2023 Modulation of Neural Circuits and Behavior Gordon Research Conference & Gordon Research Seminar

2023年神经回路与行为调节戈登研究会议

基本信息

批准号：
10682921
负责人：
LISA STOWERS
金额：
$ 1万
依托单位：
GORDON RESEARCH CONFERENCES
依托单位国家：
美国
项目类别：
财政年份：
2023
资助国家：
美国
起止时间：
2023-03-01 至 2023-06-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/10682921
关键词：
Address Anatomy Animal Model Animals Attention Basic Science Behavior Behavioral Biological Biotechnology Brain Brain Diseases Brain region Cellular biology Clinic Clinical Research Cognitive Collaborations Communities Computational Biology Development Devices Discipline Disease Electrophysiology (science)Elements Environment Fertilization Fostering Functional disorder Future Generations Genetic Goals Image Impaired cognition Individual Intelligence Interdisciplinary Study International Journals Learning Mental Depression Mentors Mentorship Methods Molecular Biology Molecular Target Motivation Nervous System Neurohormones Neuromodulator Neurons Neurosciences Pharmaceutical Preparations Population Post-Traumatic Stress Disorders Postdoctoral Fellow Process Publishing Research Research Personnel Resource Sharing Robot Schizophrenia Science Scientist Sleep Switzerland Symptoms Synapses System Therapeutic Time Training Translating Translational Research Work addiction brain dysfunction career cell type cognitive function doctoral student environmental change feeding flexibility graduate student information processing insight interest meetings member mental state model organism neural neural circuit neuropsychiatry neuroregulation next generation novel strategies programs receptor recruit response sex symposium synergism unpublished works

项目摘要

Project Summary The 2023 GRC chairs are organizing a Gordon Research Conference (GRC) with an associated Gordon Research Seminar (GRS) for young scientists on “Modulation of Neural Circuits and Behavior” from May 21- 26, 2023, in Les Diablerets, Switzerland. Brains adjust information processing and optimize behaviors in response to ever-changing environmental demands. This astonishing flexibility relies on the modulation of brain functions at multiple levels, from synapses to neural circuits, and occurs over a wide range of time scales. The modulation of brain functions regulates basic biological states such as feeding, sleep or sex, and it is of key importance for cognitive brain functions such as attention and learning. Deep insights into neuromodulation are not only critical to understand the neural basis of intelligence and behavior but also to understand how different mental states, motivation, salience, and other important phenomena are controlled. Moreover, mechanistic insights into neuromodulatory mechanisms are key to understand brain dysfunctions and diseases including depression, post-traumatic stress disorder, and many others. The 2023 “Modulation of Neural Circuits and Behavior” GRC/GRS will bring together scientists with diverse backgrounds to discuss current concepts and exciting new results in this growing field. The meeting will cut across disciplines and model organisms and focus on topics that have a high potential to synergize. Rather than following traditional subdivisions of the broad field of neuromodulation, the session topics will bridge between scientific communities and disciplines. The organizing committee expects that the organized and informal discussions will generate new insights and highlight promising directions of future progress.

项目概要 2023 年 GRC 主席将与相关戈登组织戈登研究会议 (GRC) 青年科学家研究研讨会（GRS），主题为“神经回路和行为的调节”，5月21日- 2023 年 2 月 26 日，瑞士莱迪亚布勒雷大脑调整信息处理并优化行为。这种惊人的灵活性依赖于对不断变化的环境需求的调节。大脑在从突触到神经回路的多个层面上发挥作用，并且发生在很长的时间范围内大脑功能的调节调节基本的生物状态，例如进食、睡眠或性行为。对于注意力和学习等认知大脑功能至关重要。神经调节不仅对于理解智力和行为的神经基础至关重要，而且对于了解如何控制不同的心理状态、动机、显着性和其他重要现象。此外，对神经调节机制的深入了解是理解大脑功能障碍的关键以及包括抑郁症、创伤后应激障碍等在内的 2023 年“调节”疾病。 “神经回路与行为”GRC/GRS将汇聚不同背景的科学家共同探讨这次会议将跨越学科和领域，讨论这一不断发展的领域的当前概念和令人兴奋的新成果。模型生物并专注于具有高度协同潜力的主题，而不是遵循传统。神经调节广泛领域的细分，会议主题将在科学和科学之间架起桥梁组委会期望进行有组织的非正式讨论。将产生新的见解并突出未来进展的有希望的方向。