Your search keyword '"Erica M. Edwards"' showing total 2 results

1. Bitbow Enables Highly Efficient Neuronal Lineage Tracing and Morphology Reconstruction in Single Drosophila Brains

Author

Ye Li, Logan A. Walker, Yimeng Zhao, Erica M. Edwards, Nigel S. Michki, Hon Pong Jimmy Cheng, Marya Ghazzi, Tiffany Y. Chen, Maggie Chen, Douglas H. Roossien, and Dawen Cai

Subjects

multicolor transgenics, lineage tracing, morphological analysis, Bitbow, Brainbow, Drosophila brain, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Identifying the cellular origins and mapping the dendritic and axonal arbors of neurons have been century old quests to understand the heterogeneity among these brain cells. Current Brainbow based transgenic animals take the advantage of multispectral labeling to differentiate neighboring cells or lineages, however, their applications are limited by the color capacity. To improve the analysis throughput, we designed Bitbow, a digital format of Brainbow which exponentially expands the color palette to provide tens of thousands of spectrally resolved unique labels. We generated transgenic Bitbow Drosophila lines, established statistical tools, and streamlined sample preparation, image processing, and data analysis pipelines to conveniently mapping neural lineages, studying neuronal morphology and revealing neural network patterns with unprecedented speed, scale, and resolution.

Published

2021

2. Bitbow: a digital format of Brainbow enables highly efficient neuronal lineage tracing and morphology reconstruction in single brains

Author

Nigel S. Michki, Dawen Cai, Tiffany Y. Chen, Erica M. Edwards, Yimeng Zhao, Logan A. Walker, Marya Ghazzi, Douglas H. Roossien, Maggie Chen, Ye Li, and Hon Pong Jimmy Cheng

Subjects

0303 health sciences, Artificial neural network, Computer science, Palette (computing), Morphology (biology), Image processing, Computational biology, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Lineage tracing, Microscopy, medicine, Brainbow, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

Identifying the cellular origins and mapping the dendritic and axonal arbors of neurons have been century old quests to understand the heterogeneity among these brain cells. Classical chemical and genetic methods take advantage of light microscopy and sparse labeling to unambiguously, albeit inefficiently, trace a few neuronal lineages or reconstruct their morphologies in each sampled brain. To improve the analysis throughput, we designed Bitbow, a digital format of Brainbow which exponentially expands the color palette to provide tens of thousands of spectrally resolved unique labels. We generated transgenic Bitbow Drosophila lines, established statistical tools, and streamlined sample preparation, image processing and data analysis pipelines to allow conveniently mapping neural lineages, studying neuronal morphology and revealing neural network patterns with an unprecedented speed, scale and resolution.

Published

2020