Use of Calcium Indicator Proteins in Spike Counting Mode

在尖峰计数模式中使用钙指示蛋白

• 批准号: 9147631
• 负责人: DAVID A DIGREGORIO
• 金额: $ 16.2万
• 依托单位: PRINCETON UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2015
• 资助国家: 美国
• 起止时间: 2015-09-30 至 2018-08-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/9147631
• 关键词: Action Potentials; Animals; Axon; BRAIN initiative; Body Image; Brain; Brain Diseases; Calcium; Calcium Signaling; Calcium ion; Calmodulin; Cells; Dependovirus; Detection; Diagnosis; Disease; Event; Fiber; Fluorescence; Fluorescence Microscopy; Goals; Head; Health; Image; Individual; Knowledge; Lead; Life; Light; Lobe; Measurement; Methods; Microscopic; Microscopy; Mission; Modeling; Monitor; Movement; Mus; National Institute of Neurological Disorders and Stroke; Neurons; Neuropil; Noise; Population; Presynaptic Terminals; Prevention; Proteins; Public Health; Recovery; Research; Research Personnel; Resolution; Scanning; Signal Transduction; Slice; Specificity; Speed; Structure; Suid Herpesvirus 1; Technology; Testing; Time; Work; awake; base; brain circuitry; burden of illness; calcium indicator; cell type; improved; in vivo; information processing; innovation; millisecond; neocortical; neural circuit; new technology; novel; novel strategies; relating to nervous system; research study; response; sensor; success; temporal measurement; tool; two-photon; voltage

 DESCRIPTION (provided by applicant): A long-term goal of the BRAIN Initiative is to track activity in large numbers of neurons individually in behaving animals, thus capturing the information processing that is done by brain circuitry. A universal signal in neurons when they are active is the messenger ion calcium. By examining changes in calcium concentration following each action potential in an individual neuron, researchers can track that neuron's activity, but at present, the time resolution of this approach is limited. The overall objective of this application is to use calcium-sensitive probes in spike-counting mode to detect individual action potentials as discrete events in space and time. The proposed experiments will produce new technology that can follow activity with millisecond resolution in hundreds to thousands of neurons at once. This contribution is significant because it will allow researchers to image important neural circuits noninvasively with millisecond resolution in awake animals. This approach is innovative because the investigators will use a novel, ultrafast response mode of a highly popular calcium sensor protein to obtain time resolution that is not otherwise possible. The work proposed in this application therefore advances our ability to understand how the brain functions in health and disease. In the long run, this information could lead to new approaches to diagnosis, treatment, and prevention of a variety of brain disorders.

 描述（由申请人提供）：BRAIN Initiative的长期目标是跟踪行为动物中大量神经元的活动，从而捕获由脑回路完成的信息处理。当神经元活跃时，它们的一个普遍信号是信使离子钙。通过检查单个神经元中每个动作电位后钙浓度的变化，研究人员可以跟踪该神经元的活动，但目前，这种方法的时间分辨率有限。的总体目标 该应用是在尖峰计数模式下使用钙敏感探针来检测作为空间和时间上的离散事件的个体动作电位。拟议中的实验将产生新技术，可以同时跟踪数百到数千个神经元的活动，分辨率为毫秒。这一贡献意义重大，因为它将使研究人员能够以毫秒级分辨率对清醒动物的重要神经回路进行非侵入性成像。这种方法是创新的，因为研究人员将使用一种非常受欢迎的钙传感器蛋白的新型超快响应模式来获得时间分辨率，这是不可能的。因此，本申请中提出的工作提高了我们理解大脑在健康和疾病中如何运作的能力。从长远来看，这些信息可能会导致诊断，治疗和预防各种脑部疾病的新方法。