在自由活动的小鼠中进行大规模双光子钙成像。

Large-scale two-photon calcium imaging in freely moving mice.

机构信息

Kavli Institute for Systems Neuroscience and Centre for Neural Computation, Norwegian University of Science and Technology (NTNU), Trondheim NO-7491, Norway.

出版信息

Cell. 2022 Mar 31;185(7):1240-1256.e30. doi: 10.1016/j.cell.2022.02.017. Epub 2022 Mar 18.

DOI:10.1016/j.cell.2022.02.017

PMID:35305313

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8970296/

Abstract

We developed a miniaturized two-photon microscope (MINI2P) for fast, high-resolution, multiplane calcium imaging of over 1,000 neurons at a time in freely moving mice. With a microscope weight below 3 g and a highly flexible connection cable, MINI2P allowed stable imaging with no impediment of behavior in a variety of assays compared to untethered, unimplanted animals. The improved cell yield was achieved through a optical system design featuring an enlarged field of view (FOV) and a microtunable lens with increased z-scanning range and speed that allows fast and stable imaging of multiple interleaved planes, as well as 3D functional imaging. Successive imaging across multiple, adjacent FOVs enabled recordings from more than 10,000 neurons in the same animal. Large-scale proof-of-principle data were obtained from cell populations in visual cortex, medial entorhinal cortex, and hippocampus, revealing spatial tuning of cells in all areas.

摘要

我们开发了一种微型化双光子显微镜（MINI2P），可在自由移动的小鼠中同时快速、高分辨率、多层面地对超过 1000 个神经元进行钙成像。MINI2P 的显微镜重量低于 3g，连接电缆非常灵活，与未系绳、未植入的动物相比，它在各种检测中都能稳定成像，不会对行为造成任何阻碍。通过采用大视野（FOV）和微可调透镜的光学系统设计，提高了细胞产量，增加了 z 扫描范围和速度，从而可以快速稳定地对多个层叠平面进行成像，还可以进行 3D 功能成像。通过对多个相邻 FOV 的连续成像，可以在同一只动物中记录超过 10000 个神经元的信号。从小鼠的视皮层、内嗅皮层和海马体的细胞群体中获得了大规模的初步验证数据，揭示了所有区域细胞的空间调谐。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8fb6/8970296/375d2fdcec5c/fx1.jpg

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在自由活动的小鼠中进行大规模双光子钙成像。

Large-scale two-photon calcium imaging in freely moving mice.

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