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  • Precise Mapping of Single Neurons by Calibrated 3D Reconstruction of Brain Slices Reveals Topographic Projection in Mouse Visual Cortex.

Precise Mapping of Single Neurons by Calibrated 3D Reconstruction of Brain Slices Reveals Topographic Projection in Mouse Visual Cortex.

Cell reports (2020-05-28)
Jun Ho Song, Woochul Choi, You-Hyang Song, Jae-Hyun Kim, Daun Jeong, Seung-Hee Lee, Se-Bum Paik
ABSTRACT

Recent breakthroughs in neuroanatomical tracing methods have helped unravel complicated neural connectivity in whole-brain tissue at single-cell resolution. However, in most cases, analysis of brain images remains dependent on highly subjective and sample-specific manual processing, preventing precise comparison across sample animals. In the present study, we introduce AMaSiNe, software for automated mapping of single neurons in the standard mouse brain atlas with annotated regions. AMaSiNe automatically calibrates misaligned and deformed slice samples to locate labeled neuronal positions from multiple brain samples into the standardized 3D Allen Mouse Brain Reference Atlas. We exploit the high fidelity and reliability of AMaSiNe to investigate the topographic structures of feedforward projections from the lateral geniculate nucleus to the primary visual area by reconstructing rabies-virus-injected brain slices in 3D space. Our results demonstrate that distinct organization of neural projections can be precisely mapped using AMaSiNe.

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Sigma-Aldrich
Saccarosio, ≥99.5% (GC)
Sigma-Aldrich
Triton X-100, laboratory grade
Sigma-Aldrich
Paraformaldehyde, powder, 95%
Sigma-Aldrich
3-Acetylpyridine, 98%