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1. Unveiling the regulatory network controlling natural transformation in lactococci.

Author

Toussaint, Frédéric, Henry de Frahan, Marie, Poncelet, Félix, Ladrière, Jean-Marc, Horvath, Philippe, Fremaux, Christophe, and Hols, Pascal

Subjects
LACTIC acid bacteria, HORIZONTAL gene transfer, LACTOCOCCUS lactis, LACTOCOCCUS, GRAM-positive bacteria, LACTIC acid, FOOD fermentation
Abstract

Lactococcus lactis is a lactic acid bacterium of major importance for food fermentation and biotechnological applications. The ability to manipulate its genome quickly and easily through competence for DNA transformation would accelerate its general use as a platform for a variety of applications. Natural transformation in this species requires the activation of the master regulator ComX. However, the growth conditions that lead to spontaneous transformation, as well as the regulators that control ComX production, are unknown. Here, we identified the carbon source, nitrogen supply, and pH as key factors controlling competence development in this species. Notably, we showed that these conditions are sensed by three global regulators (i.e., CcpA, CodY, and CovR), which repress comX transcription directly. Furthermore, our systematic inactivation of known signaling systems suggests that classical pheromone-sensing regulators are not involved. Finally, we revealed that the ComX-degrading MecA-ClpCP machinery plays a predominant role based on the identification of a single amino-acid substitution in the adaptor protein MecA of a highly transformable strain. Contrasting with closely-related streptococci, the master competence regulator in L. lactis is regulated both proximally by general sensors and distantly by the Clp degradation machinery. This study not only highlights the diversity of regulatory networks for competence control in Gram-positive bacteria, but it also paves the way for the use of natural transformation as a tool to manipulate this biotechnologically important bacterium. Author summary: Lactic acid bacteria play important roles in our daily lives as microbiota members or fermentation starters. Understanding the natural horizontal gene transfer mechanisms that shape their genomes will allow us to better control and understand their evolution over time. This study identified the physiological conditions that activate competence for DNA transformation in Lactococcus lactis, one of the most important lactic acid bacteria. We also unveiled the guardians of the master competence regulator, ComX. In this species, global carbon and nitrogen regulators, as well as a general stress system, directly repressed its production instead of its activation by classical cell-to-cell communication systems as reported in streptococci. Furthermore, it was discovered that ComX degradation, orchestrated by the Clp machinery, plays a dominant role in the strict control of competence activation. This alternative regulation model could inspire future work aiming to uncover competence regulation networks in other Gram-positive bacteria with important medical or biotechnological implications. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Phage-induced expression of CRISPR-associated proteins is revealed by shotgun proteomics in Streptococcus thermophilus.

Author

Young, Jacque C, Dill, Brian D, Pan, Chongle, Hettich, Robert L, Banfield, Jillian F, Shah, Manesh, Fremaux, Christophe, Horvath, Philippe, Barrangou, Rodolphe, and Verberkmoes, Nathan C

Subjects
Streptococcus thermophilus, Bacteriophages, Bacterial Proteins, Proteomics, Time Factors, Inverted Repeat Sequences, Genetic Loci, Transcriptome, General Science & Technology
Abstract

The CRISPR/Cas system, comprised of clustered regularly interspaced short palindromic repeats along with their associated (Cas) proteins, protects bacteria and archaea from viral predation and invading nucleic acids. While the mechanism of action for this acquired immunity is currently under investigation, the response of Cas protein expression to phage infection has yet to be elucidated. In this study, we employed shotgun proteomics to measure the global proteome expression in a model system for studying the CRISPR/Cas response in S. thermophilus DGCC7710 infected with phage 2972. Host and viral proteins were simultaneously measured following inoculation at two different multiplicities of infection and across various time points using two-dimensional liquid chromatography tandem mass spectrometry. Thirty-seven out of forty predicted viral proteins were detected, including all proteins of the structural virome and viral effector proteins. In total, 1,013 of 2,079 predicted S. thermophilus proteins were detected, facilitating the monitoring of host protein synthesis changes in response to virus infection. Importantly, Cas proteins from all four CRISPR loci in the S. thermophilus DGCC7710 genome were detected, including loci previously thought to be inactive. Many Cas proteins were found to be constitutively expressed, but several demonstrated increased abundance following infection, including the signature Cas9 proteins from the CRISPR1 and CRISPR3 loci, which are key players in the interference phase of the CRISPR/Cas response. Altogether, these results provide novel insights into the proteomic response of S. thermophilus, specifically CRISPR-associated proteins, upon phage 2972 infection.

