A hold-and-feed mechanism drives directional DNA loop extrusion by condensin

A hold-and-feed mechanism drives directional DNA loop extrusion by condensin

Structural maintenance of chromosomes (SMC) protein complexes structure genomes by extruding DNA loops, but the molecular mechanism that underlies their activity has remained unknown. We show that the active condensin complex entraps the bases of a DNA loop transiently in two separate chambers. Sing...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2022-06, Vol.376 (6597), p.1087-1094
Hauptverfasser: Shaltiel, Indra A, Datta, Sumanjit, Lecomte, Léa, Hassler, Markus, Kschonsak, Marc, Bravo, Sol, Stober, Catherine, Ormanns, Jenny, Eustermann, Sebastian, Haering, Christian H
Format: Artikel
Sprache:eng
Schlagworte:
Adenosine Triphosphatases - chemistry
Chromosomes
Condensin
Cryoelectron Microscopy
Deoxyribonucleic acid
DNA
DNA - chemistry
DNA-Binding Proteins - chemistry
Extrusion
Genomes
Multiprotein Complexes - chemistry
Nucleic Acid Conformation
Single Molecule Imaging
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Zusammenfassung:Structural maintenance of chromosomes (SMC) protein complexes structure genomes by extruding DNA loops, but the molecular mechanism that underlies their activity has remained unknown. We show that the active condensin complex entraps the bases of a DNA loop transiently in two separate chambers. Single-molecule imaging and cryo-electron microscopy suggest a putative power-stroke movement at the first chamber that feeds DNA into the SMC-kleisin ring upon adenosine triphosphate binding, whereas the second chamber holds on upstream of the same DNA double helix. Unlocking the strict separation of "motor" and "anchor" chambers turns condensin from a one-sided into a bidirectional DNA loop extruder. We conclude that the orientation of two topologically bound DNA segments during the SMC reaction cycle determines the directionality of DNA loop extrusion.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.abm4012