David Callaway | Academic Influence

David Callaway's AcademicInfluence.com Rankings

David Callaway

Physics

#3547

World Rank

#5014

Historical Rank

#1275

USA Rank

physics Degrees

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Physics

David Callaway's Degrees

PhD Physics Stanford University
Masters Physics Stanford University
Bachelors Physics Stanford University

Why Is David Callaway Influential?

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According to Wikipedia, David James Edward Callaway is a biological nanophysicist in the New York University School of Medicine, where he is professor and laboratory director. He was trained as a theoretical physicist by Richard Feynman, Kip Thorne, and Cosmas Zachos, and was previously an associate professor at the Rockefeller University after positions at CERN and Los Alamos National Laboratory. Callaway's laboratory discovered potential therapeutics for Alzheimer's disease based upon apomorphine after an earlier paper of his developed models of Alzheimer amyloid formation. He has also initiated the study of protein domain dynamics by neutron spin echo spectroscopy, providing a way to observe protein nanomachines in motion.

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David Callaway's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

A Molecular Model of Alzheimer Amyloid β-Peptide Fibril Formation* (1999) (337)
Controlling Amyloid β-Peptide Fibril Formation with Protease-stable Ligands* (1997) (214)
Triviality pursuit: Can elementary scalar particles exist? (1988) (161)
Biochemical and mutational investigations of the enzymatic activity of macrophage migration inhibitory factor. (1997) (161)
The Amyloid β Peptide (Aβ1-40) Is Thermodynamically Soluble at Physiological Concentrations† (2003) (150)
Microcanonical Ensemble Formulation of Lattice Gauge Theory (1982) (142)
New class of inhibitors of amyloid-beta fibril formation. Implications for the mechanism of pathogenesis in Alzheimer's disease. (2002) (139)
Inhibition of MIF bioactivity by rational design of pharmacological inhibitors of MIF tautomerase activity. (2002) (123)
Proteins move! Protein dynamics and long-range allostery in cell signaling. (2011) (113)
Coupled protein domain motion in Taq polymerase revealed by neutron spin-echo spectroscopy. (2005) (94)
Ezrin Controls the Macromolecular Complexes Formed between an Adapter Protein Na+/H+ Exchanger Regulatory Factor and the Cystic Fibrosis Transmembrane Conductance Regulator* (2005) (80)
Protein Kinase C Phosphorylation Disrupts Na+/H+ Exchanger Regulatory Factor 1 Autoinhibition and Promotes Cystic Fibrosis Transmembrane Conductance Regulator Macromolecular Assembly* (2007) (75)
A Conformational Switch in the Scaffolding Protein NHERF1 Controls Autoinhibition and Complex Formation* (2009) (62)
Assembling amyloid fibrils from designed structures containing a significant amyloid beta-peptide fragment. (2002) (57)
Dynamic regimes and correlated structural dynamics in native and denatured alpha-lactalbumin. (2001) (57)
Non-triviality of gauge theories with elementary scalars and upper bounds on Higgs masses (1984) (56)
Ezrin induces long-range interdomain allostery in the scaffolding protein NHERF1. (2009) (53)
Lattice gauge theory in the microcanonical ensemble (1983) (49)
Open Conformation of Ezrin Bound to Phosphatidylinositol 4,5-Bisphosphate and to F-actin Revealed by Neutron Scattering* (2012) (45)
Activation of nanoscale allosteric protein domain motion revealed by neutron spin echo spectroscopy. (2010) (44)
The amyloid beta peptide (Abeta(1-40)) is thermodynamically soluble at physiological concentrations. (2003) (41)
Molecular Alignment within β-Sheets in Aβ14-23 Fibrils: Solid-State NMR Experiments and Theoretical Predictions (2007) (41)
Neutron scattering in the biological sciences: progress and prospects. (2018) (40)
Structure-specific DNA-induced Conformational Changes in Taq Polymerase Revealed by Small Angle Neutron Scattering* (2004) (30)
Effective potential of lattice φ 4 theory (1983) (28)
Abelian Higgs model: A Monte Carlo study (1982) (26)
Classical many-body model for heavy-ion collisions: (III). Ne-Ne and Ca-Ca calculations (1979) (25)
Nanoscale protein dynamics: A new frontier for neutron spin echo spectroscopy (2013) (25)
Monte Carlo renormalization group study of φ4 field theory (1984) (24)
An ensemble of flexible conformations underlies mechanotransduction by the cadherin–catenin adhesion complex (2019) (23)
Can elementary scalar particles exist (1986) (23)
New Class of Inhibitors of Amyloid-β Fibril Formation (2002) (23)
On the remarkable structure of the superconducting intermediate state (1990) (22)
