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33 results on '"Islam, Salim T."'

1. Modulation of bacterial multicellularity via spatio-specific polysaccharide secretion

Author

Islam, Salim T, Alvarez, Israel Vergara, Saïdi, Fares, Giuseppi, Annick, Vinogradov, Evgeny, Sharma, Gaurav, Espinosa, Leon, Morrone, Castrese, Brasseur, Gael, Guillemot, Jean-François, Benarouche, Anaïs, Bridot, Jean-Luc, Ravicoularamin, Gokulakrishnan, Cagna, Alain, Gauthier, Charles, Singer, Mitchell, Fierobe, Henri-Pierre, Mignot, Tâm, and Mauriello, Emilia MF

Subjects
Acetylation, Biosynthetic Pathways, Carbon-13 Magnetic Resonance Spectroscopy, Cell Membrane, Multigene Family, Myxococcus xanthus, Polysaccharides, Bacterial, Proton Magnetic Resonance Spectroscopy, Surface-Active Agents, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences, Developmental Biology
Abstract

The development of multicellularity is a key evolutionary transition allowing for differentiation of physiological functions across a cell population that confers survival benefits; among unicellular bacteria, this can lead to complex developmental behaviors and the formation of higher-order community structures. Herein, we demonstrate that in the social δ-proteobacterium Myxococcus xanthus, the secretion of a novel biosurfactant polysaccharide (BPS) is spatially modulated within communities, mediating swarm migration as well as the formation of multicellular swarm biofilms and fruiting bodies. BPS is a type IV pilus (T4P)-inhibited acidic polymer built of randomly acetylated β-linked tetrasaccharide repeats. Both BPS and exopolysaccharide (EPS) are produced by dedicated Wzx/Wzy-dependent polysaccharide-assembly pathways distinct from that responsible for spore-coat assembly. While EPS is preferentially produced at the lower-density swarm periphery, BPS production is favored in the higher-density swarm interior; this is consistent with the former being known to stimulate T4P retraction needed for community expansion and a function for the latter in promoting initial cell dispersal. Together, these data reveal the central role of secreted polysaccharides in the intricate behaviors coordinating bacterial multicellularity.

Published
2020

4. Unmasking of the von Willebrand A-domain surface adhesin CglB at bacterial focal adhesions mediates myxobacterial gliding motility

Author

Islam, Salim T., primary, Jolivet, Nicolas Y., additional, Cuzin, Clémence, additional, Belgrave, Akeisha M., additional, My, Laetitia, additional, Fleuchot, Betty, additional, Faure, Laura M., additional, Mahanta, Utkarsha, additional, Kezzo, Ahmad A., additional, Saïdi, Fares, additional, Sharma, Gaurav, additional, Fiche, Jean-Bernard, additional, Bratton, Benjamin P., additional, Herrou, Julien, additional, Nollmann, Marcelo, additional, Shaevitz, Joshua W., additional, Durand, Eric, additional, and Mignot, Tâm, additional

Published
2023
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5. Bacterial Outer Membrane Polysaccharide Export (OPX) Proteins Occupy Three Structural Classes with Selective β-Barrel Porin Requirements for Polymer Secretion

Author

Saïdi, Fares, primary, Mahanta, Utkarsha, additional, Panda, Adyasha, additional, Kezzo, Ahmad A., additional, Jolivet, Nicolas Y., additional, Bitazar, Razieh, additional, John, Gavin, additional, Martinez, Matthew, additional, Mellouk, Abdelkader, additional, Calmettes, Charles, additional, Chang, Yi-Wei, additional, Sharma, Gaurav, additional, and Islam, Salim T., additional

Published
2022
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6. Reply to Oren et al., “New Phylum Names Harmonize Prokaryotic Nomenclature”

Author

Sharma, Gaurav, primary, Islam, Salim T., additional, Rahi, Praveen, additional, Silby, Mark W., additional, Giovannelli, Donato, additional, Welander, Paula V., additional, Ehling-Schulz, Monika, additional, Chaudhry, Vasvi, additional, Molloy, Evelyn, additional, Hertweck, Christian, additional, Mundra, Sunil, additional, Kalia, Vipin Chandra, additional, Lal, Rup, additional, Singh, Yogendra, additional, Ruby, Edward, additional, Weigel, Christoph, additional, and Kolter, Roberto, additional

Published
2022
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7. Evaluation of Azido 3-Deoxy-d-manno-oct-2-ulosonic Acid (Kdo) Analogues for Click Chemistry-Mediated Metabolic Labeling of Myxococcus xanthus DZ2 Lipopolysaccharide

