The SpoVA membrane complex is required for dipicolinic acid import during sporulation and export during germination

In response to starvation, endospore-forming bacteria differentiate into stress-resistant spores that can remain dormant for years yet rapidly germinate and resume growth in response to nutrients. The small molecule dipicolinic acid (DPA) plays a central role in both the stress resistance of the dor...

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Autores principales: Gao, Yongqiang, Barajas-Ornelas, Rocio Del Carmen, Amon, Jeremy D., Ramírez-Guadiana, Fernando H., Alon, Assaf, Brock, Kelly P., Marks, Debora S., Kruse, Andrew C., Rudner, David Z.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cold Spring Harbor Laboratory Press 2022
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9186386/
https://www.ncbi.nlm.nih.gov/pubmed/35654455
http://dx.doi.org/10.1101/gad.349488.122
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author Gao, Yongqiang
Barajas-Ornelas, Rocio Del Carmen
Amon, Jeremy D.
Ramírez-Guadiana, Fernando H.
Alon, Assaf
Brock, Kelly P.
Marks, Debora S.
Kruse, Andrew C.
Rudner, David Z.
author_facet Gao, Yongqiang
Barajas-Ornelas, Rocio Del Carmen
Amon, Jeremy D.
Ramírez-Guadiana, Fernando H.
Alon, Assaf
Brock, Kelly P.
Marks, Debora S.
Kruse, Andrew C.
Rudner, David Z.
author_sort Gao, Yongqiang
collection PubMed
description In response to starvation, endospore-forming bacteria differentiate into stress-resistant spores that can remain dormant for years yet rapidly germinate and resume growth in response to nutrients. The small molecule dipicolinic acid (DPA) plays a central role in both the stress resistance of the dormant spore and its exit from dormancy during germination. The spoVA locus is required for DPA import during sporulation and has been implicated in its export during germination, but the molecular bases are unclear. Here, we define the minimal set of proteins encoded in the Bacillus subtilis spoVA operon required for DPA import and demonstrate that these proteins form a membrane complex. Structural modeling of these components combined with mutagenesis and in vivo analysis reveal that the C and Eb subunits form a membrane channel, while the D subunit functions as a cytoplasmic plug. We show that point mutations that impair the interactions between D and the C–Eb membrane complex reduce the efficiency of DPA import during sporulation and reciprocally accelerate DPA release during germination. Our data support a model in which DPA transport into spores involves cycles of unplugging and then replugging the C–Eb membrane channel, while nutrient detection during germination triggers DPA release by unplugging it.
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spelling pubmed-91863862022-11-01 The SpoVA membrane complex is required for dipicolinic acid import during sporulation and export during germination Gao, Yongqiang Barajas-Ornelas, Rocio Del Carmen Amon, Jeremy D. Ramírez-Guadiana, Fernando H. Alon, Assaf Brock, Kelly P. Marks, Debora S. Kruse, Andrew C. Rudner, David Z. Genes Dev Research Paper In response to starvation, endospore-forming bacteria differentiate into stress-resistant spores that can remain dormant for years yet rapidly germinate and resume growth in response to nutrients. The small molecule dipicolinic acid (DPA) plays a central role in both the stress resistance of the dormant spore and its exit from dormancy during germination. The spoVA locus is required for DPA import during sporulation and has been implicated in its export during germination, but the molecular bases are unclear. Here, we define the minimal set of proteins encoded in the Bacillus subtilis spoVA operon required for DPA import and demonstrate that these proteins form a membrane complex. Structural modeling of these components combined with mutagenesis and in vivo analysis reveal that the C and Eb subunits form a membrane channel, while the D subunit functions as a cytoplasmic plug. We show that point mutations that impair the interactions between D and the C–Eb membrane complex reduce the efficiency of DPA import during sporulation and reciprocally accelerate DPA release during germination. Our data support a model in which DPA transport into spores involves cycles of unplugging and then replugging the C–Eb membrane channel, while nutrient detection during germination triggers DPA release by unplugging it. Cold Spring Harbor Laboratory Press 2022-05-01 /pmc/articles/PMC9186386/ /pubmed/35654455 http://dx.doi.org/10.1101/gad.349488.122 Text en © 2022 Gao et al.; Published by Cold Spring Harbor Laboratory Press https://creativecommons.org/licenses/by-nc/4.0/This article is distributed exclusively by Cold Spring Harbor Laboratory Press for the first six months after the full-issue publication date (see http://genesdev.cshlp.org/site/misc/terms.xhtml). After six months, it is available under a Creative Commons License (Attribution-NonCommercial 4.0 International), as described at http://creativecommons.org/licenses/by-nc/4.0/ (https://creativecommons.org/licenses/by-nc/4.0/) .
spellingShingle Research Paper
Gao, Yongqiang
Barajas-Ornelas, Rocio Del Carmen
Amon, Jeremy D.
Ramírez-Guadiana, Fernando H.
Alon, Assaf
Brock, Kelly P.
Marks, Debora S.
Kruse, Andrew C.
Rudner, David Z.
The SpoVA membrane complex is required for dipicolinic acid import during sporulation and export during germination
title The SpoVA membrane complex is required for dipicolinic acid import during sporulation and export during germination
title_full The SpoVA membrane complex is required for dipicolinic acid import during sporulation and export during germination
title_fullStr The SpoVA membrane complex is required for dipicolinic acid import during sporulation and export during germination
title_full_unstemmed The SpoVA membrane complex is required for dipicolinic acid import during sporulation and export during germination
title_short The SpoVA membrane complex is required for dipicolinic acid import during sporulation and export during germination
title_sort spova membrane complex is required for dipicolinic acid import during sporulation and export during germination
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9186386/
https://www.ncbi.nlm.nih.gov/pubmed/35654455
http://dx.doi.org/10.1101/gad.349488.122
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