Phosphatidylinositol 4,5-Bisphosphate Clusters the Cell Adhesion Molecule CD44 and Assembles a Specific CD44-Ezrin Heterocomplex, as Revealed by Small Angle Neutron Scattering* (2015) (22)
Molecular conformation of the full-length tumor suppressor NF2/Merlin--a small-angle neutron scattering study. (2014) (18)
Molecular alignment within beta-sheets in Abeta(14-23) fibrils: solid-state NMR experiments and theoretical predictions. (2007) (18)
Amyloid fibril formation by macrophage migration inhibitory factor. (2005) (17)
Solvent‐induced organization: A physical model of folding myoglobin (1994) (15)
Determination of critical points and flow diagrams by Monte Carlo renormalization group methods (1984) (15)
IS THE STANDARD MODEL HIGGS MASS PREDICTABLE (1987) (14)
Langevin simulations in Minkowski space (1985) (14)
α-Catenin Structure and Nanoscale Dynamics in Solution and in Complex with F-Actin. (2018) (14)
Spin structure of the nucleon (1984) (13)
Nanoscale protein domain motion and long-range allostery in signaling proteins—a view from neutron spin echo spectroscopy (2015) (11)
Controllable Activation of Nanoscale Dynamics in a Disordered Protein Alters Binding Kinetics. (2017) (11)
CAN elementary scalar particles exist? (II). Scalar electrodynamics (1986) (10)
Nonperturbative analysis of the effective potential in the O(N) model (1983) (10)
Visualizing the nanoscale: protein internal dynamics and neutron spin echo spectroscopy. (2017) (10)
Monte Carlo renormalization group trajectories in lattice gauge theories (1984) (9)
Quantitative determination of the topological propensities of amyloidogenic peptides. (2006) (9)
Monte Carlo renormalization group study of the Abelian Higgs model (1987) (6)
Essential Strategies for Revealing Nanoscale Protein Dynamics by Neutron Spin Echo Spectroscopy. (2016) (5)
Parity and charge symmetry violations in high-energy lepton pair production with polarized hadrons☆ (1980) (5)
Activated nanoscale actin-binding domain motion in the catenin–cadherin complex revealed by neutron spin echo spectroscopy (2021) (4)
Parity violation in high energy Lepton pair production and QCD (1979) (4)
Landau, Abrikosov, Hofstadter: Magnetic Flux Penetration in a Lattice Superconductor (1993) (4)
Lattices for laymen: A non-specialist's introduction to lattice gauge theory part II (1985) (4)
Calculation of finite-size effects and extraction of surface characteristics (1981) (4)
Nanoscale protein domain motion and long-range allostery in signaling proteins—a view from neutron spin echo spectroscopy (2015) (4)
Stochastic quantization as a consequences of the microcanonical ensemble (1984) (3)
root two renormalization group transformation for lattice gauge theories in four dimensions:\Sqrt 2 renormalization group transformation for lattice gauge theories in four dimensions (1984) (3)
Magnetic flux patterns in the superconducting intermediate state (1992) (3)
Dimensional reduction by Monte Carlo (1984) (2)
Perturbative QCD and lepton charge symmetry at Z0 energies (1982) (2)
QCD and weak asymmetries in lepton pair production (1982) (2)
Lepton Pair Production From Polarized Hadrons: Parity Violation and Vector Mesons (1981) (2)
Nanoscale Protein Dynamics and Long-Range Allostery in Cell Signaling (2013) (2)
A conformational switch in the sodium/ hydrogen exchange regulatory factor 1(NHERF1) controls autoinhibition and complex formation (2009) (1)
Protein Kinase C Phosphorylation Disrupts Na/H Exchanger Regulatory Factor 1 Autoinhibition and Promotes Cystic Fibrosis Transmembrane Conductance Regulator (2007) (1)
Model Studies of the Maillard Reaction of Arg-Lys with D-Glucose (1999) (1)
Dynamic Propagation of Long-Range Allosteric Signals by Nanoscale Protein Domain Motion Revealed by Neutron Spin Echo Spectroscopy (2011) (1)
NUMERICS FOR NOVICES: COMPUTATIONAL METHODS FOR LATTICE GAUGE THEORY (1986) (1)
Nanoscale protein dynamics: A new frontier for neutron spin echo spectroscopy (2013) (0)
An ensemble of cadherin-catenin-vinculin complex employs vinculin as the major F-actin binding mode. (2023) (0)
TRIVIAL PURSUIT OF THE HIGGS PARTICLE (1988) (0)
ON THE REMARKABLE STRUCTUREOF THE SUPERCONDUCTING INTERMEDIATESTATE (1990) (0)
WILL HIGGS PARTICLES EVER BE FOUND (1987) (0)
Superconducting suprises: The novel structure of the intermediate state in superconductors and Higgs theories (1990) (0)
Alpha-catenin structure in solution and in complex with F-actin as revealed by small-angle X-ray and neutron scattering (2018) (0)
Solution Structure of human sodium/ hydrogen exchange regulatory factor 1(150-358). (2009) (0)
Solution structure of extended PDZ2 domain from NHERF1 (150-270) (2009) (0)
PKC phosphorylation disrupts NHERF autoinhibition and promotes CFTR macromolecular assembly (2007) (0)

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