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Capstan friction model for DNA ejection from bacteriophages
Sandip Ghosal
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Corresponding author for this work
Mechanical Engineering
Research output
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Contribution to journal
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Article
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peer-review
20
Scopus citations
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Dive into the research topics of 'Capstan friction model for DNA ejection from bacteriophages'. Together they form a unique fingerprint.
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Keyphrases
Phage
100%
Bacteriophage
100%
Friction Model
100%
Capstan
100%
DNA Ejection
100%
Viral Capsid
66%
Capsid
66%
Translocated
33%
Ejection
33%
Transcription Machinery
33%
Physical Mechanism
33%
Exit Velocity
33%
In Vitro Experiment
33%
Mechanical Model
33%
Outer Membrane
33%
Geometric Arrangement
33%
Electrostatic Potential Energy
33%
DNA Translocation
33%
Phage DNA
33%
Elastic Potential Energy
33%
Engineering
Exit Velocity
100%
Mechanical Model
100%
Friction Model
100%
Potential Energy
100%
Electrostatic Potential
100%
Capstan Friction
100%
Medicine and Dentistry
Bacteriophage
100%
Virus Capsid
80%
In Vitro
20%
Infection
20%
Outer Membrane
20%
Bacteriophage DNA
20%
Immunology and Microbiology
Bacteriophage
100%
Capsid
66%
Outer Membrane
16%
Static Electricity
16%
Mathematics
Electrostatic Potential
100%