Published
2012

6. Expanding natural transformation to improve beneficial lactic acid bacteria.

Author

UCL - SST/LIBST - Louvain Institute of Biomolecular Science and Technology, Di Giacomo, Stefano, Toussaint, Frédéric, Ledesma-García, Laura, Knoops, Adrien, Vande Capelle, Florence, Fremaux, Christophe, Horvath, Philippe, Ladrière, Jean-Marc, Ait-Abderrahim, Hassina, Hols, Pascal, Mignolet, Johann, UCL - SST/LIBST - Louvain Institute of Biomolecular Science and Technology, Di Giacomo, Stefano, Toussaint, Frédéric, Ledesma-García, Laura, Knoops, Adrien, Vande Capelle, Florence, Fremaux, Christophe, Horvath, Philippe, Ladrière, Jean-Marc, Ait-Abderrahim, Hassina, Hols, Pascal, and Mignolet, Johann

Abstract

Nowadays, the growing human population exacerbates the need for sustainable resources. Inspiration and achievements in nutrient production or human/animal health might emanate from microorganisms and their adaptive strategies. Here, we exemplify the benefits of lactic acid bacteria (LAB) for numerous biotechnological applications and showcase their natural transformability as a fast and robust method to hereditarily influence their phenotype/traits in fundamental and applied research contexts. We described the biogenesis of the transformation machinery and we analyzed the genome of hundreds of LAB strains exploitable for human needs to predict their transformation capabilities. Finally, we provide a stepwise rational path to stimulate and optimize natural transformation with standard and synthetic biology techniques. A comprehensive understanding of the molecular mechanisms driving natural transformation will facilitate and accelerate the improvement of bacteria with properties that serve broad societal interests.

Published
2022

9. Expanding natural transformation to improve beneficial lactic acid bacteria

Author

Di Giacomo, Stefano, primary, Toussaint, Frédéric, additional, Ledesma-García, Laura, additional, Knoops, Adrien, additional, Vande Capelle, Florence, additional, Fremaux, Christophe, additional, Horvath, Philippe, additional, Ladrière, Jean-Marc, additional, Ait-Abderrahim, Hassina, additional, Hols, Pascal, additional, and Mignolet, Johann, additional

Published
2022
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12. The CRISPR/Cas bacterial immune system cleaves bacteriophage and plasmid DNA

Author

Garneau, Josiane E., Dupuis, Marie-Eve, Villion, Manuela, Romero, Dennis A., Barrangou, Rodolphe, Boyaval, Patrick, Fremaux, Christophe, Horvath, Philippe, Magadan, Alfonso H., and Moineau, Sylvain

Subjects
Genetic aspects, Research, Health aspects, Bacteriophages -- Genetic aspects -- Research -- Health aspects, Bacterial genetics -- Research -- Health aspects -- Genetic aspects, Immune system -- Health aspects -- Genetic aspects -- Research
Abstract

Clustered regularly interspaced short palindromic repeats (CRISPR) loci were discovered in 1987 in Escherichia coli (1). However, the interest in these genetic elements increased in the early 2000s, as they [...], Bacteria and Archaea have developed several defence strategies against foreign nucleic acids such as viral genomes and plasmids. Among them, clustered regularly interspaced short palindromic repeats (CRISPR) loci together with cas (CRISPR-associated) genes form the CRISPR/Cas immune system, which involves partially palindromic repeats separated by short stretches of DNA called spacers, acquired from extrachromosomal elements. It was recently demonstrated that these variable loci can incorporate spacers from infecting bacteriophages and then provide immunity against subsequent bacteriophage infections in a sequence-specific manner. Here we show that the Streptococcus thermophilus CRISPR1/Cas system can also naturally acquire spacers from a self-replicating plasmid containing an antibiotic-resistance gene, leading to plasmid loss. Acquired spacers that match antibiotic-resistance genes provide a novel means to naturally select bacteria that cannot uptake and disseminate such genes. We also provide in vivo evidence that the CRISPR1/Cas system specifically cleaves plasmid and bacteriophage double-stranded DNA within the proto-spacer, at specific sites. Our data show that the CRISPR/Cas immune system is remarkably adapted to cleave invading DNA rapidly and has the potential for exploitation to generate safer microbial strains.

