T
Thuyanh V. Nguyen
Researcher at Allen Institute for Brain Science
Publications - 12
Citations - 526
Thuyanh V. Nguyen is an academic researcher from Allen Institute for Brain Science. The author has contributed to research in topics: Visual cortex & Sensory system. The author has an hindex of 6, co-authored 10 publications receiving 332 citations.
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Journal ArticleDOI
A large-scale standardized physiological survey reveals functional organization of the mouse visual cortex
Saskia E. J. de Vries,Jérôme Lecoq,Michael A. Buice,Peter A. Groblewski,Gabriel Koch Ocker,Michael Oliver,David Feng,Nicholas Cain,Peter Ledochowitsch,Daniel Millman,Kate Roll,Marina Garrett,Tom Keenan,Leonard Kuan,Stefan Mihalas,Shawn R. Olsen,Carol L. Thompson,Wayne Wakeman,Jack Waters,Derric Williams,Chris Barber,Nathan Berbesque,Brandon Blanchard,Nicholas Bowles,Shiella Caldejon,Linzy Casal,Andrew Cho,Sissy Cross,Chinh Dang,Tim A. Dolbeare,Melise Edwards,John Galbraith,Nathalie Gaudreault,Terri L. Gilbert,Fiona Griffin,Perry Hargrave,Robert Howard,Lawrence Huang,Sean Jewell,Nika H. Keller,Ulf Knoblich,Josh D Larkin,Rachael Larsen,Chris Lau,Eric Lee,Felix Lee,Arielle Leon,Lu Li,Fuhui Long,Jennifer Luviano,Kyla Mace,Thuyanh V. Nguyen,Jed Perkins,Miranda Robertson,Sam Seid,Eric Shea-Brown,Eric Shea-Brown,Jianghong Shi,Nathan Sjoquist,Cliff Slaughterbeck,David Sullivan,Ryan Valenza,White C,Ali Williford,Daniela Witten,Jun Zhuang,Hongkui Zeng,Colin Farrell,Lydia Ng,Amy Bernard,John W. Phillips,R. Clay Reid,Christof Koch +72 more
TL;DR: An open, large-scale physiological survey of activity in the awake mouse visual cortex: the Allen Brain Observatory Visual Coding dataset is reported, revealing response specializations within the mouseVisual cortex.
Posted ContentDOI
A large-scale, standardized physiological survey reveals higher order coding throughout the mouse visual cortex
de Vries Sej,Jérôme Lecoq,Michael A. Buice,Peter A. Groblewski,Gabriel Koch Ocker,Michael Oliver,David Feng,Nicholas Cain,Peter Ledochowitsch,Daniel Millman,Kate Roll,Marina Garrett,Tom Keenan,Leonard Kuan,Stefan Mihalas,Shawn R. Olsen,Carol L. Thompson,Wayne Wakeman,Jack Waters,Derric Williams,Chris Barber,Nathan Berbesque,Brandon Blanchard,Bowles N,Shiella Caldejon,Linzy Casal,Cho A,Sissy Cross,Chinh Dang,Tim A. Dolbeare,Edwards M,John Galbraith,Nathalie Gaudreault,Fiona Griffin,Hargrave P,Robert Howard,Lawrence Huang,Sean Jewell,Nika H. Keller,Ulf Knoblich,Josh D Larkin,Rachael Larsen,Chris Lau,Eric Lee,Felix Lee,Arielle Leon,Lei Li,Fuhui Long,Jennifer Luviano,Kyla Mace,Thuyanh V. Nguyen,Jed Perkins,Miranda Robertson,Sam Seid,Eric Shea-Brown,Jingyi Shi,Nathan Sjoquist,Clifford R. Slaughterbeck,David Sullivan,Ryan Valenza,White C,Ali Williford,Daniela Witten,Jun Zhuang,Hongkui Zeng,Colin Farrell,Lindsay Ng,Amy Bernard,John W. Phillips,Robert Reid,Christof Koch +70 more
TL;DR: An open, large-scale physiological survey of neural activity in the awake mouse visual cortex: the Allen Brain Observatory Visual Coding dataset is reported, revealing functional differences across these dimensions and showing that visual cortical responses are sparse but correlated.
