Solution Characterization and Initial Crystallization Studies of TrbB from the F Plasmi
Maya Soko, Gerald Audette

TL;DR
This study investigates TrbB, a protein involved in bacterial conjugation, to better understand its structure and role in spreading antibiotic resistance.
Contribution
The study presents SEC-MALS-SAXS data and initial crystallization trials for a truncated TrbB construct.
Findings
SAXS data shows TrbB exists as monomer, dimer, and tetramer in solution.
Crystallization trials identified promising leads for structural studies.
TrbB's role in F-pilus assembly may inform strategies to combat antibiotic resistance.
Abstract
Secretion systems, found across gram-negative and gram-positive bacteria, are large multi-protein complexes responsible for the transport of genetic material and proteins across phospholipid membranes, with dedicated systems in place for the secretion of virulence factors into host cells or the environment. One such pathway can be found in Gram-negative bacteria bearing conjugative F-like plasmids is known as the Type IV Secretion System (T4SSF). This system comprises multiple proteins responsible for cell proliferation, transport of virulence factors and antibiotic resistance genes through bacterial conjugation. Bacterial conjugation involves the assembly of a transmembrane conjugative pili for Gram negative bacteria bearing F-like plasmids, that is responsible for plasmid DNA transfer. TrbB is a periplasmic protein encoded by the F- plasmid transfer region (tra), with disulfide…
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Taxonomy
TopicsBacterial Genetics and Biotechnology · Escherichia coli research studies · Yersinia bacterium, plague, ectoparasites research