Author

Saïdi, Fares, primary, Gamboa Marin, Oscar Javier, additional, Veytia-Bucheli, José Ignacio, additional, Vinogradov, Evgeny, additional, Ravicoularamin, Gokulakrishnan, additional, Jolivet, Nicolas Y., additional, Kezzo, Ahmad A., additional, Ramirez Esquivel, Eric, additional, Panda, Adyasha, additional, Sharma, Gaurav, additional, Vincent, Stéphane P., additional, Gauthier, Charles, additional, and Islam, Salim T., additional

Published
2022
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15. CglB adhesins secreted at bacterial focal adhesions mediate gliding motility

Author

Islam, Salim T., primary, My, Laetitia, additional, Jolivet, Nicolas Y., additional, Belgrave, Akeisha M., additional, Fleuchot, Betty, additional, Brasseur, Gael, additional, Faure, Laura M., additional, Sharma, Gaurav, additional, Lemon, David J., additional, Saïdi, Fares, additional, Fiche, Jean-Bernard, additional, Bratton, Benjamin P., additional, Singer, Mitchell, additional, Garza, Anthony G., additional, Nollmann, Marcelo, additional, Shaevitz, Joshua W., additional, and Mignot, Tâm, additional

Published
2020
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16. Modulation of bacterial multicellularity via spatiotemporal polysaccharide secretion

Author

Islam, Salim T., primary, Alvarez, Israel Vergara, additional, Saïdi, Fares, additional, Giuseppi, Annick, additional, Vinogradov, Evgeny, additional, Morrone, Castrese, additional, Brasseur, Gael, additional, Sharma, Gaurav, additional, Benarouche, Anaïs, additional, Bridot, Jean-Luc, additional, Ravicoularamin, Gokulakrishnan, additional, Cagna, Alain, additional, Gauthier, Charles, additional, Singer, Mitchell, additional, Fierobe, Henri-Pierre, additional, Mignot, Tâm, additional, and Mauriello, Emilia M. F., additional

Published
2020
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18. Integrin-Like Tethering of Motility Complexes at Bacterial Focal Adhesions

Author

Islam, Salim T., primary, Belgrave, Akeisha M., additional, Fleuchot, Betty, additional, Jolivet, Nicolas Y., additional, My, Laetitia, additional, Faure, Laura M., additional, Sharma, Gaurav, additional, Lemon, David J., additional, Fiche, Jean-Bernard, additional, Bratton, Benjamin T., additional, Singer, Mitchell, additional, Garza, Anthony G., additional, NNllmannn, Marcelo, additional, Shaevitz, Joshua W., additional, and Mignot, TTm, additional

Published
2018
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19. The mechanism of force transmission at bacterial focal adhesion complexes

Author

Faure, Laura M., primary, Fiche, Jean-Bernard, additional, Espinosa, Leon, additional, Ducret, Adrien, additional, Anantharaman, Vivek, additional, Luciano, Jennifer, additional, Lhospice, Sébastien, additional, Islam, Salim T., additional, Tréguier, Julie, additional, Sotes, Mélanie, additional, Kuru, Erkin, additional, Van Nieuwenhze, Michael S., additional, Brun, Yves V., additional, Théodoly, Olivier, additional, Aravind, L., additional, Nollmann, Marcelo, additional, and Mignot, Tâm, additional

Published
2016
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30. Synthesis of bacterial polysaccharides via the Wzx/Wzy-dependent pathway1.

Author

Islam, Salim T. and Lam, Joseph S.

Subjects
*POLYSACCHARIDE synthesis, *MICROBIOLOGICAL synthesis, *BACTERIAL cell surfaces, *CELL communication, *GRAM-negative bacteria, *GLYCANS
Abstract

The surfaces of bacteria mediate a multitude of functions in the environment and in an infected host, including adhesion to both biotic and abiotic substrata, motility, immune system interaction and (or) activation, biofilm formation, and cell-cell communication, with many of these features directly influenced by cell-surface glycans. In both Gram-negative and Gram-positive bacteria, the majority of cell-surface polysaccharides are produced via the Wzx/Wzy-dependent assembly pathway; these glycans include heteropolymeric O-antigen, enterobacterial common antigen, exopolysaccharide, spore coat, and capsule in diverse bacteria. The key components of this assembly pathway are the integral inner membrane Wzx flippase, Wzy polymerase, and Wzz chain-length regulator proteins, which until recently have resisted detailed structural and functional characterization. In this review, we have provided a comprehensive synthesis of the latest structural and mechanistic data for each protein, as well as an examination of substrate specificity for each assembly step and complex formation between the constituent proteins. To complement the unprecedented explosion of genomic-sequencing data for bacteria, we have also highlighted both classical and state-of-the-art methods by which encoded Wzx, Wzy, and Wzz proteins can be reliably identified and annotated, using the model Gram-negative bacterium Pseudomonas aeruginosa as an example data set. Lastly, we outline future avenues of research, with the aim of stimulating researchers to take the next steps in investigating the function of, and interplay between, the constituents of this widespread assembly scheme. [ABSTRACT FROM AUTHOR]

Published
2014
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31. Synthesis of bacterial polysaccharides via the Wzx/Wzy-dependent pathway1.

