Dissemination of MAPseq and BARseq for High-Throughput Brain Mapping

传播用于高通量脑图谱的 MAPseq 和 BARseq

• 批准号: 10669012
• 负责人: ANTHONY M ZADOR
• 金额: $ 98.52万
• 依托单位: COLD SPRING HARBOR LABORATORY
• 依托单位国家: 美国
• 财政年份: 2022
• 资助国家: 美国
• 起止时间: 2022-08-01 至 2027-07-31
• 项目状态: 未结题
• 来源: https://reporter.nih.gov/project-details/10669012
• 关键词: Acceleration; Age; Animal Model; Animals; Area; Atlases; Axon; Bar Codes; Biological Models; Brain; Brain Mapping; Brain region; Carrier Proteins; Collaborations; Communities; Complex; Computer software; DNA sequencing; Data; Dedications; Development; Distant; Engineering; Foundations; Gender; Gene Expression; Generations; Genes; Genetic Models; Gilles de la Tourette syndrome; Goals; High-Throughput DNA Sequencing; In Situ; Infection; Interneurons; Label; Laboratories; Libraries; Maps; Mental Depression; Methods; Multiplexed Analysis of Projections by Sequencing; Mus; Neocortex; Neuroanatomy; Neurofibrillary Tangles; Neurons; Neuropil; Neurosciences; Neurosciences Research; Population; Presynaptic Terminals; Probability; Protocols documentation; Publications; Publishing; RNA; Reagent; Resolution; Reverse Transcription; Role; Schizophrenia; Scientist; Specificity; Standardization; Synapses; Techniques; Technology; Time; Training and Education; Viral; Virus; Virus Replication; Vision; Work; addiction; anatomical tracing; autism spectrum disorder; bioinformatics pipeline; brain tissue; cost; in situ sequencing; insight; interest; neocortical; neural; neuronal circuitry; neuropsychiatric disorder; neurotransmission; next generation; next generation sequencing; novel; novel strategies; skills; tissue processing; transcriptomics; user-friendly

The goal of this project is to disseminate MAPseq and BARseq to the broader neuroscience community. These are novel methods developed in my laboratory based on high-throughput DNA sequencing for determining neuronal circuitry. Neurons transmit information to distant brain regions via long-range axonal projections. In some cases, functionally distinct populations of neurons are intermingled within a small region. Disruptions of connectivity may underlie many neuropsychiatric disorders including autism and schizophrenia. At present, neuroanatomical techniques—particularly those with single neuron resolution—are expensive and labor intensive. MAPseq and BARseq convert neuroanatomy into a problem of DNA sequencing, and thereby allow us to exploit the tremendous breakthroughs in next- generation sequencing throughput. The dissemination of these high-throughput methods for determining neuronal projections will have important implications for understanding normal neuronal circuitry, and how this circuitry is disrupted in animal models of neuropsychiatric disorders like autism and schizophrenia.

该项目的目的是将MapSeq和Barseq传播到更广泛的神经科学 社区。 确定神经元的测序。 通过远程轴突投影的区域。 神经元在一个小区域中混合在一起。 神经精神疾病，包括自闭症和学院。 目前，那些具有单个神经元分辨率的神经解剖技术 - 是 昂贵且劳动密集型。 DNA测序，从而使我们能够利用接下来的巨大突破性 生成测序吞吐量。 确定神经元预测将具有理解正常的重要因素 神经元电路，以及如何在神经精神病学的动物模型中脱离该电路 自闭症和精神分裂症等疾病。