Published
2010
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13. A novel pheromone quorum-sensing system controls the development of natural competence in Streptococcus thermophilus and Streptococcus salivarius

Author

Fontaine, Laetitia, Boutry, Celine, de Frahan, Marie Henry, Delplace, Brigitte, Fremaux, Christophe, Horvath, Philippe, Boyaval, Patrick, and Hols, Pascal

Subjects
Streptococcus -- Physiological aspects, Streptococcus -- Genetic aspects, Streptococcus -- Research, Quorum sensing -- Research, Pheromones -- Research, Genetic transcription -- Research, Biological sciences
Abstract

In streptococcal species, the key step of competence development is the transcriptional induction of comX, which encodes the alternative sigma factor [[sigma].sup.x], which positively regulates genes necessary for DNA transformation. In Streptococcus species belonging to the mitis and mutans groups, induction of comX relies on the activation of a three-component system consisting of a secreted pheromone, a histidine kinase, and a response regulator. In Streptococcus thermophilus, a species belonging to the salivarius group, the oligopeptide transporter Ami is essential for comX expression under competence-inducing conditions. This suggests a different regulation pathway of competence based on the production and reimportation of a signal peptide. The objective of our work was to identify the main actors involved in the early steps of comX induction in S. thermophilus LMD-9. Using a transcriptomic approach, four highly induced early competence operons were identified. Among them, we found a Rgg-like regulator (Ster_0316) associated with a nonannotated gene encoding a 24-amino-acid hydrophobic peptide (Shp0316). Through genetic deletions, we showed that these two genes are essential for comX induction. Moreover, addition to the medium of synthetic peptides derived from the C-terminal part of Shp0316 restored comX induction and transformation of a Shp0316-deficient strain. These peptides also induced competence in S. thermophilus and Streptococcus salivarius strains that are poorly transformable or not transformable. Altogether, our results show that Ster_0316 and Shp0316, renamed ComRS, are the two members of a novel quorum-sensing system responsible for comX induction in species from the salivarius group, which differs from the classical phosphorelay three-component system identified previously in streptococci. doi: 10.1128/JB.01251-09

Published
2010

14. Diversity, activity, and evolution of CRISPR loci in Streptococcus thermophilus

Author

Horvath, Philippe, Romero, Dennis A., Coute-Monvoisin, Anne-Claire, Richards, Melissa, Deveau, Helene, Moineau, Sylvain, Boyaval, Patrick, Fremaux, Christophe, and Barrangou, Rodolphe

Subjects
Streptococcus -- Genetic aspects, Streptococcus -- Natural history, Evolution -- Research, Quantitative trait loci -- Properties, Quantitative trait loci -- Influence, Biological diversity -- Research, Biological sciences
Abstract

Clustered regularly interspaced short palindromic repeats (CRISPR) are hypervariable loci widely distributed in prokaryotes that provide acquired immunity against foreign genetic elements. Here, we characterize a novel Streptococcus thermophilus locus, CRISPR3, and experimentally demonstrate its ability to integrate novel spacers in response to bacteriophage. Also, we analyze CRISPR diversity and activity across three distinct CRISPR loci in several S. thermophilus strains. We show that both CRISPR repeats and cas genes are locus specific and functionally coupled. A total of 124 strains were studied, and 109 unique spacer arrangements were observed across the three CRISPR loci. Overall, 3,626 spacers were analyzed, including 2,829 for CRISPRI (782 unique), 173 for CRISPR2 (16 unique), and 624 for CRISPR3 (154 unique). Sequence analysis of the spacers revealed homology and identity to phage sequences (77%), plasmid sequences (16%), and S. thermophilus chromosomal sequences (7%). Polymorphisms were observed for the CRISPR repeats, CRISPR spacers, cas genes, CRISPR motif, locus architecture, and specific sequence content. Interestingly, CRISPR loci evolved both via polarized addition of novel spacers after exposure to foreign genetic elements and via internal deletion of spacers. We hypothesize that the level of diversity is correlated with relative CRISPR activity and propose that the activity is highest for CRISPR1, followed by CRISPR3, while CRISPR2 may be degenerate. Globally, the dynamic nature of CRISPR loci might prove valuable for typing and comparative analyses of strains and microbial populations. Also, CRISPRs provide critical insights into the relationships between prokaryotes and their environments, notably the coevolution of host and viral genomes.

