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Tracking microscopy enables whole-brain imaging in freely moving zebrafish
Nature Methods ( IF 36.1 ) Pub Date : 2017-10-31 , DOI: 10.1038/nmeth.4474 Olivier Thouvenin , Claire Wyart
Nature Methods ( IF 36.1 ) Pub Date : 2017-10-31 , DOI: 10.1038/nmeth.4474 Olivier Thouvenin , Claire Wyart
Tracking microscopy enables whole-brain imaging in freely moving zebrafish , isJats=true)
中文翻译:
跟踪显微镜可在自由移动的斑马鱼中进行全脑成像
跟踪显微镜可在自由移动的斑马鱼中进行全脑成像 ,isJats = true)
更新日期:2017-11-01
Tracking microscopy enables whole-brain imaging in freely moving zebrafish, Published online: 31 October 2017; doi:10.1038/nmeth.4474
NatureArticleSnippet(type=standfirst, markup=Efficient tracking and optical whole-brain imaging at single-cell resolution in freely behaving zebrafish larvae pave the way for quantitative investigation of circuits underlying complex behaviors.
中文翻译:
跟踪显微镜可在自由移动的斑马鱼中进行全脑成像
跟踪显微镜可在自由移动的斑马鱼中进行全脑成像
跟踪显微镜可对自由移动的斑马鱼进行全脑成像,在线发布:2017年10月31日;doi:10.1038 / nmeth.4474
NatureArticleSnippet(type = standfirst,markup =自由行为的斑马鱼幼虫中单细胞分辨率的高效跟踪和光学全脑成像为定量研究复杂行为基础的电路铺平了道路。