EMD-12656
Cryo-EM structure of the MukBEF-MatP-DNA head module
EMD-12656
Single-particle3.1 Å
Deposition: 23/03/2021Map released: 07/07/2021
Last modified: 23/03/2022
Sample Organism:
Photorhabdus thracensis,
Escherichia coli BL21(DE3),
synthetic construct
Sample: Complex of MukBEF, AcpP, MatP and DNA
Fitted models: 7nyw (Avg. Q-score: 0.452)
Raw data: EMPIAR-10755
Deposition Authors: Buermann F
,
Lowe J
Sample: Complex of MukBEF, AcpP, MatP and DNA
Fitted models: 7nyw (Avg. Q-score: 0.452)
Raw data: EMPIAR-10755
Deposition Authors: Buermann F
,
Lowe J
Cryo-EM structure of MukBEF reveals DNA loop entrapment at chromosomal unloading sites.
Abstract:
The ring-like structural maintenance of chromosomes (SMC) complex MukBEF folds the genome of Escherichia coli and related bacteria into large loops, presumably by active DNA loop extrusion. MukBEF activity within the replication terminus macrodomain is suppressed by the sequence-specific unloader MatP. Here, we present the complete atomic structure of MukBEF in complex with MatP and DNA as determined by electron cryomicroscopy (cryo-EM). The complex binds two distinct DNA double helices corresponding to the arms of a plectonemic loop. MatP-bound DNA threads through the MukBEF ring, while the second DNA is clamped by the kleisin MukF, MukE, and the MukB ATPase heads. Combinatorial cysteine cross-linking confirms this topology of DNA loop entrapment in vivo. Our findings illuminate how a class of near-ubiquitous DNA organizers with important roles in genome maintenance interacts with the bacterial chromosome.
The ring-like structural maintenance of chromosomes (SMC) complex MukBEF folds the genome of Escherichia coli and related bacteria into large loops, presumably by active DNA loop extrusion. MukBEF activity within the replication terminus macrodomain is suppressed by the sequence-specific unloader MatP. Here, we present the complete atomic structure of MukBEF in complex with MatP and DNA as determined by electron cryomicroscopy (cryo-EM). The complex binds two distinct DNA double helices corresponding to the arms of a plectonemic loop. MatP-bound DNA threads through the MukBEF ring, while the second DNA is clamped by the kleisin MukF, MukE, and the MukB ATPase heads. Combinatorial cysteine cross-linking confirms this topology of DNA loop entrapment in vivo. Our findings illuminate how a class of near-ubiquitous DNA organizers with important roles in genome maintenance interacts with the bacterial chromosome.