Published
2008

15. Phage response to CRISPR-encoded resistance in Streptococcus thermophilus

Author

Deveau, Helene, Barrangou, Rodolphe, Garneau, Josiane E., Labonte, Jessica, Fremaux, Christophe, Boyaval, Patrick, Romero, Dennis A., Horvath, Philippe, and Moineau, Sylvain

Subjects
Streptococcus -- Genetic aspects, Streptococcus -- Physiological aspects, Bacteriophages -- Genetic aspects, Quantitative trait loci -- Research, Virulence (Microbiology) -- Genetic aspects, Biological sciences
Abstract

Clustered regularly interspaced short palindromic repeats (CRISPR) and their associated genes are linked to a mechanism of acquired resistance against bacteriophages. Bacteria can integrate short stretches of phage-derived sequences (spacers) within CRISPR loci to become phage resistant. In this study, we further characterized the efficiency of CRISPRI as a phage resistance mechanism in Streptococcus thermophilus. First, we show that CRISPR1 is distinct from previously known phage defense systems and is effective against the two main groups of S. thermophilus phages. Analyses of 30 bacteriophage-insensitive mutants of S. thermophilus indicate that the addition of one new spacer in CRISPRI is the most frequent outcome of a phage challenge and that the iterative addition of spacers increases the overall phage resistance of the host. The added new spacers have a size of between 29 to 31 nucleotides, with 30 being by far the most frequent. Comparative analysis of 39 newly acquired spacers with the complete genomic sequences of the wild-type phages 2972, 858, and DTI demonstrated that the newly added spacer must be identical to a region (named proto-spacer) in the phage genome to confer a phage resistance phenotype. Moreover, we found a CRISPRI-specific sequence (NNAGAAW) located downstream of the proto-spacer region that is important for the phage resistance phenotype. Finally, we show through the analyses of 20 mutant phages that virulent phages are rapidly evolving through single nucleotide mutations as well as deletions, in response to CRISPR1.

Published
2008

20. Novel Genus of Phages Infecting Streptococcus thermophilus: Genomic and Morphological Characterization

Author

Philippe, Cécile, primary, Levesque, Sébastien, additional, Dion, Moïra B., additional, Tremblay, Denise M., additional, Horvath, Philippe, additional, Lüth, Natascha, additional, Cambillau, Christian, additional, Franz, Charles, additional, Neve, Horst, additional, Fremaux, Christophe, additional, Heller, Knut J., additional, and Moineau, Sylvain, additional

Published
2020
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21. CRISPR provides acquired resistance against viruses in prokaryotes

Author

Laporte, Mélissa, Fremaux, Christophe, Devillers, Rodolphe, Moineau, Sylvain, Deveau, Hélène, Boyaval, Patrick, Romero, Dennis A., Horvath, Philippe, Laporte, Mélissa, Fremaux, Christophe, Devillers, Rodolphe, Moineau, Sylvain, Deveau, Hélène, Boyaval, Patrick, Romero, Dennis A., and Horvath, Philippe

Abstract

Clustered regularly interspaced short palindromic repeats (CRISPR) are a distinctive feature of the genomes of most Bacteria and Archaea and are thought to be involved in resistance to bacteriophage. We found that following viral challenge, bacteria integrated new spacers derived from phage genomic sequences. Removal or addition of particular spacers modified the phage-resistance phenotype of the cell. Thus, CRISPR, together with associated cas genes, provided resistance against phages, whereby specificity is determined by spacer/phage sequence similarity.

