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Ten years ago, we reported that SM, a patient with rare bilateral amygdala damage, showed an intriguing impairment in her ability to recognize fear from facial expressions. Since then, the importance of the amygdala in processing information about facial emotions has been borne out by a number of lesion and functional imaging studies. Yet the mechanism by which amygdala damage compromises fear recognition has not been identified. Returning to patient SM, we now show that her impairment stems from an inability to make normal use of information from the eye region of faces when judging emotions, a defect we trace to a lack of spontaneous fixations on the eyes during free viewing of faces. Although SM fails to look normally at the eye region in all facial expressions, her selective impairment in recognizing fear is explained by the fact that the eyes are the most important feature for identifying this emotion. Notably, SM's recognition of fearful faces became entirely normal when she was instructed explicitly to look at the eyes. This finding provides a mechanism to explain the amygdala's role in fear recognition, and points to new approaches for the possible rehabilitation of patients with defective emotion perception. 相似文献
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Pocai A Lam TK Gutierrez-Juarez R Obici S Schwartz GJ Bryan J Aguilar-Bryan L Rossetti L 《Nature》2005,434(7036):1026-1031
Obesity is the driving force behind the worldwide increase in the prevalence of type 2 diabetes mellitus. Hyperglycaemia is a hallmark of diabetes and is largely due to increased hepatic gluconeogenesis. The medial hypothalamus is a major integrator of nutritional and hormonal signals, which play pivotal roles not only in the regulation of energy balance but also in the modulation of liver glucose output. Bidirectional changes in hypothalamic insulin signalling therefore result in parallel changes in both energy balance and glucose metabolism. Here we show that activation of ATP-sensitive potassium (K(ATP)) channels in the mediobasal hypothalamus is sufficient to lower blood glucose levels through inhibition of hepatic gluconeogenesis. Finally, the infusion of a K(ATP) blocker within the mediobasal hypothalamus, or the surgical resection of the hepatic branch of the vagus nerve, negates the effects of central insulin and halves the effects of systemic insulin on hepatic glucose production. Consistent with these results, mice lacking the SUR1 subunit of the K(ATP) channel are resistant to the inhibitory action of insulin on gluconeogenesis. These findings suggest that activation of hypothalamic K(ATP) channels normally restrains hepatic gluconeogenesis, and that any alteration within this central nervous system/liver circuit can contribute to diabetic hyperglycaemia. 相似文献
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Elefteriou F Ahn JD Takeda S Starbuck M Yang X Liu X Kondo H Richards WG Bannon TW Noda M Clement K Vaisse C Karsenty G 《Nature》2005,434(7032):514-520
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Reichhardt T 《Nature》2002,420(6912):110
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Reichhardt T 《Nature》2002,419(6907):546
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A physical map of the mouse genome 总被引:1,自引:0,他引:1
Gregory SG Sekhon M Schein J Zhao S Osoegawa K Scott CE Evans RS Burridge PW Cox TV Fox CA Hutton RD Mullenger IR Phillips KJ Smith J Stalker J Threadgold GJ Birney E Wylie K Chinwalla A Wallis J Hillier L Carter J Gaige T Jaeger S Kremitzki C Layman D Maas J McGrane R Mead K Walker R Jones S Smith M Asano J Bosdet I Chan S Chittaranjan S Chiu R Fjell C Fuhrmann D Girn N Gray C Guin R Hsiao L Krzywinski M Kutsche R Lee SS Mathewson C McLeavy C Messervier S Ness S Pandoh P Prabhu AL Saeedi P 《Nature》2002,418(6899):743-750
A physical map of a genome is an essential guide for navigation, allowing the location of any gene or other landmark in the chromosomal DNA. We have constructed a physical map of the mouse genome that contains 296 contigs of overlapping bacterial clones and 16,992 unique markers. The mouse contigs were aligned to the human genome sequence on the basis of 51,486 homology matches, thus enabling use of the conserved synteny (correspondence between chromosome blocks) of the two genomes to accelerate construction of the mouse map. The map provides a framework for assembly of whole-genome shotgun sequence data, and a tile path of clones for generation of the reference sequence. Definition of the human-mouse alignment at this level of resolution enables identification of a mouse clone that corresponds to almost any position in the human genome. The human sequence may be used to facilitate construction of other mammalian genome maps using the same strategy. 相似文献
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