Scientists at the university's Kosterlitz Centre said the switch controls the galanin gene.
阿伯丁大学科斯特利兹中心的科学家们说这个开关控制着甘丙肽基因。
Thus, changing levels of galanin in the amygdala will have an effect on an individual's emotional state.
因此,改变杏仁体中甘丙肽的水平将会影响人的情绪状态。
Levels of galanin in the nerve increase by at least 100-fold after an injury or cut to the nervous system.
如果神经系统损伤,大脑内部神经甘丙肽的含量至少会增加100倍。
Objective to study the role of galanin and its receptors on cell vitality and invasion in rat pituitary adenoma cells.
目的探讨甘丙肽对大鼠垂体腺瘤细胞侵袭性的作用及其受体机制。
Dr MacKenzie added: "Galanin is also produced in an area of the brain called the amygdala where it controls fear and anxiety."
MacKenzie博士说:“大脑中有一处控制恐惧和焦虑的区域叫杏仁体,它也会产生甘丙肽。”
Galanin is a brain-gut peptide discovered in 1983, which is correlated with the regulation of cognitive affection and entatic state homeostasis.
甘丙肽是1983年发现的一种脑肠肽,与认知情感和内稳态的调节密切相关。
Our study provided further morphological evidence for understanding the complex relationship between pituitary peptide-galanin with pituitary hormones.
此结果为进一步研究垂体前叶神经活性物质和激素之间的关系,提供了形态学证据。
Our study provided further morphological evidence for understanding the complex relationship between galanin and classical transmitters in dorsal root ganglia cells.
此结果为进一步研究背根神经节细胞内生物活性物质间的关系提供了形态学资料。
She has shown in animal studies that galanin, a brain peptide that simulates eating behavior and decreases energy expenditure, increases when the animal eats a high-fat diet.
她对动物进行的研究显示,当动物食用高脂肪食物的时候,甘丙肽,一种刺激进食并减低能量消耗的大脑缩氨酸增加了。
The high expression of galanin and galanin receptor-2 in some brain area suggested that galanin probably take part in the modulation of the function of neurons during the stress process.
在慢性应激大鼠抑郁症模型中,甘丙肽及其受体2在部分脑区的高表达提示甘丙肽很有可能参与了应激过程中神经元功能的调制。
Conclusion the inhibitory effect of intrathecal galanin on flexor contractions is probably due to reduction in the excitability of motoneuron and might prevent muscles from over - movement.
结论髓鞘内甘丙肽可能通过减低运动神经兴奋性而产生抑制屈肌运动效应,从而有利防止骨骼肌运动过度。
Conclusion the inhibitory effect of intrathecal galanin on flexor contractions is probably due to reduction in the excitability of motoneuron and might prevent muscles from over - movement.
结论髓鞘内甘丙肽可能通过减低运动神经兴奋性而产生抑制屈肌运动效应,从而有利防止骨骼肌运动过度。
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