DNA looping: the consequences and its control

Ackers; Adhya; Alberts; Becker; Bloomfield; Broach; Cloutier; de Lange; Dodd; Du; Dunn; Halford; Hanke; Hill; Irani; Jose MG Vilar; Knight; Leonor Saiz; Lewis; Li; Matthews; Moreau; Mossing; Muller; Müller-Hill; Oehler; Olson; Ptashne; Ptashne; Radman-Livaja; Revet; Richmond; Ringrose; Rippe; Saiz; Saiz; Schleif; Semsey; Stenger; Tolhuis; Vilar; Vilar; Villa; Yan; Yasmin; Zhang

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DNA looping: the consequences and its control

Authors: Ackers
Adhya
Alberts
Becker
Bloomfield
Broach
Cloutier
de Lange
Dodd
Du
Dunn
Halford
Hanke
Hill
Irani
Jose MG Vilar
Knight
Leonor Saiz
Lewis
Li
Matthews
Moreau
Mossing
Muller
Müller-Hill
Oehler
Olson
Ptashne
Ptashne
Radman-Livaja
Revet
Richmond
Ringrose
Rippe
Saiz
Saiz
Schleif
Semsey
Stenger
Tolhuis
Vilar
Vilar
Villa
Yan
Yasmin
Zhang
Publication date: 26 September 2006
Publisher: 'Elsevier BV'
Doi

Abstract

The formation of DNA loops by proteins and protein complexes is ubiquitous to many fundamental cellular processes, including transcription, recombination, and replication. Here we review recent advances in understanding the properties of DNA looping in its natural context and how they propagate to the cellular behavior through gene regulation. The results of connecting the molecular properties with cellular physiology indicate that looping of DNA in vivo is much more complex and easier than predicted from current models and reveals a wealth of previously unappreciated details

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