Published
2020

22. Widespread anti-CRISPR proteins in virulent bacteriophages inhibit a range of Cas9 proteins

Author

Moineau, Sylvain, Hynes, Alexander, Loehr, Jérémy, Goulet, Adeline, Agudelo, Daniel, Amigues, Béatrice, Doyon, Yannick, Rousseau, Geneviève M., Romero, Dennis A., Fremaux, Christophe, Horvath, Philippe, Cambillau, Christian, Moineau, Sylvain, Hynes, Alexander, Loehr, Jérémy, Goulet, Adeline, Agudelo, Daniel, Amigues, Béatrice, Doyon, Yannick, Rousseau, Geneviève M., Romero, Dennis A., Fremaux, Christophe, Horvath, Philippe, and Cambillau, Christian

Abstract

CRISPR-Cas systems are bacterial anti-viral systems, and bacterial viruses (bacteriophages, phages) can carry anti-CRISPR (Acr) proteins to evade that immunity. Acrs can also fine-tune the activity of CRISPR-based genome-editing tools. While Acrs are prevalent in phages capable of lying dormant in a CRISPR-carrying host, their orthologs have been observed only infrequently in virulent phages. Here we identify AcrIIA6, an Acr encoded in 33% of virulent Streptococcus thermophilus phage genomes. The X-ray structure of AcrIIA6 displays some features unique to this Acr family. We compare the activity of AcrIIA6 to those of other Acrs, including AcrIIA5 (also from S. thermophilus phages), and characterize their effectiveness against a range of CRISPR-Cas systems. Finally, we demonstrate that both Acr families from S. thermophilus phages inhibit Cas9-mediated genome editing of human cells.

Published
2020

23. A mutation in the methionine aminopeptidase gene provides phage resistance in Streptococcus thermophilus

Author

Tremblay, Denise, Mosterd, Cas, Loignon, Stéphanie, Moineau, Sylvain, Dupuis, Marie-Ève, Labrie, Simon, Rousseau, Geneviève M., Romero, Dennis A., Desjardins, Philippe, Horvath, Philippe, Fremaux, Christophe, Tremblay, Denise, Mosterd, Cas, Loignon, Stéphanie, Moineau, Sylvain, Dupuis, Marie-Ève, Labrie, Simon, Rousseau, Geneviève M., Romero, Dennis A., Desjardins, Philippe, Horvath, Philippe, and Fremaux, Christophe

Abstract

Streptococcus thermophilus is a lactic acid bacterium widely used by the dairy industry for the manufacture of yogurt and specialty cheeses. It is also a Gram-positive bacterial model to study phagehost interactions. CRISPR-Cas systems are one of the most prevalent phage resistance mechanisms in S. thermophilus. Little information is available about other host factors involved in phage replication in this food-grade streptococcal species. We used the model strain S. thermophilus SMQ-301 and its virulent phage DT1, harboring the anti-CRISPR protein AcrIIA6, to show that a host gene coding for a methionine aminopeptidase (metAP) is necessary for phage DT1 to complete its lytic cycle. A single mutation in metAP provides S. thermophilus SMQ-301 with strong resistance against phage DT1. The mutation impedes a late step of the lytic cycle since phage adsorption, DNA replication, and protein expression were not afected. When the mutated strain was complemented with the wild-type version of the gene, the phage sensitivity phenotype was restored. When this mutation was introduced into other S. thermophilus strains it provided resistance against cos-type (Sf21dt1virus genus) phages but replication of pac-type (Sf11 virus genus) phages was not afected. The mutation in the gene coding for the MetAP induces amino acid change in a catalytic domain conserved across many bacterial species. Introducing the same mutation in Streptococcus mutans also provided a phage resistance phenotype, suggesting the wide-ranging importance of the host methionine aminopeptidase in phage replication.

Published
2020

24. Phage response to CRISPR-encoded resistance in Streptococcus thermophilus

Author

Garneau, Josiane, Labonté, Jessica., Devillers, Rodolphe, Moineau, Sylvain, Fremaux, Christophe, Deveau, Hélène, Boyaval, Patrick, Romero, Dennis A, Horvath, Philippe, Garneau, Josiane, Labonté, Jessica., Devillers, Rodolphe, Moineau, Sylvain, Fremaux, Christophe, Deveau, Hélène, Boyaval, Patrick, Romero, Dennis A, and Horvath, Philippe

