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Effect of Temperature on the Mechanism of Actin Polymerization
Chris T. Zimmerle,
Carl Frieden
Department of Biochemistry & Molecular Biophysics
Roy and Diana Vagelos Division of Biology & Biomedical Sciences (DBBS)
Institute of Clinical and Translational Sciences (ICTS)
Bursky Center for Human Immunology & Immunotherapy Programs (CHiiPs)
Research output
:
Contribution to journal
›
Article
›
peer-review
32
Scopus citations
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Keyphrases
Mg2+
100%
Actin Polymerization
100%
G-actin
100%
Temperature Effect
100%
Actin
66%
Increased Temperature
66%
Tight
33%
Order of Magnitude
33%
Ca2+
33%
Actin Filaments
33%
Skeletal muscle
33%
Sulfo
33%
Isomerization
33%
Critical Concentration
33%
Mg2+ Binding
33%
Kinetic Data
33%
Dimer Formation
33%
Plasma Gelsolin
33%
Naphthyl
33%
Temperature Variation
33%
Temperature Sensitivity
33%
Ca2+ Binding
33%
Ethylenediamine
33%
Pointed End
33%
Polymerization Mechanism
33%
Elongation Rate
33%
Polymerization Reaction
33%
Constant Change
33%
Diffusion-limited Reaction
33%
Earth and Planetary Sciences
United States of America
100%
Isomerization
100%
Ethylenediamine
100%
Polymerization
100%
Monomer
100%
Naphthalene
100%
Ethane
100%
Chemistry
Polymerization
100%
Actin
100%
Globular Actin
75%
Filament
50%
Rate Constant
50%
Kinetics Type
25%
Isomerization
25%
Ethane
25%
Ethylenediamine
25%
Monomer
25%
formation
25%
dimer
25%
Naphthalene
25%
Engineering
Polymerization
100%
Increasing Temperature
50%
Reverse Rate Constant
50%
Critical Concentration
25%
Temperature Dependence
25%
Monomer
25%
Temperature Change
25%
Great Extent
25%
Material Science
Polymerization
100%
Actin
100%
Globular Actin
75%
Chemical Engineering
Polymerization
100%
Dimer
25%
Ethane
25%
Naphthalene
25%