腰腔
/下电机神经元
/长期倾销
/AKA LTP。LTP涉及强化突触,这使神经元之间的沟通更有可能。LTP被认为是涉及记忆形成的重要机制。
WATCH THIS 2-MINUTE NEUROSCIENCE VIDEO TO LEARN MORE ABOUT LONG-TERM POTENTIATION.","raw":false},"hSize":null,"floatDir":null,"html":"","url":"https://youtu.be/-mHgPfXHzJE","width":854,"height":480,"providerName":"YouTube","thumbnailUrl":"https://i.ytimg.com/vi/-mHgPfXHzJE/hqdefault.jpg","resolvedBy":"youtube"}" data-block-type="32" id="block-yui_3_17_2_1_1610456127050_1869119">
长期抑郁症
/突触的弱化,这减少了可能的可能性神经元将沟通。
WATCH THIS 2-MINUTE NEUROSCIENCE VIDEO TO LEARN MORE ABOUT LONG-TERM DEPRESSION.","raw":false},"hSize":null,"floatDir":null,"html":"","url":"https://youtu.be/B7ig6sIwIC8","width":854,"height":480,"providerName":"YouTube","thumbnailUrl":"https://i.ytimg.com/vi/B7ig6sIwIC8/hqdefault.jpg","resolvedBy":"youtube"}" data-block-type="32" id="block-yui_3_17_2_1_1610456127050_1844927">
基因座科埃勒斯
/边缘系统
/WATCH THIS 2-MINUTE NEUROSCIENCE VIDEO TO LEARN MORE ABOUT THE LIMBIC SYSTEM.","raw":false},"hSize":null,"floatDir":null,"html":"","url":"https://youtu.be/LNs9ruzoTmI","width":854,"height":480,"providerName":"YouTube","thumbnailUrl":"https://i.ytimg.com/vi/LNs9ruzoTmI/hqdefault.jpg","resolvedBy":"youtube"}" data-block-type="32" id="block-yui_3_17_2_1_1610456127050_1728157">
肢瓣
/配体门通道
/WATCH THIS 2-MINUTE NEUROSCIENCE VIDEO TO LEARN MORE ABOUT LIGAND-GATED ION CHANNELS.","raw":false},"hSize":null,"floatDir":null,"html":"","url":"https://youtu.be/NXOXZ-kaSVI","thumbnailUrl":"https://i.ytimg.com/vi/NXOXZ-kaSVI/hqdefault.jpg","resolvedBy":"youtube"}" data-block-type="32" id="block-yui_3_17_2_1_1610440033267_1520059">
" data-provider-name="">
" data-provider-name="">
配体
/与生物分子结合的东西形成复合物并产生一些效果。在神经科学中,配体经常是指结合的物质受体。
WATCH THIS 2-MINUTE NEUROSCIENCE VIDEO TO LEARN MORE ABOUT RECEPTORS AND LIGANDS.","raw":false},"hSize":null,"floatDir":null,"html":"","url":"https://youtu.be/NXOXZ-kaSVI","width":854,"height":480,"providerName":"YouTube","thumbnailUrl":"https://i.ytimg.com/vi/NXOXZ-kaSVI/hqdefault.jpg","resolvedBy":"youtube"}" data-block-type="32" id="block-yui_3_17_2_1_1610440033267_1494205">
病变
/对生物组织的损害,通常是由于创伤。在神经科学中,病变通常是指对大脑的损害。病变在了解大脑职能方面发挥了重要作用,因为神经科学家能够与大脑的区域匹配缺陷的缺陷,以便推断出该大脑区域的功能。
叶形核心
/又称透镜状核,乳核是用于指由此组成的结构的术语腐败和Globus pallidus.。名字Lentiform.由于其在从侧面观察时的镜头状形状而被施加到结构上。
了解更多:
L-DOPA.
/Watch this 2-Minute Neuroscience video to learn more about L-DOPA.","raw":false},"hSize":null,"floatDir":null,"html":"","url":"https://youtu.be/dwu17GTKihA","width":854,"height":480,"providerName":"YouTube","thumbnailUrl":"https://i.ytimg.com/vi/dwu17GTKihA/hqdefault.jpg","resolvedBy":"youtube"}" data-block-type="32" id="block-yui_3_17_2_1_1610440033267_1418897">
侧脑室
/侧向果皮核
/核心在丘脑从中接收视觉信息视网膜并将其发送给视觉皮层处理。横向核素核表现出分层结构。那里有两个甲状腺细胞层,四parvocellular.层,和koniocellular.每个玉米粒细胞和细胞层之间的层。