Abstract

Clustered regularly interspaced short palindromic repeats (CRISPR) and their associated genes are linked to a mechanism of acquired resistance against bacteriophages. Bacteria can integrate short stretches of phage-derived sequences (spacers) within CRISPR loci to become phage resistant. In this study, we further characterized the efficiency of CRISPR1 as a phage resistance mechanism in Streptococcus thermophilus. First, we show that CRISPR1 is distinct from previously known phage defense systems and is effective against the two main groups of S. thermophilus phages. Analyses of 30 bacteriophage-insensitive mutants of S. thermophilus indicate that the addition of one new spacer in CRISPR1 is the most frequent outcome of a phage challenge and that the iterative addition of spacers increases the overall phage resistance of the host. The added new spacers have a size of between 29 to 31 nucleotides, with 30 being by far the most frequent. Comparative analysis of 39 newly acquired spacers with the complete genomic sequences of the wild-type phages 2972, 858, and DT1 demonstrated that the newly added spacer must be identical to a region (named proto-spacer) in the phage genome to confer a phage resistance phenotype. Moreover, we found a CRISPR1-specific sequence (NNAGAAW) located downstream of the proto-spacer region that is important for the phage resistance phenotype. Finally, we show through the analyses of 20 mutant phages that virulent phages are rapidly evolving through single nucleotide mutations as well as deletions, in response to CRISPR1.

Published
2020

25. Diversity, activity, and evolution of CRISPR loci in Streptococcus thermophilus.

Author

Horvath, Philippe, Devillers, Rodolphe, Romero, Dennis A., Moineau, Sylvain, Coûté-Monvoisin, Anne-Claire, Deveau, Hélène, Boyaval, Patrick, Fremaux, Christophe, Horvath, Philippe, Devillers, Rodolphe, Romero, Dennis A., Moineau, Sylvain, Coûté-Monvoisin, Anne-Claire, Deveau, Hélène, Boyaval, Patrick, and Fremaux, Christophe

Abstract

Clustered regularly interspaced short palindromic repeats (CRISPR) are hypervariable loci widely distributed in prokaryotes that provide acquired immunity against foreign genetic elements. Here, we characterize a novel Streptococcus thermophilus locus, CRISPR3, and experimentally demonstrate its ability to integrate novel spacers in response to bacteriophage. Also, we analyze CRISPR diversity and activity across three distinct CRISPR loci in several S. thermophilus strains. We show that both CRISPR repeats and cas genes are locus specific and functionally coupled. A total of 124 strains were studied, and 109 unique spacer arrangements were observed across the three CRISPR loci. Overall, 3,626 spacers were analyzed, including 2,829 for CRISPR1 (782 unique), 173 for CRISPR2 (16 unique), and 624 for CRISPR3 (154 unique). Sequence analysis of the spacers revealed homology and identity to phage sequences (77%), plasmid sequences (16%), and S. thermophilus chromosomal sequences (7%). Polymorphisms were observed for the CRISPR repeats, CRISPR spacers, cas genes, CRISPR motif, locus architecture, and specific sequence content. Interestingly, CRISPR loci evolved both via polarized addition of novel spacers after exposure to foreign genetic elements and via internal deletion of spacers. We hypothesize that the level of diversity is correlated with relative CRISPR activity and propose that the activity is highest for CRISPR1, followed by CRISPR3, while CRISPR2 may be degenerate. Globally, the dynamic nature of CRISPR loci might prove valuable for typing and comparative analyses of strains and microbial populations. Also, CRISPRs provide critical insights into the relationships between prokaryotes and their environments, notably the coevolution of host and viral genomes

Published
2020

26. Genomic organization and molecular analysis of virulent bacteriophage 2972 infecting an exopolysaccharide-producing Streptococcus thermophilus strain

Author

Tremblay, Denise, Labonté, Jessica., Labrie, Steve, Moineau, Sylvain, Fremaux, Christophe, Duplessis, Martin, Lévesque, Céline, Tremblay, Denise, Labonté, Jessica., Labrie, Steve, Moineau, Sylvain, Fremaux, Christophe, Duplessis, Martin, and Lévesque, Céline

