2026 David M. Warshaw: Biology and Biochemistry Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Biology and Biochemistry	69	7589	6994	3449	3096	236	12196

Overview

David M. Warshaw is affiliated with the University of Vermont in the United States. Their research focuses primarily on the fields of Medicine and Biochemistry, Genetics and Molecular Biology, with a significant emphasis on cardiology and muscle physiology.

Their main areas of study include:

Cardiomyopathy and Myosin Studies
Muscle Physiology and Disorders
Cardiovascular Effects of Exercise
Cellular Mechanics and Interactions
Neurogenetic and Muscular Disorders Research
Toxoplasma gondii Research Studies
Parasitic Infections and Diagnostics

Warshaw has contributed extensively to subfields such as:

Cardiology and Cardiovascular Medicine
Molecular Biology
Cell Biology
Parasitology
Biophysics

The scientist's publication record includes frequent appearances in the following venues:

Biophysical Journal
bioRxiv (Cold Spring Harbor Laboratory)
The Journal of General Physiology
The American Journal of Human Genetics
Journal of Molecular and Cellular Cardiology

Recent notable papers by David M. Warshaw include:

Imaging ATP Consumption in Resting Skeletal Muscle: One Molecule at a Time (2020, Biophysical Journal)
The N terminus of myosin-binding protein C extends toward actin filaments in intact cardiac muscle (2021, The Journal of General Physiology)
Mutations in MYLPF Cause a Novel Segmental Amyoplasia that Manifests as Distal Arthrogryposis (2020, The American Journal of Human Genetics)
Amino terminus of cardiac myosin binding protein-C regulates cardiac contractility (2021, Journal of Molecular and Cellular Cardiology)
Myosin-binding protein C stabilizes, but is not the sole determinant of SRX myosin in cardiac muscle (2023, The Journal of General Physiology)

Collaborations form an important part of their work, with frequent coauthors including:

Samantha Beck Previs
Shane R. Nelson
Christopher M. Yengo
Sam Walcott
Sebastian Duno-Miranda

Best Publications

Cargo transport: molecular motors navigate a complex cytoskeleton.

Jennifer L Ross;M Yusuf Ali;David M Warshaw

410
Citations
Smooth muscle myosin cross-bridge interactions modulate actin filament sliding velocity in vitro.

David M. Warshaw;Janet M. Desrosiers;Steven S. Work;Kathleen M. Trybus

308
Citations
Smooth muscle and skeletal muscle myosins produce similar unitary forces and displacements in the laser trap

W.H. Guilford;D.E. Dupuis;G. Kennedy;J. Wu

277
Citations
Single-Molecule Mechanics of R403Q Cardiac Myosin Isolated From the Mouse Model of Familial Hypertrophic Cardiomyopathy

M. J. Tyska;E. Hayes;M. Giewat;C. E. Seidman

266
Citations
The myosin power stroke.

Matthew J. Tyska;David M. Warshaw

253
Citations
Two heads of myosin are better than one for generating force and motion

M. J. Tyska;D. E. Dupuis;W. H. Guilford;J. B. Patlak

234
Citations
Differential Labeling of Myosin V Heads with Quantum Dots Allows Direct Visualization of Hand-Over-Hand Processivity

David M. Warshaw;Guy G. Kennedy;Steven S. Work;Elena B. Krementsova

218
Citations
Smooth, cardiac and skeletal muscle myosin force and motion generation assessed by cross-bridge mechanical interactions in vitro.

D. E. Harris;S. S. Work;R. K. Wright;N. R. Alpert

217
Citations
Cardiac V1 And V3 Myosins Differ in Their Hydrolytic and Mechanical Activities In Vitro

Peter VanBuren;David E. Harris;Norman R. Alpert;David M. Warshaw

212
Citations
Smooth and skeletal muscle myosin both exhibit low duty cycles at zero load in vitro.

D E Harris;D M Warshaw

205
Citations
Molecular Mechanics of Cardiac Myosin-Binding Protein C in Native Thick Filaments

M. J. Previs;S. Beck Previs;J. Gulick;J. Robbins

201
Citations
Myosin Va maneuvers through actin intersections and diffuses along microtubules.

M. Yusuf Ali;Elena B. Krementsova;Guy G. Kennedy;Rachel Mahaffy

198
Citations
Myosin-binding protein C displaces tropomyosin to activate cardiac thin filaments and governs their speed by an independent mechanism

Ji Young Mun;Michael J. Previs;Hope Y. Yu;James Gulick

194
Citations
Understanding Cardiomyopathy Phenotypes Based on the Functional Impact of Mutations in the Myosin Motor

Jeffrey R. Moore;Leslie Leinwand;David M. Warshaw

193
Citations
Stereoselective actions of thiadiazinones on canine cardiac myocytes and myofilaments.

R J Solaro;G Gambassi;D M Warshaw;M R Keller

190
Citations
ACTIN FILAMENT MECHANICS IN THE LASER TRAP

Dupuis De;Guilford Wh;Wu J;Warshaw Dm

185
Citations
Mechanical and morphological properties of arterial resistance vessels in young and old spontaneously hypertensive rats.

D M Warshaw;M J Mulvany;W Halpern

183
Citations
Myosin V processivity: Multiple kinetic pathways for head-to-head coordination

Josh E. Baker;Elena B. Krementsova;Guy G. Kennedy;Amy Armstrong

183
Citations
Hypertrophic and dilated cardiomyopathy mutations differentially affect the molecular force generation of mouse α-cardiac myosin in the laser trap assay

Edward P. Debold;J. P. Schmitt;J. B. Patlak;S. E. Beck

180
Citations
Myosin V and Kinesin act as tethers to enhance each others' processivity

M. Yusuf Ali;Hailong Lu;Carol S. Bookwalter;David M. Warshaw

178
Citations