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Benjamin Lears Prosser
University Of Maryland Baltimore
$7,367,970
Attributed
$9,077,764
Total exposure
5
Grants
4
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 $1.6M · FY2012–24$2M$1.5M$1M$500K$0
'12
'13
'14
'15
'16
'17
'18
'19
'20
'21
'22
'23
'24
Funding mix
By agency
NIH$9,077,764 · 5
By mechanism
R01$7,605,902 · 2
R00$727,528 · 1
R21$474,874 · 1
K99$269,460 · 1
Top collaborators
- Kenneth Ber Margulies5 shared
Most similar at University Of Maryland Baltimore
Same institution · by research overlap
- Anne R Cappola$10,909,353
- Ohannes Kevork Melemedjian$5,875,364
- Richard J Traub$7,380,364
- Michael S Gold$16,352,215
- Simeon I Taylor$9,588,026
Others in their field
Top investigators on “Cells”
- Lawrence Corey · Fred Hutchinson Cancer Center$536,344,731
- Barton F Haynes · Duke University$457,457,619
- David Heimbrook · Leidos Biomedical Research, Inc.$454,789,509
- Glenda E Gray · Wits Health Consortium (Pty), Ltd$299,104,942
- Dennis R. Burton · Scripps Research Institute$278,781,854
- Mary M Horowitz · Medical College Of Wisconsin$237,383,608
Research focus
CellsMyocardiumHeart FailureHeartCardiacMuscle CellsMouse ModelPressureStretchingMechanicsInsightCytoskeletonMicrotubulesEnzymesTissuesComplementFunctional DisorderCardiac MyocytesIn VivoScientistHeart CellImpairmentImageHeart Function
Grant awards (20)
Mechanical Stress-Dependent Remodeling of the Cardiac Microtubule Network$646,388
R01 · FY2024 · HL
Detyrosinated microtubules in cardiomyocyte mechanics$640,488
R01 · FY2024 · HL · contact PI
Mechanical Stress-Dependent Remodeling of the Cardiac Microtubule Network$675,748
R01 · FY2023 · HL
Detyrosinated microtubules in cardiomyocyte mechanics$479,076
R01 · FY2023 · HL · contact PI
Mechanical Stress-Dependent Remodeling of the Cardiac Microtubule Network$687,224
R01 · FY2022 · HL
Detyrosinated microtubules in cardiomyocyte mechanics$613,164
R01 · FY2022 · HL · contact PI
Mechanical Stress-Dependent Remodeling of the Cardiac Microtubule Network$702,689
R01 · FY2021 · HL
MicroRNA site-blocking oligonucleotides as a novel therapy for neurodevelopmental disorders$474,874
R21 · FY2021 · NS · contact PI
Detyrosinated microtubules in cardiomyocyte mechanics$441,085
R01 · FY2021 · HL · contact PI
Mechanical Stress-Dependent Remodeling of the Cardiac Microtubule Network$707,540
R01 · FY2020 · HL
Detyrosinated microtubules in cardiomyocyte mechanics$402,500
R01 · FY2020 · HL · contact PI
Detyrosinated microtubules in cardiomyocyte mechanics$402,500
R01 · FY2019 · HL · contact PI
Detyrosinated microtubules in cardiomyocyte mechanics$402,500
R01 · FY2018 · HL · contact PI
Detyrosinated microtubules in cardiomyocyte mechanics$402,500
R01 · FY2017 · HL · contact PI
Detyrosinated microtubules in cardiomyocyte mechanics$402,500
R01 · FY2016 · HL · contact PI
Stretch-dependent X-ROS signaling: implications for cardiomyopathy$238,405
R00 · FY2016 · HL · contact PI
Stretch-dependent X-ROS signaling: implications for cardiomyopathy$240,123
R00 · FY2015 · HL · contact PI
Stretch-dependent X-ROS signaling: implications for cardiomyopathy$249,000
R00 · FY2014 · HL · contact PI
Stretch-dependent X-ROS signaling: implications for cardiomyopathy$134,730
K99 · FY2013 · HL · contact PI
Stretch-dependent X-ROS signaling: implications for cardiomyopathy$134,730
K99 · FY2012 · HL · contact PI