M
Megan Chiang
Researcher at Allen Institute for Brain Science
Publications - 2
Citations - 377
Megan Chiang is an academic researcher from Allen Institute for Brain Science. The author has contributed to research in topics: Enhancer & ATAC-seq. The author has an hindex of 2, co-authored 2 publications receiving 90 citations.
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A taxonomy of transcriptomic cell types across the isocortex and hippocampal formation.
Zizhen Yao,Cindy T. J. van Velthoven,Thuc Nghi Nguyen,Jeff Goldy,Adriana E. Sedeno-Cortes,Fahimeh Baftizadeh,Darren Bertagnolli,Tamara Casper,Megan Chiang,Kirsten Crichton,Songlin Ding,Olivia Fong,Emma Garren,Alexandra Glandon,Nathan W. Gouwens,James Gray,Lucas T. Graybuck,Michael Hawrylycz,Daniel Hirschstein,Matthew Kroll,Kanan Lathia,Changkyu Lee,Boaz P. Levi,Delissa McMillen,Stephanie Mok,Thanh Pham,Qingzhong Ren,Christine Rimorin,Nadiya V. Shapovalova,Josef Sulc,Susan M. Sunkin,Michael Tieu,Amy Torkelson,Herman Tung,Katelyn Ward,Nick Dee,Kimberly A. Smith,Bosiljka Tasic,Hongkui Zeng +38 more
TL;DR: The isocortex and hippocampal formation (HPF) in the mammalian brain play critical roles in perception, cognition, emotion, and learning as discussed by the authors, and a transcriptomic cell type taxonomy revealing a comprehensive repertoire of glutamatergic and GABAergic neuron types.
Journal ArticleDOI
Enhancer viruses for combinatorial cell-subclass-specific labeling
Lucas T. Graybuck,Tanya L. Daigle,Adriana E. Sedeno-Cortes,Miranda Walker,Brian E. Kalmbach,Brian E. Kalmbach,Garreck H. Lenz,Elyse Morin,Thuc Nghi Nguyen,Emma Garren,Jacqueline L. Bendrick,Tae Kyung Kim,Thomas Zhou,Marty Mortrud,Shenqin Yao,La'Akea Siverts,Rachael Larsen,Bryan B. Gore,Eric R. Szelenyi,Cameron Trader,Pooja Balaram,Cindy T. J. van Velthoven,Megan Chiang,John K. Mich,Nick Dee,Jeff Goldy,Ali Cetin,Ali Cetin,Kimberly A. Smith,Sharon W. Way,Luke Esposito,Zizhen Yao,Viviana Gradinaru,Susan M. Sunkin,Ed S. Lein,Ed S. Lein,Boaz P. Levi,Jonathan T. Ting,Jonathan T. Ting,Hongkui Zeng,Bosiljka Tasic +40 more
TL;DR: In this paper, the authors used chromatin accessibility data from individual cells and identified enhancers specific for cell subclasses and types to facilitate access to specific neural populations in mouse cortex.