肽聚糖
细菌外膜
周质间隙
脑膜炎奈瑟菌
生物
生物化学
重组DNA
微生物学
细菌
大肠杆菌
细胞壁
基因
遗传学
作者
Sunil Maharjan,Muhammad Saleem,Ian M. Feavers,Jun X. Wheeler,Rory Care,Jeremy P. Derrick
出处
期刊:Microbiology
[Microbiology Society]
日期:2015-12-17
卷期号:162 (2): 364-375
被引量:26
摘要
RmpM is a periplasmic protein from Neisseria meningitidis that comprises an N-terminal domain (residues 1-47) and a separate globular C-terminal domain (residues 65-219) responsible for binding to peptidoglycan. Here we show, through the use of size exclusion chromatography and pull-down assays, that a recombinant N-terminal fragment of RmpM binds to both the major outer membrane porins, PorA and PorB. Analysis by semi-native SDS-PAGE established that both recombinant full-length RmpM and an N-terminal fragment, but not the C-terminal peptidoglycan-binding domain, were sufficient to stabilize the PorA and PorB oligomeric complexes. Evidence from binding assays indicated that the meso-diaminopimelate moiety plays an important role in peptidoglycan recognition by RmpM. Site-directed mutagenesis showed that two highly conserved residues, Asp120 and Arg135, play an important role in peptidoglycan binding. The yield of outer membrane vesicles, which have been used extensively as a vaccine against N. meningitidis, was considerably higher in an N. meningitidis strain expressing a truncated N-terminal fragment of RmpM (ΔC-term rmpM) than in the WT strain. The native oligomeric state of the PorA/PorB complexes was maintained in this strain. We conclude that the dual functions of RmpM are independent, and that it is possible to use this knowledge to engineer a strain with higher yield of outer membrane vesicles, whilst preserving PorA and PorB, which are key protective antigens, in their native oligomeric state.
科研通智能强力驱动
Strongly Powered by AbleSci AI