The role of nucleoid‐associated proteins in the organization and compaction of bacterial chromatin
- 7 April 2005
- journal article
- review article
- Published by Wiley in Molecular Microbiology
- Vol. 56 (4), 858-870
- https://doi.org/10.1111/j.1365-2958.2005.04598.x
Abstract
The bacterial chromosomal DNA is folded into a compact structure called nucleoid. The shape and size of this 'body' is determined by a number of factors. Major players are DNA supercoiling, macromolecular crowding and architectural proteins, associated with the nucleoid, which are the topic of this MicroReview. Although many of these proteins were identified more than 25 years ago, the molecular mechanisms involved in the organization and compaction of DNA have only started to become clear in recent years. Many of these new insights can be attributed to the use of recently developed biophysical techniques.Keywords
This publication has 110 references indexed in Scilit:
- Modulation of DNA Conformations Through the Formation of Alternative High-order HU–DNA ComplexesJournal of Molecular Biology, 2004
- The Bacterial Condensin MukBEF Compacts DNA into a Repetitive, Stable StructureScience, 2004
- ThevirFpromoter inShigella: more than just a curved DNA stretchMolecular Microbiology, 2004
- SMC proteins in bacteria: Condensation motors for chromosome segregation?Biochimie, 2001
- The bacterial DNA-binding protein H-NS represses ribosomal RNA transcription by trapping RNA polymerase in the initiation complexJournal of Molecular Biology, 2000
- An Lrp-type transcriptional regulator from Agrobacterium tumefaciens condenses more than 100 nucleotides of DNA into globular nucleoprotein complexesJournal of Molecular Biology, 1999
- Molecular dynamics simulations of small DNA plasmids: Effects of sequence and supercoiling on intramolecular motionsBiopolymers, 1996
- Crystal structure of the factor for inversion stimulation FIS at 2.0 Å resolutionJournal of Molecular Biology, 1992
- Interaction of the Escherichia coli HU protein with DNAJournal of Molecular Biology, 1986
- Yeast Chromatin Subunit StructureScience, 1975