Author

Islam, Salim T. and Lam, Joseph S.

Subjects
POLYSACCHARIDE synthesis, MICROBIOLOGICAL synthesis, BACTERIAL cell surfaces, CELL communication, GRAM-negative bacteria, GLYCANS
Abstract

Copyright of Canadian Journal of Microbiology is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2014
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32. Identification of the lipooligosaccharide biosynthetic gene cluster from Mycobacterium marinum.

Author

Huiping Ren, Dover, Lynn G., Islam, Salim T., Alexander, David C., Chen, Jeffrey M., Besra, Gurdyal S., and Jun Liu

Subjects
GLYCOLIPIDS, MYCOBACTERIUM, TUBERCULOSIS, MORPHOLOGY, CELLS, DEHYDROGENASES
Abstract

Lipooligosaccharides (LOSs) are antigenic glycolipids that are present in some species of Mycobacterium including the Canetti strain of M. tuberculosis. The core LOS structures from several mycobacterial organisms have been established, but the biosynthetic pathways of LOSs remain unknown. In this study, we describe two transposon insertion mutants of M. marinum that exhibit altered colony morphology. Cell wall analysis reveals that the MRS1271 mutant is defective in the synthesis of LOS-II, whereas the MRS1178 mutant accumulates an intermediate between LOS-I and -II. The genetic lesions were localized to two genes, MM2309 and MM2332. MM2309 encodes a UDP-glucose dehydrogenase that is involved in the synthesis ofd-xylose. MM2332 is predicted to encode a decarboxylase. These two genes and a previously identified losA gene are localized in a gene cluster likely to be involved in the biosynthesis of LOSs. Our results also show that LOSs play an important role in sliding motility, biofilm formation, and infection of host macrophages. Taken together, our studies have identified, for the first time, a LOS biosynthetic locus. This is an important step in assessing the differential distribution of LOSs among Mycobacterium species and understanding the role of LOSs in mycobacterial virulence. [ABSTRACT FROM AUTHOR]

Published
2007
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33. Membrane Topology Mapping of the O-Antigen Flippase (Wzx), Polymerase (Wzy), and Ligase (WaaL) from Pseudomonas aeruginosaPAO1 Reveals Novel Domain Architectures

Author

Islam, Salim T., Taylor, Véronique L., Qi, Meng, and Lam, Joseph S.

Abstract

ABSTRACTBiosynthesis of B-band lipopolysaccharide (LPS) in Pseudomonas aeruginosafollows the Wzy-dependent pathway, requiring the integral inner membrane proteins Wzx (O-antigen [O-Ag] flippase), Wzy (O-Ag polymerase), and WaaL (O-Ag ligase). For an important first step in deciphering the mechanisms of LPS assembly, we set out to map the membrane topology of these proteins. Random and targeted 3′ wzx, wzy, and waaLtruncations were fused to a phoA-lacZαdual reporter capable of displaying both alkaline phosphatase and β-galactosidase activity. The results from truncation fusion expression and the corresponding differential enzyme activity ratios allowed for the assignment of specific regions of the proteins to cytoplasmic, transmembrane (TM), or periplasmic loci. Protein orientation in the inner membrane was confirmed via C-terminal fusion to green fluorescent protein. Our data revealed unique TM domain properties in these proteins, particularly for Wzx, indicating the potential for a charged pore. Novel periplasmic and cytoplasmic loop domains were also uncovered, with the latter in Wzy and WaaL revealing tracts consistent with potential Walker A/B motifs.IMPORTANCEThe opportunistic pathogen Pseudomonas aeruginosasynthesizes its virulence factor lipopolysaccharide via the Wzy-dependent pathway, requiring translocation, polymerization, and ligation of lipid-linked polysaccharide repeat units by the integral inner membrane proteins Wzx, Wzy, and WaaL, respectively. However, structural evidence to help explain the function of these proteins is lacking. Since membrane proteins are difficult to crystallize, topological mapping is an important first step in identifying exposed and membrane-embedded domains. We mapped the topologies of Wzx, Wzy, and WaaL from P. aeruginosaPAO1 by use of truncation libraries of a randomly fused C-terminal reporter capable of different enzyme activities in the periplasm and cytoplasm. Topology maps were created based directly on residue localization data, eliminating the bias associated with reliance on multiple topology prediction algorithms for initial generation of consensus transmembrane domain localizations. Consequently, we have identified novel periplasmic, cytoplasmic, and transmembrane domain properties that would help to explain the proposed functions of Wzx, Wzy, and WaaL.

Published
2010
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