Literature DB >> 31209381

Classification of electrophysiological and morphological neuron types in the mouse visual cortex.

Nathan W Gouwens1, Staci A Sorensen1, Jim Berg1, Changkyu Lee1, Tim Jarsky1, Jonathan Ting1, Susan M Sunkin1, David Feng1, Costas A Anastassiou1, Eliza Barkan1, Kris Bickley1, Nicole Blesie1, Thomas Braun1, Krissy Brouner1, Agata Budzillo1, Shiella Caldejon1, Tamara Casper1, Dan Castelli1, Peter Chong1, Kirsten Crichton1, Christine Cuhaciyan1, Tanya L Daigle1, Rachel Dalley1, Nick Dee1, Tsega Desta1, Song-Lin Ding1, Samuel Dingman1, Alyse Doperalski1, Nadezhda Dotson1, Tom Egdorf1, Michael Fisher1, Rebecca A de Frates1, Emma Garren1, Marissa Garwood1, Amanda Gary1, Nathalie Gaudreault1, Keith Godfrey1, Melissa Gorham1, Hong Gu1, Caroline Habel1, Kristen Hadley1, James Harrington1, Julie A Harris1, Alex Henry1, DiJon Hill1, Sam Josephsen1, Sara Kebede1, Lisa Kim1, Matthew Kroll1, Brian Lee1, Tracy Lemon1, Katherine E Link1, Xiaoxiao Liu1, Brian Long1, Rusty Mann1, Medea McGraw1, Stefan Mihalas1, Alice Mukora1, Gabe J Murphy1, Lindsay Ng1, Kiet Ngo1, Thuc Nghi Nguyen1, Philip R Nicovich1, Aaron Oldre1, Daniel Park1, Sheana Parry1, Jed Perkins1, Lydia Potekhina1, David Reid1, Miranda Robertson1, David Sandman1, Martin Schroedter1, Cliff Slaughterbeck1, Gilberto Soler-Llavina1, Josef Sulc1, Aaron Szafer1, Bosiljka Tasic1, Naz Taskin1, Corinne Teeter1, Nivretta Thatra1, Herman Tung1, Wayne Wakeman1, Grace Williams1, Rob Young1, Zhi Zhou1, Colin Farrell1, Hanchuan Peng1, Michael J Hawrylycz1, Ed Lein1, Lydia Ng1, Anton Arkhipov1, Amy Bernard1, John W Phillips1, Hongkui Zeng2, Christof Koch1.   

Abstract

Understanding the diversity of cell types in the brain has been an enduring challenge and requires detailed characterization of individual neurons in multiple dimensions. To systematically profile morpho-electric properties of mammalian neurons, we established a single-cell characterization pipeline using standardized patch-clamp recordings in brain slices and biocytin-based neuronal reconstructions. We built a publicly accessible online database, the Allen Cell Types Database, to display these datasets. Intrinsic physiological properties were measured from 1,938 neurons from the adult laboratory mouse visual cortex, morphological properties were measured from 461 reconstructed neurons, and 452 neurons had both measurements available. Quantitative features were used to classify neurons into distinct types using unsupervised methods. We established a taxonomy of morphologically and electrophysiologically defined cell types for this region of the cortex, with 17 electrophysiological types, 38 morphological types and 46 morpho-electric types. There was good correspondence with previously defined transcriptomic cell types and subclasses using the same transgenic mouse lines.

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Year:  2019        PMID: 31209381     DOI: 10.1038/s41593-019-0417-0

Source DB:  PubMed          Journal:  Nat Neurosci        ISSN: 1097-6256            Impact factor:   24.884


  102 in total

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