Abstract

The Streptococcus thermophilus virulent pac-type phage 2972 was isolated from a yogurt made in France in 1999. It is a representative of several phages that have emerged with the industrial use of the exopolysaccharide-producing S. thermophilus strain RD534. The genome of phage 2972 has 34,704 bp with an overall G+C content of 40.15%, making it the shortest S. thermophilus phage genome analyzed so far. Forty-four open reading frames (ORFs) encoding putative proteins of 40 or more amino acids were identified, and bioinformatic analyses led to the assignment of putative functions to 23 ORFs. Comparative genomic analysis of phage 2972 with the six other sequenced S. thermophilus phage genomes confirmed that the replication module is conserved and that cos- and pac-type phages have distinct structural and packaging genes. Two group I introns were identified in the genome of 2972. They interrupted the genes coding for the putative endolysin and the terminase large subunit. Phage mRNA splicing was demonstrated for both introns, and the secondary structures were predicted. Eight structural proteins were also identified by N-terminal sequencing and/or matrix-assisted laser desorption ionization—time-of-flight mass spectrometry. Detailed analysis of the putative minor tail proteins ORF19 and ORF21 as well as the putative receptor-binding protein ORF20 showed the following interesting features: (i) ORF19 is a hybrid protein, because it displays significant identity with both pac- and cos-type phages; (ii) ORF20 is unique; and (iii) a protein similar to ORF21 of 2972 was also found in the structure of the cos-type phage DT1, indicating that this structural protein is present in both S. thermophilus phage groups. The implications of these findings for phage classification are discussed.

Published
2020

27. The CRISPR/Cas bacterial immune system cleaves bacteriophage and plasmid DNA

Author

Garneau, Josiane, Devillers, Rodolphe, Moineau, Sylvain, Romero, Dennis A., Dupuis, Marie-Ève, Magadán, Alfonso H., Boyaval, Patrick, Villion, Manuela, Fremaux, Christophe, Horvath, Philippe, Garneau, Josiane, Devillers, Rodolphe, Moineau, Sylvain, Romero, Dennis A., Dupuis, Marie-Ève, Magadán, Alfonso H., Boyaval, Patrick, Villion, Manuela, Fremaux, Christophe, and Horvath, Philippe

Abstract

Bacteria and Archaea have developed several defence strategies against foreign nucleic acids such as viral genomes and plasmids. Among them, clustered regularly interspaced short palindromic repeats (CRISPR) loci together with cas (CRISPR-associated) genes form the CRISPR/Cas immune system, which involves partially palindromic repeats separated by short stretches of DNA called spacers, acquired from extrachromosomal elements. It was recently demonstrated that these variable loci can incorporate spacers from infecting bacteriophages and then provide immunity against subsequent bacteriophage infections in a sequence-specific manner. Here we show that the Streptococcus thermophilus CRISPR1/Cas system can also naturally acquire spacers from a self-replicating plasmid containing an antibiotic-resistance gene, leading to plasmid loss. Acquired spacers that match antibiotic-resistance genes provide a novel means to naturally select bacteria that cannot uptake and disseminate such genes. We also provide in vivo evidence that the CRISPR1/Cas system specifically cleaves plasmid and bacteriophage double-stranded DNA within the proto-spacer, at specific sites. Our data show that the CRISPR/Cas immune system is remarkably adapted to cleave invading DNA rapidly and has the potential for exploitation to generate safer microbial strains.

Published
2020

28. Mesentericin Y105 gene clusters in Leuconostoc mesenteroides Y105

Author

Fremaux, Christophe, Hechard, Yann, and Cenatiempo, Yves

Subjects
Genetic code -- Identification and classification, Listeria -- Analysis, Food preservatives -- Analysis, Biological sciences
Abstract

The gene that codes for mesentericin Y105, a bacteriocin from goat's milk, has been cloned to achieve the production of sufficient amounts of bacteriocin. The increasing use of bacterial compounds as preservatives in the place of chemicals has focused attention on antimicrobial activities of lactic acid bacteria. Bacteriocins are good preservatives since they inhibit species closely related to them. Mesentericin Y105 is a non-lantibiotic bacteriocin that is encoded in a 35kb plasmid from Leuconostoc mesenteroides Y105 and inhibits Listeria monocytogenes.

