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JoVE Journal Neuroscience

激光捕获胶质瘤分区域的微切，用于肿瘤内异质性、肿瘤流和入侵的空间和分子表征

Quantifying Spontaneous Ca2+ Fluxes and their Downstream Effects in Primary Mouse Midbrain Neurons

Journal (Neuroscience)

Quantifying Spontaneous Ca²⁺ Fluxes and their Downstream Effects in Primary Mouse Midbrain Neurons

The Power of Interstimulus Interval for the Assessment of Temporal Processing in Rodents

Journal (Neuroscience)

The Power of Interstimulus Interval for the Assessment of Temporal Processing in Rodents

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激光捕获胶质瘤分区域的微切，用于肿瘤内异质性、肿瘤流和入侵的空间和分子表征

Article DOI: 10.3791/60939-v • 09:09 min • April 12th, 2020

April 12th, 2020 •

Andrea Comba^1,2,4, Patrick J. Dunn^1,2,4, Phillip E. Kish^1,3, Padma Kadiyala^1,2,4, Alon Kahana³, Maria G. Castro^1,2,4, Pedro R. Lowenstein^1,2,4

¹Dept. of Neurosurgery, University of Michigan Medical School, ²Dept. of Cell and Developmental Biology, University of Michigan Medical School, ³Dept. of Ophthalmology & Visual Science, University of Michigan Medical School, ⁴Rogel Cancer Center, University of Michigan Medical School

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激光微解剖（LMD）是一种敏感且高度可重复的技术，可用于揭示介导胶质瘤异质性和入侵的途径。在这里，我们描述了一个优化的协议，使用激光LMD从胶质瘤组织中分离离散区域，然后进行转录分析。

Tags

神经科学，第158期，胶质瘤，激光微切，转录组分析， RNA 完整性，肿瘤异质性，入侵，分子靶

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