Posted ContentDOI
A survey of spiking activity reveals a functional hierarchy of mouse corticothalamic visual areas
Joshua H. Siegle,Xiaoxuan Jia,Séverine Durand,Samuel D. Gale,Corbett Bennett,Nile Graddis,Greggory Heller,Tamina K. Ramirez,Hannah Choi,Hannah Choi,Jennifer Luviano,Peter A. Groblewski,Ruweida Ahmed,Anton Arkhipov,Amy Bernard,Yazan N. Billeh,Brown D,Michael A. Buice,Nicholas Cain,Shiella Caldejon,Linzy Casal,Cho A,Chvilicek M,Timothy C. Cox,Kael Dai,Daniel J. Denman,Daniel J. Denman,de Vries Sej,Dietzman R,Luke Esposito,Colin Farrell,David Feng,John Galbraith,Marina Garrett,Emily Gelfand,Nicole Hancock,Julie A. Harris,Robert Howard,Brian Hu,Hytnen R,Ramakrishnan Iyer,Jessett E,Johnson K,India Kato,Justin T. Kiggins,Sophie Lambert,Jérôme Lecoq,Peter Ledochowitsch,Jung Hoon Lee,Arielle Leon,Yang Li,Liang E,Fuhui Long,Kyla Mace,Melchior J,Daniel Millman,Mollenkopf Ts,Chelsea Nayan,Lindsay Ng,Kiet Ngo,Thuyanh V. Nguyen,Philip R. Nicovich,Kat North,Gabriel Koch Ocker,Douglas R. Ollerenshaw,Michael Oliver,Marius Pachitariu,Jed Perkins,Melissa Reding,David Reid,Miranda Robertson,Kara Ronellenfitch,Sam Seid,Clifford R. Slaughterbeck,Michelle Stoecklin,David Sullivan,Sutton B,Jackie Swapp,Carol L. Thompson,Karly M. Turner,Wayne Wakeman,Jennifer D. Whitesell,Derric Williams,Ali Williford,R.D. Young,Hongkui Zeng,Sarah A. Naylor,John W. Phillips,Robert Reid,Stefan Mihalas,Olsen,Christof Koch +91 more
TL;DR: A large, open dataset that surveys spiking from units in six cortical and two thalamic regions responding to a battery of visual stimuli finds that inter-area functional connectivity mirrors the anatomical hierarchy from the Allen Mouse Brain Connectivity Atlas and provides a foundation for understanding coding and dynamics in the mouse cortico-thalamic visual system.
Journal ArticleDOI
VIP interneurons in mouse primary visual cortex selectively enhance responses to weak but specific stimuli.
Daniel Millman,Gabriel Koch Ocker,Shiella Caldejon,India Kato,Josh D Larkin,Eric Lee,Jennifer Luviano,Chelsea Nayan,Thuyanh V. Nguyen,Kat North,Sam Seid,Cassandra White,Jérôme Lecoq,Clay Reid,Michael A. Buice,Saskia E. J. de Vries +15 more
TL;DR: It is shown that VIP neurons in mouse V1 respond strongly to low contrast front-to-back motion that is congruent with self-motion during locomotion but are suppressed by other directions and contrasts.
Posted ContentDOI
Learning from unexpected events in the neocortical microcircuit
Colleen J Gillon,Jason E. Pina,Jérôme Lecoq,Ruweida Ahmed,Yazan N. Billeh,Shiella Caldejon,Peter A. Groblewski,Timothy M. Henley,India Kato,Eric Lee,Jennifer Luviano,Kyla Mace,Chelsea Nayan,Thuyanh V. Nguyen,Kat North,Jed Perkins,Sam Seid,Matthew T. Valley,Ali Williford,Yoshua Bengio,Yoshua Bengio,Timothy P. Lillicrap,Blake A. Richards,Joel Zylberberg +23 more
TL;DR: In this article, the authors show that unexpected event signals predict subsequent changes in responses to expected and unexpected stimuli in individual neurons and distal apical dendrites that are tracked over a period of days.