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John H Reynolds
Salk Institute For Biological Studies
$15,755,512
Attributed
$25,647,196
Total exposure
10
Grants
8
Lead (contact PI)
Attributed= this PI's even-split share of every grant they're on (the fair, additive number). Exposure = full size of all those grants.
Funding over time
peak $3M · FY2005–25$5M$3.8M$2.5M$1.3M$0
'05
'06
'07
'08
'09
'10
'11
'12
'13
'14
'15
'16
'17
'18
'19
'20
'21
'22
'23
'24
'25
Funding mix
By agency
NIH$25,647,196 · 10
By mechanism
R01$11,884,838 · 4
U01$9,574,757 · 3
R24$3,134,626 · 1
R21$1,052,975 · 2
Top collaborators
- Lyle Edward Muller6 shared
- Kuo-Fen Lee5 shared
- Duygu Kuzum4 shared
- Nicolas Brunel3 shared
- Todd P Coleman3 shared
- Kenneth D Miller3 shared
- Mark J Schnitzer3 shared
- Edward M Callaway2 shared
Most similar at Salk Institute For Biological Studies
Same institution · by research overlap
- Tom P. Franken$1,395,009
- Kuo-Fen Lee$43,559,775
- Edward M Callaway$43,648,739
- Richard J Krauzlis$5,817,564
- Jude F Mitchell$2,132,766
Others in their field
Top investigators on “Neurons”
- Hongkui Zeng · Allen Institute$106,358,289
- Eric Martin McDade · Washington University$94,632,845
- Ed Lein · Allen Institute$90,858,363
- Randall J Bateman · Washington University$65,841,935
- John Morris · Washington University$65,018,684
- Paul S. Aisen · Cognition Therapeutics, Inc.$58,570,460
Research focus
NeuronsAreaMonkeysPerceptionAttentionBrainInsightBehaviorVisualAwakeNeuromechanismResponseMediatingStimulusVisual StimulusPlaySchizophreniaPrimatesPropertyAnimalsExhibitsAlzheimer&AposMacacaSpatiotemporal
Grant awards (42)
Traveling Waves in Neocortical Circuits: Mechanisms, Computational Roles in Sensory Processing, and Impact on Sensory Perception$1,743,895
U01 · FY2025 · NS · contact PI
Optimization of Transparent Microelectrode Arrays for Large-scale Multimodal Monitoring of Neural Activity$802,003
U01 · FY2025 · NS
Spatiotemporal patterns of neural activity and their role in perception$390,167
R01 · FY2025 · EY · contact PI
Traveling waves in neocortical circuits: Mechanisms, computational roles in sensory processing, and impact on sensory perception$1,757,863
U01 · FY2024 · NS · contact PI
Spatiotemporal patterns of neural activity and their role in perception$459,020
R01 · FY2024 · EY · contact PI
Traveling waves in neocortical circuits: Mechanisms, computational roles in sensory processing, and impact on sensory perception$2,478,384
U01 · FY2023 · NS · contact PI
Spatiotemporal patterns of neural activity and their role in perception$526,141
R01 · FY2023 · EY · contact PI
Spatiotemporal patterns of neural activity and their role in perception$461,818
R01 · FY2021 · EY · contact PI
Circuitry underlying response summation in mouse and primate: Theory and experiment$908,396
U01 · FY2020 · NS · contact PI
Development of marmoset models of neurodegenerative disease using embryonic stem cell-based gene-editing approaches$733,301
R24 · FY2020 · OD
Cognitive decline and synaptic change in the aging marmoset$529,100
R21 · FY2020 · AG · contact PI
Spatiotemporal patterns of neural activity and their role in perception$476,101
R01 · FY2020 · EY · contact PI
Circuitry underlying response summation in mouse and primate: Theory and experiment$908,396
U01 · FY2019 · NS · contact PI
Development of marmoset models of neurodegenerative disease using embryonic stem cell-based gene-editing approaches$728,786
R24 · FY2019 · OD
Spatiotemporal patterns of neural activity and their role in perception$476,101
R01 · FY2019 · EY · contact PI
Development of marmoset models of neurodegenerative disease using embryonic stem cell-based gene-editing approaches$187,624
R24 · FY2019 · OD
Circuitry underlying response summation in mouse and primate: Theory and experiment$975,820
U01 · FY2018 · NS · contact PI
Development of marmoset models of neurodegenerative disease using embryonic stem cell-based gene-editing approaches$742,787
R24 · FY2018 · OD
Spatiotemporal patterns of neural activity and their role in perception$493,417
R01 · FY2018 · EY · contact PI
Development of marmoset models of neurodegenerative disease using embryonic stem cell-based gene-editing approaches$742,128
R24 · FY2017 · OD
Probing perception and attention using primate optogenetics$466,725
R01 · FY2015 · EY · contact PI
Probing perception and attention using primate optogenetics$466,725
R01 · FY2014 · EY · contact PI
Probing perception and attention using primate optogenetics$452,438
R01 · FY2013 · EY · contact PI
Probing perception and attention using primate optogenetics$476,250
R01 · FY2012 · EY · contact PI
Optogenetic tools to selectively activate projection neurons in awake primate$238,125
R21 · FY2012 · EY · contact PI
Probing perception and attention using primate optogenetics$476,250
R01 · FY2011 · EY · contact PI
Neural Mechanisms of Feature Integration$455,004
R01 · FY2011 · EY · contact PI
Optogenetic tools to selectively activate projection neurons in awake primate$285,750
R21 · FY2011 · EY · contact PI
Neural Mechanisms of Feature Integration$473,963
R01 · FY2010 · EY · contact PI
Neural Mechanisms of Feature Integration$478,750
R01 · FY2009 · EY · contact PI
Attentional Modulation of Receptive Field Structure$414,681
R01 · FY2009 · EY · contact PI
Neural Mechanisms of Feature Integration$469,175
R01 · FY2008 · EY · contact PI
Attentional Modulation of Receptive Field Structure$406,386
R01 · FY2008 · EY · contact PI
Neural Mechanisms of Feature Integration$478,750
R01 · FY2007 · EY · contact PI
Attentional Modulation of Receptive Field Structure$414,681
R01 · FY2007 · EY · contact PI
Attentional Modulation of Receptive Field Structure$417,015
R01 · FY2006 · EY · contact PI
Attentional Modulation of Receptive Field Structure$427,050
R01 · FY2005 · EY
Neural Mechanisms of Grouping and Stimulus Selection$426,825
R01 · FY2005 · EY
Neural Mechanisms of Grouping and Stimulus Selection$524,755
R01 · FY2004 · EY
Neural Mechanisms of Grouping and Stimulus Selection$426,825
R01 · FY2003 · EY
Neural Mechanisms of Grouping and Stimulus Selection$23,000
R01 · FY2003 · EY
Neural Mechanisms of Grouping and Stimulus Selection$426,825
R01 · FY2002 · EY