Competitive binding of MatP and topoisomerase IV to the MukB hinge domain

Structural Maintenance of Chromosomes (SMC) complexes have ubiquitous roles in compacting DNA linearly, thereby promoting chromosome organization-segregation. Interaction between theEscherichia coli SMC complex, MukBEF, andmatS-bound MatP in the chromosome replication termination region,ter, results in depletion of MukBEF fromter, a process essential for efficient daughter chromosome individualisation and for preferential association of MukBEF with the replication origin region. Chromosome-associated MukBEF complexes also interact with topoisomerase IV (ParC2E2), so that their chromosome distribution mirrors that of MukBEF. We demonstrate that MatP and ParC have an overlapping binding interface on the MukB hinge, leading to their mutually exclusive binding, which occurs with the same dimer to dimer stoichiometry. Furthermore, we show thatmatS DNA competes with the MukB hinge for MatP binding. Cells expressing MukBEF complexes that are mutated at the ParC/MatP binding interface are impaired in ParC binding and have a mild defect in MukBEF function. The data highlight competitive binding as a means of globally regulating MukBEF-topoisomerase IV activity in space and time.
Source: eLife - Category: Biomedical Science Tags: Biochemistry and Chemical Biology Chromosomes and Gene Expression Source Type: research