | ||
TITLE | Leptin-deficient mice retain normal appetitive spatial learning yet exhibit marked increases in anxiety-related behaviours. | ||
STATUS | Validated | ||
TIMES_CITED | () | ||
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ABSTRACT | The individual's emotional state influences food intake in both humans and rodents. Moreover, specific cognitive processes regulating the salient aspects of food reward are also critical for ingestive behaviour. However, the molecular mechanisms underlying such influence remain unclear. Genetic mouse models thus are important tools in dissecting the molecular and pathophysiological processes which cause complex human diseases. Leptin, encoded by the ob gene, plays an important part in the energy homeostasis and is critical for the development of obesity. | ||
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DOI_LINK | 10.1007/s00213-010-1858-z | ||
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