Organization of peptidoglycan synthesis in nodes and separate rings at different stages of cell division of Streptococcus pneumoniae

Autor:	Kevin E. Bruce, Atsushi Taguchi, Michael S. VanNieuwenhze, Michael J. Boersma, Malcolm E. Winkler, Ho-Ching Tiffany Tsui, Melissa M. Lamanna, Erin E. Carlson, Sidney L. Shaw, Amilcar J. Perez
Rok vydání:	2020
Předmět:	Cell division Mutant Cell Cycle Proteins Peptidoglycan Biology medicine.disease_cause Ring (chemistry) Microbiology Article 03 medical and health sciences chemistry.chemical_compound Bacterial Proteins Streptococcus pneumoniae medicine Penicillin-Binding Proteins FtsZ Molecular Biology Fluorescent Dyes 030304 developmental biology 0303 health sciences 030306 microbiology Peptidoglycan synthesis Aminoacyltransferases biology.organism_classification Cell biology chemistry Peptidyl Transferases biology.protein NODAL Cell Division Bacteria
Zdroj:	Mol Microbiol
ISSN:	1365-2958 0950-382X
DOI:	10.1111/mmi.14659
Popis:	Bacterial peptidoglycan (PG) synthesis requires strict spatial and temporal organization to reproduce specific cell shapes. In the ovoid-shaped, pathogenic bacterium Streptococcus pneumoniae (Spn), septal and peripheral (sidewall-like) PG synthesis occur simultaneously at midcell. To uncover the organization of proteins and activities that carry out these two modes of PG synthesis, we examined Spn cells vertically oriented onto their poles to image the division plane at the high lateral resolution of 3D-SIM (structured-illumination microscopy). Using fluorescent D-amino acid (FDAA) probes, we show that areas of new transpeptidase (TP) activity catalyzed by penicillin-binding proteins (PBPs) separate into a pair of concentric rings early in division, representing peripheral PG (pPG) synthesis (outer ring) and the leading-edge (inner ring) of septal PG (sPG) synthesis. Fluorescently tagged PBP2x or FtsZ locate primarily to the inner FDAA-marked ring, whereas PBP2b and FtsX remain in the outer ring, suggesting roles in sPG or pPG synthesis, respectively. Short pulses of FDAA labeling revealed an arrangement of separate regularly spaced “nodes” of TP activity around the division site of predivisional cells. Control experiments in wild-type and mutant strains support the interpretation of nodal spacing of TP activity, and statistical analysis confirmed that the number of nodes correlates with different ring diameters. This nodal pattern of FDAA labeling is conserved in other ovoid-shaped species. Tagged PBP2x, PBP2b, and FtsX proteins also exhibited nodal patterns with spacing comparable to that of FDAA labeling. Together, these results reveal a highly ordered PG synthesis apparatus in ovococcal bacteria at different stages of division.SIGNIFICANCEThe spatial organization of PBPs and their TP activity at division septa is not well understood. In some bacteria, TP activity and PBP localization seem to be nodal (also called punctate), whereas in other bacteria, discrete foci of PBP activity are infrequently or not observed. Here we report two basic properties of the organization of PBPs and TP activity in the ovoid-shaped bacterium Spn. First, there is distinct spatial separation of the sPG machine, including FtsZ, from the pPG synthesis machine at the midcell of dividing Spn cells. Second, in predivisional cells, PBPs and TP activity are organized heterogeneously into regularly spaced nodes, whose number and dynamic distribution are likely driven by the PG synthesis of PBP:SEDS complexes.
Databáze:	OpenAIRE
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