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Vincent A Pieribone

Rockefeller University

$10,484,039
Attributed
$16,806,558
Total exposure
13
Grants
5
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 $3.5M · FY200922
$5M$3.8M$2.5M$1.3M$0
'09
'10
'11
'12
'13
'14
'15
'16
'17
'18
'19
'20
'21
'22

Funding mix

By agency

NIH$16,806,558 · 13

By mechanism

R01$6,532,893 · 3
U01$5,450,691 · 3
UF1$2,680,864 · 1
P01$708,572 · 1
R21$609,684 · 2
R56$494,763 · 1

Most similar at Rockefeller University

Same institution · by research overlap

Others in their field

Top investigators on “Neurons

Research focus

NeuronsVoltagePropertySignal TransductionDesignResponseBrainIn VivoSensorImageFluorescenceLightAction PotentialsResearch StudyCellsMonitorBaseMembrane PotentialsOptical MethodsOpticsEngineeringCalciumNoiseProteins

Grant awards (33)

Efficient Two-Photon Voltage Imaging of Neuronal Populations at Behavioral Timescales$1,336,736
U01 · FY2022 · NS
High Throughput of Protein-based Voltage Probes$789,427
U01 · FY2019 · NS · contact PI
Population Imaging of Action Potentials by Novel Two-Photon Microscopes and Genetically Encoded Voltage Indicators$2,680,864
UF1 · FY2018 · NS
High Throughput of Protein-based Voltage Probes$824,252
U01 · FY2018 · NS · contact PI
High Throughput of Protein-based Voltage Probes$823,310
U01 · FY2017 · NS · contact PI
Genetically-Encoded Voltage Probe Development$551,553
R01 · FY2016 · NS · contact PI
Development of Protein-based Voltage Probes$525,001
U01 · FY2016 · NS · contact PI
High-Speed, wide field fluorescent imaging of cortex in freely moving animals$597,578
R01 · FY2015 · NS · contact PI
Genetically-Encoded Voltage Probe Development$551,555
R01 · FY2015 · NS · contact PI
Development of Protein-based Voltage Probes$525,001
U01 · FY2015 · NS · contact PI
Development of Protein-based Voltage Probes$101,963
U01 · FY2015 · NS · contact PI
High-Speed, wide field fluorescent imaging of cortex in freely moving animals$624,853
R01 · FY2014 · NS · contact PI
Genetically-Encoded Voltage Probe Development$598,640
R01 · FY2014 · NS · contact PI
Development of Protein-based Voltage Probes$525,001
U01 · FY2014 · NS · contact PI
High-Speed, wide field fluorescent imaging of cortex in freely moving animals$616,465
R01 · FY2013 · NS · contact PI
Genetically-Encoded Voltage Probe Development$604,918
R01 · FY2013 · NS · contact PI
High-Speed, wide field fluorescent imaging of cortex in freely moving animals$689,735
R01 · FY2012 · NS · contact PI
High-Speed, wide field fluorescent imaging of cortex in freely moving animals$494,763
R56 · FY2011 · NS · contact PI
High-speed, wide field fluorescent imaging of cortex in freely moving animals$604,358
R01 · FY2010 · NS · contact PI
High-speed, wide field fluorescent imaging of cortex in freely moving animals$584,932
R01 · FY2009 · NS · contact PI
A Protein Based Optical Probe of Membrane Potential$157,724
R21 · FY2004 · MH
Optical probes of cardiac channel function$99,510
R41 · FY2004 · HL
A Protein Based Optical Probe of Membrane Potential$154,456
R21 · FY2003 · MH
Synuclein Function in the Synaptic Vesicle Cycle$150,172
R21 · FY2003 · NS
SYNAPSINS AND ANIMAL MODELS OF SYNAPTOGENESIS$242,857
P01 · FY2002 · AG
PHYSIOLOGICAL ROLE OF ACTIN IN SYNAPTIC TRANSMISSION$161,860
R01 · FY2002 · NS
Synuclein Function in the Synaptic Vesicle Cycle$147,332
R21 · FY2002 · NS
SYNAPSINS AND ANIMAL MODELS OF SYNAPTOGENESIS$242,857
P01 · FY2001 · AG
PHYSIOLOGICAL ROLE OF ACTIN IN SYNAPTIC TRANSMISSION$156,969
R01 · FY2001 · NS
PHYSIOLOGICAL STUDIES OF NERVE TERMINAL PHOSPHORYLATION$118,017
R29 · FY2001 · NS
SYNAPSINS AND ANIMAL MODELS OF SYNAPTOGENESIS$222,858
P01 · FY2000 · AG
PHYSIOLOGICAL ROLE OF ACTIN IN SYNAPTIC TRANSMISSION$189,477
R01 · FY2000 · NS
PHYSIOLOGICAL STUDIES OF NERVE TERMINAL PHOSPHORYLATION$111,564
R29 · FY2000 · NS