A LysM domain intervenes in sequential protein-protein and protein-peptidoglycan interactions important for spore coat assembly in Bacillus subtilis
A LysM domain intervenes in sequential protein-protein and protein-peptidoglycan interactions important for spore coat assembly in Bacillus subtilis
At a late stage in spore development in Bacillus subtilis, the mother cell directs synthesis of a layer of peptidoglycan known as the cortex between the two forespore membranes, as well as the assembly of a protective protein coat at the surface of the forespore outer membrane. SafA, the key determinant of inner coat assembly, is first recruited to the surface of the developing spore and then encases the spore under the control of the morphogenetic protein SpoVID. SafA has a LysM peptidoglycan-binding domain, SafALysM, and localizes to the cortex-coat interface in mature spores. SafALysM is followed by a region, A, required for an interaction with SpoVID and encasement. We now show that residues D10 and N30 in SafALysM, while involved in the interaction with peptidoglycan, are also required for the interaction with SpoVID and encasement. We further show that single alanine substitutions on residues S11, L12, and I39 of SafALysM that strongly impair binding to purified cortex peptidoglycan affect a later stage in the localization of SafA that is also dependent on the activity of SpoVE, a transglycosylase required for cortex formation. The assembly of SafA thus involves sequential protein-protein and protein-peptidoglycan interactions, mediated by the LysM domain, which are required first for encasement then for the final localization of the protein in mature spores.IMPORTANCE Bacillus subtilis spores are encased in a multiprotein coat that surrounds an underlying peptidoglycan layer, the cortex. How the connection between the two layers is enforced is not well established. Here, we elucidate the role of the peptidoglycan-binding LysM domain, present in two proteins, SafA and SpoVID, that govern the localization of additional proteins to the coat. We found that SafALysM is a protein-protein interaction module during the early stages of coat assembly and a cortex-binding module at late stages in morphogenesis, with the cortex-binding function promoting a tight connection between the cortex and the coat. In contrast, SpoVIDLysM functions only as a protein-protein interaction domain that targets SpoVID to the spore surface at the onset of coat assembly.
Bacillus subtilis/enzymology, Bacterial Proteins/genetics, DNA Mutational Analysis, Membrane Proteins/metabolism, Mutagenesis, Site-Directed, Peptidoglycan/metabolism, Protein Binding, Protein Domains, Protein Interaction Mapping, Protein Transport, Spores, Bacterial/enzymology
Pereira, Fatima C
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Nunes, Filipa
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Cruz, Fernando
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Fernandes, Catarina
bb28f26a-0d23-48f4-97cd-f5ec7624fec0
Isidro, Anabela L
d26c9e93-5ba5-4a59-9d06-653730be4b59
Lousa, Diana
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Soares, Cláudio M
eced7465-ffc0-4730-9996-57797e55ec53
Moran, Charles P
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Henriques, Adriano O
eb4668e6-bfb0-4df3-bf8e-93dbd1cc5b2d
Serrano, Mónica
131f2fee-4325-486b-aeee-6a9be8c00ed6
15 February 2019
Pereira, Fatima C
a9396948-26f9-4f13-8f83-a22fec1dd0e0
Nunes, Filipa
e430c98f-b44e-4c53-9b53-d94845653f6b
Cruz, Fernando
f1f75a6d-cd55-4ec4-a191-682d8c137fe2
Fernandes, Catarina
bb28f26a-0d23-48f4-97cd-f5ec7624fec0
Isidro, Anabela L
d26c9e93-5ba5-4a59-9d06-653730be4b59
Lousa, Diana
0df68837-d183-4e75-830e-2eda9e8c1225
Soares, Cláudio M
eced7465-ffc0-4730-9996-57797e55ec53
Moran, Charles P
12a20d59-9a55-48a6-af9e-ae766096f048
Henriques, Adriano O
eb4668e6-bfb0-4df3-bf8e-93dbd1cc5b2d
Serrano, Mónica
131f2fee-4325-486b-aeee-6a9be8c00ed6
Pereira, Fatima C, Nunes, Filipa, Cruz, Fernando, Fernandes, Catarina, Isidro, Anabela L, Lousa, Diana, Soares, Cláudio M, Moran, Charles P, Henriques, Adriano O and Serrano, Mónica
(2019)
A LysM domain intervenes in sequential protein-protein and protein-peptidoglycan interactions important for spore coat assembly in Bacillus subtilis.
Journal of Bacteriology, 201 (4), [e00642].
(doi:10.1128/jb.00642-18).
Abstract
At a late stage in spore development in Bacillus subtilis, the mother cell directs synthesis of a layer of peptidoglycan known as the cortex between the two forespore membranes, as well as the assembly of a protective protein coat at the surface of the forespore outer membrane. SafA, the key determinant of inner coat assembly, is first recruited to the surface of the developing spore and then encases the spore under the control of the morphogenetic protein SpoVID. SafA has a LysM peptidoglycan-binding domain, SafALysM, and localizes to the cortex-coat interface in mature spores. SafALysM is followed by a region, A, required for an interaction with SpoVID and encasement. We now show that residues D10 and N30 in SafALysM, while involved in the interaction with peptidoglycan, are also required for the interaction with SpoVID and encasement. We further show that single alanine substitutions on residues S11, L12, and I39 of SafALysM that strongly impair binding to purified cortex peptidoglycan affect a later stage in the localization of SafA that is also dependent on the activity of SpoVE, a transglycosylase required for cortex formation. The assembly of SafA thus involves sequential protein-protein and protein-peptidoglycan interactions, mediated by the LysM domain, which are required first for encasement then for the final localization of the protein in mature spores.IMPORTANCE Bacillus subtilis spores are encased in a multiprotein coat that surrounds an underlying peptidoglycan layer, the cortex. How the connection between the two layers is enforced is not well established. Here, we elucidate the role of the peptidoglycan-binding LysM domain, present in two proteins, SafA and SpoVID, that govern the localization of additional proteins to the coat. We found that SafALysM is a protein-protein interaction module during the early stages of coat assembly and a cortex-binding module at late stages in morphogenesis, with the cortex-binding function promoting a tight connection between the cortex and the coat. In contrast, SpoVIDLysM functions only as a protein-protein interaction domain that targets SpoVID to the spore surface at the onset of coat assembly.
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More information
Accepted/In Press date: 15 November 2018
e-pub ahead of print date: 28 January 2019
Published date: 15 February 2019
Additional Information:
Copyright © 2019 American Society for Microbiology.
Keywords:
Bacillus subtilis/enzymology, Bacterial Proteins/genetics, DNA Mutational Analysis, Membrane Proteins/metabolism, Mutagenesis, Site-Directed, Peptidoglycan/metabolism, Protein Binding, Protein Domains, Protein Interaction Mapping, Protein Transport, Spores, Bacterial/enzymology
Identifiers
Local EPrints ID: 470647
URI: http://eprints.soton.ac.uk/id/eprint/470647
ISSN: 0021-9193
PURE UUID: 4b0b3521-2f22-4e2e-be80-ebadb4a31910
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Date deposited: 17 Oct 2022 16:41
Last modified: 17 Mar 2024 04:14
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Contributors
Author:
Fatima C Pereira
Author:
Filipa Nunes
Author:
Fernando Cruz
Author:
Catarina Fernandes
Author:
Anabela L Isidro
Author:
Diana Lousa
Author:
Cláudio M Soares
Author:
Charles P Moran
Author:
Adriano O Henriques
Author:
Mónica Serrano
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