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The cell cycle regulator GpsB functions as cytosolic adaptor for multiple cell wall enzymes
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Abstract
Bacterial growth and cell division requires precise spatiotemporal regulation of the synthesis and remodelling of the peptidoglycan layer that surrounds the cytoplasmic membrane. GpsB is a cytosolic protein that affects cell wall synthesis by binding cytoplasmic mini-domains of peptidoglycan synthases to ensure their correct subcellular localisation. Here, we describe critical structural features for the interaction of GpsB with peptidoglycan synthases from three bacterial species (
Bacillus subtilis
,
Listeria monocytogenes
and
Streptococcus pneumoniae
) and suggest their importance for cell wall growth and viability in
L. monocytogenes
and
S. pneumoniae
. We use these structural motifs to identify novel partners of GpsB in
B. subtilis
and extend the members of the GpsB interactome in all three bacterial species. Our results support that GpsB functions as an adaptor protein that mediates the interaction between membrane proteins, scaffolding proteins, signalling proteins and enzymes to generate larger protein complexes at specific sites in a bacterial cell cycle-dependent manner.
Springer Science and Business Media LLC
Title: The cell cycle regulator GpsB functions as cytosolic adaptor for multiple cell wall enzymes
Description:
Abstract
Bacterial growth and cell division requires precise spatiotemporal regulation of the synthesis and remodelling of the peptidoglycan layer that surrounds the cytoplasmic membrane.
GpsB is a cytosolic protein that affects cell wall synthesis by binding cytoplasmic mini-domains of peptidoglycan synthases to ensure their correct subcellular localisation.
Here, we describe critical structural features for the interaction of GpsB with peptidoglycan synthases from three bacterial species (
Bacillus subtilis
,
Listeria monocytogenes
and
Streptococcus pneumoniae
) and suggest their importance for cell wall growth and viability in
L.
monocytogenes
and
S.
pneumoniae
.
We use these structural motifs to identify novel partners of GpsB in
B.
subtilis
and extend the members of the GpsB interactome in all three bacterial species.
Our results support that GpsB functions as an adaptor protein that mediates the interaction between membrane proteins, scaffolding proteins, signalling proteins and enzymes to generate larger protein complexes at specific sites in a bacterial cell cycle-dependent manner.
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The cell cycle regulator GpsB functions as cytosolic adaptor for multiple cell wall enzymes
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