Back to Results
First PageMeta Content
Biochemistry / RNA polymerase / Macromolecular crowding / Gene regulatory network / Transcription / Promoter / Dissociation constant / Macromolecule / Regulation of gene expression / Biology / Gene expression / Chemistry


Biophysical Journal Volume 106 April[removed]–[removed]Macromolecular Crowding as a Regulator of Gene Transcription Hiroaki Matsuda,† Gregory Garbe`s Putzel,† Vadim Backman,† and Igal Szleifer†‡*
Add to Reading List

Document Date: 2014-06-25 11:19:45

Open Document

File Size: 695,82 KB

Share Result on Facebook

City

Toan / /

Company

Matsuda / Ge / /

Country

United States / /

Currency

USD / /

/

Event

Product Issues / /

Facility

Life Processes Institute / Northwestern University / /

IndustryTerm

steady-state solutions / chemical reactions / mRNA processing steps / free energy change / energy consumption / genetic networks / free energy / bacterial systems / gene regulatory systems / gene regulatory networks / aforementioned free-energy barrier / free energy differences / chemical reaction / free-energy barrier / steady-state solution / hemoglobin solutions / chemical potentials / free-energy changes / free-energy change / /

Organization

Biophysical Society / Department of Biomedical Engineering and Chemistry of Life Processes Institute / National Science Foundation / DFbarrier / Northwestern University / Description Association / Department of Chemistry / /

Person

Gregory Garbe`s Putzel / Hiroaki Matsuda / † Gregory / Vadim Backman / Nat / Alan Grodzinsky / /

/

Position

kM ½snRNP ½pm / Editor / Prime Minister / Representative / theoretical model for hard spheres / /

Product

Eq / Monte Carlo / polyethylene glycol / regulation / /

ProvinceOrState

New Mexico / /

PublishedMedium

PLoS ONE / the Biophysical Journal / /

TVStation

CBET / /

Technology

thermodynamics / gene expression / simulation / DNA binding / /

URL

http /

SocialTag