ParA scaffolding / Newcastle University / Imperial College / South Kensington Campus / parC complex / University of Southern Denmark / Massachusetts Institute / N terminus of ParG / N terminus / John Innes Centre / N terminus of ParB / University of Connecticut Health Center / /
IndustryTerm
cognate centromere site / travel distance / energy / plasmid partition systems / model systems / focus travel distance / /
Organization
U.K. Biotechnology and Biological Sciences Research Council / Danish Natural Science Research Council / Plasmid Movement / Imperial College London / Newcastle University / University of Connecticut / Molecular Model Explaining Plasmid Movement / Connecticut Health Center / ParA Assembly / ADP ParA / John Innes Centre / FP ParA / Institute for Cell / Royal Society / Walker Box ATPase / retracting ParA / /
Person
Yvette Cedex / Gitte Ebersbach / Simon Ringgaarda / Martin Howarde / Kenn Gerdesa / Heath Murray / Kathrin Schirner / Qing Wang / Walker A Box / Simon Syvertssen / Jeff Errington / /
Position
Hb / Butler / Author / King / /
Product
nalidixic acid / /
ProvinceOrState
Connecticut / Massachusetts / /
PublishedMedium
Molecular Biology / /
Region
Southern Denmark / /
Technology
av / Biotechnology / polymerization / DNA binding / Gif / /
Movement and equipositioning of plasmids by ParA filament disassembly Simon Ringgaarda,b, Jeroen van Zonc,d, Martin Howarde, and Kenn Gerdesa,1 aCentre for Bacterial Cell Biology, Institute for Cell and Molecular Biosci