DNA Topology Lab
@dnatopologylab.bsky.social
DNA Topology Lab @ Department of Biochemistry
University of Oxford
"We adore chaos because we love to produce order." -M. C. Escher
University of Oxford
"We adore chaos because we love to produce order." -M. C. Escher
Reposted by DNA Topology Lab
For the specialists: the motor units adopt a DNA-holding conformation, a proposed key state of the segment capture model
October 9, 2025 at 2:49 PM
For the specialists: the motor units adopt a DNA-holding conformation, a proposed key state of the segment capture model
The fact that we believe it is true inside us is an extrapolation that may or may not be true. We are trying to find ways to test if chromosomal DNAs do get trapped inside Cohesin rings
July 16, 2025 at 12:50 PM
The fact that we believe it is true inside us is an extrapolation that may or may not be true. We are trying to find ways to test if chromosomal DNAs do get trapped inside Cohesin rings
Very spicy question indeed! All we can say are the following: we can detect sisterDNAs of 2.3 kb plasmids trapped inside Cohesin rings (we call them catenated diners CDs). Every mutation that we know affects cohesion of chromosomes also affects CDs. That is the limit of concrete evidence.
July 16, 2025 at 12:50 PM
Very spicy question indeed! All we can say are the following: we can detect sisterDNAs of 2.3 kb plasmids trapped inside Cohesin rings (we call them catenated diners CDs). Every mutation that we know affects cohesion of chromosomes also affects CDs. That is the limit of concrete evidence.
Many congratulations Matt!
July 1, 2025 at 7:15 PM
Many congratulations Matt!
Is that sarcasm?
May 7, 2025 at 9:04 PM
Is that sarcasm?
Reposted by DNA Topology Lab
Fantastic teamwork with @drhonsworth.bsky.social, @taschner.bsky.social, in the @gruberlab.bsky.social with James at @dnatopologylab.bsky.social
March 18, 2025 at 8:15 AM
Fantastic teamwork with @drhonsworth.bsky.social, @taschner.bsky.social, in the @gruberlab.bsky.social with James at @dnatopologylab.bsky.social
Reposted by DNA Topology Lab
We are following up on one of these features in our next paper. Stay tuned! www.biorxiv.org/content/10.1...
Structure of a Type II SMC Wadjet Complex from Neobacillus vireti
Structural Maintenance of Chromosomes proteins are essential DNA-folding motors that facilitate critical cellular functions, including chromosome segregation and DNA repair. Wadjet systems are prokaryotic SMC complexes specialized in cellular immunity against plasmids. Type I Wadjet systems restrict plasmids via a DNA extrusion-cleavage reaction. Two other Wadjet types (II and III) have also been identified, however, their molecular characteristics are unclear. Here, we reconstituted a representative type II Wadjet system from Neobacillus vireti. We show that this system shares substrate selection and cleavage properties with type I but exhibits distinctive structural features, including a long elbow-distal coiled coil, a channel-less hinge, and a tandem KITE subunit. These features help identify the common and distinguishing architectural elements in the family of Wadjet systems and raise intriguing questions about the evolution of prokaryotic SMC complexes. ### Competing Interest Statement The authors have declared no competing interest.
www.biorxiv.org
March 11, 2025 at 9:22 AM
We are following up on one of these features in our next paper. Stay tuned! www.biorxiv.org/content/10.1...