Relationship between the Rod complex and peptidoglycan structure in Escherichia coli

Peptidoglycan for elongation in Escherichia coli is synthesized by the Rod complex, which includes RodZ. Although various mutant strains of the Rod complex have been isolated, the relationship between the activity of the Rod complex and the overall physical and chemical structures of the peptidoglyc...

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Bibliographic Details
Published in:MicrobiologyOpen (Weinheim) 2023-10, Vol.12 (5), p.e1385-n/a
Main Authors: Ago, Risa, Tahara, Yuhei O., Yamaguchi, Honoka, Saito, Motoya, Ito, Wakana, Yamasaki, Kaito, Kasai, Taishi, Okamoto, Sho, Chikada, Taiki, Oshima, Taku, Osaka, Issey, Miyata, Makoto, Niki, Hironori, Shiomi, Daisuke
Format: Article
Language:English
Subjects:
Cell division
cell shape
Cell Wall
Cell walls
Cytology
Cytoskeletal Proteins - genetics
E coli
Elongated structure
Escherichia coli
Escherichia coli - genetics
Escherichia coli Proteins - genetics
Genetic suppression
Localization
Mechanical properties
Microscopy
Morphology
Mutation
Original
Peptidoglycan
Peptidoglycans
Physical characteristics
Proteins
Rod complex
Suppressor mutant
suppressor mutation
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Summary:Peptidoglycan for elongation in Escherichia coli is synthesized by the Rod complex, which includes RodZ. Although various mutant strains of the Rod complex have been isolated, the relationship between the activity of the Rod complex and the overall physical and chemical structures of the peptidoglycan have not been reported. We constructed a RodZ mutant, termed RMR, and analyzed the growth rate, morphology, and other characteristics of cells producing the Rod complexes containing RMR. The growth and morphology of RMR cells were abnormal, and we isolated suppressor mutants from RMR cells. Most of the suppressor mutations were found in components of the Rod complex, suggesting that these suppressor mutations increase the integrity and/or the activity of the Rod complex. We purified peptidoglycan from wild‐type, RMR, and suppressor mutant cells and observed their structures in detail. We found that the peptidoglycan purified from RMR cells had many large holes and different compositions of muropeptides from those of WT cells. The Rod complex may be a determinant not only for the whole shape of peptidoglycan but also for its highly dense structure to support the mechanical strength of the cell wall. The structures of the peptidoglycan of the wild‐type strain, the mutant strain of the Rod complex, and its suppressor mutant strains were observed. The peptidoglycan purified from the Rod complex mutant had many large holes, whereas the number and size of holes were reduced in the suppressor mutants. We visualized the relationship between the Rod complex activity and the peptidoglycan structure.
ISSN:2045-8827
2045-8827
DOI:10.1002/mbo3.1385