Force generation in RNA polymerase. - Wikidata - awgldk - TriplyDB

Force generation in RNA polymerase.

Force generation in RNA polymerase.

http://www.wikidata.org/entity/Q34167334

about

Role of RNA polymerase and transcription in the organization of the bacterial nucleoid A Jump-from-Cavity Pyrophosphate Ion Release Assisted by a Key Lysine Residue in T7 RNA Polymerase Transcription Elongation Trigger loop folding determines transcription rate of Escherichia coli's RNA polymerase The origins of time-delay in template biopolymerization processes.Direct observation of one-dimensional diffusion and transcription by Escherichia coli RNA polymerase.The mechanochemistry of molecular motors.Models of post-translational protein translocation.Conformational dynamics of ATP/Mg:ATP in motor proteins via data mining and molecular simulation.Replication and transcription: shaping the landscape of the genome.A unified model of transcription elongation: what have we learned from single-molecule experiments?A small post-translocation energy bias aids nucleotide selection in T7 RNA polymerase transcription Regular gaits and optimal velocities for motor proteins The Tumbleweed: towards a synthetic proteinmotor.A look-ahead model for the elongation dynamics of transcription.Motor proteins and molecular motors: how to operate machines at the nanoscale.Mechanical design of translocating motor proteins.Viral polymerases.A DNA-centered explanation of the DNA polymerase translocation mechanism Elastic lever-arm model for myosin V A master switch couples Mg²⁺-assisted catalysis to domain motion in B. stearothermophilus tryptophanyl-tRNA Synthetase Kinetics and thermodynamics of exonuclease-deficient DNA polymerases.Single molecule elasticity measurements: a biophysical approach to bacterial nucleoid organization.Master equation approach to molecular motors.A unified phenomenological analysis of the experimental velocity curves in molecular motors.NTP-driven translocation by human RNA polymerase II.Transcription rate of RNA polymerase under rotary torque.Iterated function systems for DNA replication.A dynamic model for processive transcription elongation and backtracking long pauses by multisubunit RNA polymerases.Template-Directed Copolymerization, Random Walks along Disordered Tracks, and Fractals.Analytical theory of the nonequilibrium spatial distribution of RNA polymerase translocations Controller protein of restriction-modification system Kpn2I affects transcription of its gene by acting as a transcription elongation roadblock

P2860

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P2860

Force generation in RNA polymerase.

http://www.wikidata.org/entity/Q34167334

description

1998 nî lūn-bûn

@nan

1998 թուականի Մարտին հրատարակուած գիտական յօդուած

@hyw

1998 թվականի մարտին հրատարակված գիտական հոդված

@hy

1998年の論文

@ja

1998年論文

@yue

1998年論文

@zh-hant

1998年論文

@zh-hk

1998年論文

@zh-mo

1998年論文

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1998年论文

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name

Force generation in RNA polymerase.

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Force generation in RNA polymerase.

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Force generation in RNA polymerase.

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type

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Force generation in RNA polymerase.

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Force generation in RNA polymerase.

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Force generation in RNA polymerase.

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prefLabel

Force generation in RNA polymerase.

@ast

Force generation in RNA polymerase.

@en

Force generation in RNA polymerase.

@nl

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Biophysical Journal

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Force generation in RNA polymerase.

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P2093

Elston T

http://www.w3.org/2001/XMLSchema#string

Mogilner A

http://www.w3.org/2001/XMLSchema#string

Oster G

http://www.w3.org/2001/XMLSchema#string

Wang HY

http://www.w3.org/2001/XMLSchema#string

P2860

Cellular motions and thermal fluctuations: the Brownian ratchet

Coordinated hydrolysis explains the mechanical behavior of kinesin.

The force exerted by a single kinesin molecule against a viscous load.

Torque generated by the flagellar motor of Escherichia coli.

Cell motility driven by actin polymerization.

Movement and force produced by a single myosin head.

Single myosin molecule mechanics: piconewton forces and nanometre steps.

Kinesin hydrolyses one ATP per 8-nm step.

New models for the mechanism of transcription elongation and its regulation.

The single-nucleotide addition cycle in transcription: a biophysical and biochemical perspective.

P304

1186-1202

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scholarly article

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10.1016/S0006-3495(98)77834-8

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3

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1299468

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