Published
1995

29. A mutation in the methionine aminopeptidase gene provides phage resistance in Streptococcus thermophilus

Author

Labrie, Simon, Mosterd, Cas, Loignon, Stéphanie, Dupuis, Marie-Ève, Desjardins, Philippe, Rousseau, Geneviève M., Tremblay, Denise, Romero, Dennis A., Horvath, Philippe, Fremaux, Christophe, Moineau, Sylvain, Labrie, Simon, Mosterd, Cas, Loignon, Stéphanie, Dupuis, Marie-Ève, Desjardins, Philippe, Rousseau, Geneviève M., Tremblay, Denise, Romero, Dennis A., Horvath, Philippe, Fremaux, Christophe, and Moineau, Sylvain

Abstract

Streptococcus thermophilus is a lactic acid bacterium widely used by the dairy industry for the manufacture of yogurt and specialty cheeses. It is also a Gram-positive bacterial model to study phagehost interactions. CRISPR-Cas systems are one of the most prevalent phage resistance mechanisms in S. thermophilus. Little information is available about other host factors involved in phage replication in this food-grade streptococcal species. We used the model strain S. thermophilus SMQ-301 and its virulent phage DT1, harboring the anti-CRISPR protein AcrIIA6, to show that a host gene coding for a methionine aminopeptidase (metAP) is necessary for phage DT1 to complete its lytic cycle. A single mutation in metAP provides S. thermophilus SMQ-301 with strong resistance against phage DT1. The mutation impedes a late step of the lytic cycle since phage adsorption, DNA replication, and protein expression were not afected. When the mutated strain was complemented with the wild-type version of the gene, the phage sensitivity phenotype was restored. When this mutation was introduced into other S. thermophilus strains it provided resistance against cos-type (Sf21dt1virus genus) phages but replication of pac-type (Sf11 virus genus) phages was not afected. The mutation in the gene coding for the MetAP induces amino acid change in a catalytic domain conserved across many bacterial species. Introducing the same mutation in Streptococcus mutans also provided a phage resistance phenotype, suggesting the wide-ranging importance of the host methionine aminopeptidase in phage replication.

Published
2019

30. Widespread anti-CRISPR proteins in virulent bacteriophages inhibit a range of Cas9 proteins

Author

Hynes, Alexander P., primary, Rousseau, Geneviève M., additional, Agudelo, Daniel, additional, Goulet, Adeline, additional, Amigues, Beatrice, additional, Loehr, Jeremy, additional, Romero, Dennis A., additional, Fremaux, Christophe, additional, Horvath, Philippe, additional, Doyon, Yannick, additional, Cambillau, Christian, additional, and Moineau, Sylvain, additional

Published
2018
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31. Widespread anti-CRISPR proteins in virulent bacteriophages inhibit a range of Cas9 proteins

Author

Hynes, Alexander, Rousseau, Geneviève M., Agudelo, Daniel, Goulet, Adeline, Amigues, Béatrice, Loehr, Jérémy, Romero, Dennis A., Fremaux, Christophe, Horvath, Philippe, Doyon, Yannick, Cambillau, Christian, Moineau, Sylvain, Hynes, Alexander, Rousseau, Geneviève M., Agudelo, Daniel, Goulet, Adeline, Amigues, Béatrice, Loehr, Jérémy, Romero, Dennis A., Fremaux, Christophe, Horvath, Philippe, Doyon, Yannick, Cambillau, Christian, and Moineau, Sylvain

Abstract

CRISPR-Cas systems are bacterial anti-viral systems, and bacterial viruses (bacteriophages, phages) can carry anti-CRISPR (Acr) proteins to evade that immunity. Acrs can also fine-tune the activity of CRISPR-based genome-editing tools. While Acrs are prevalent in phages capable of lying dormant in a CRISPR-carrying host, their orthologs have been observed only infrequently in virulent phages. Here we identify AcrIIA6, an Acr encoded in 33% of virulent Streptococcus thermophilus phage genomes. The X-ray structure of AcrIIA6 displays some features unique to this Acr family. We compare the activity of AcrIIA6 to those of other Acrs, including AcrIIA5 (also from S. thermophilus phages), and characterize their effectiveness against a range of CRISPR-Cas systems. Finally, we demonstrate that both Acr families from S. thermophilus phages inhibit Cas9-mediated genome editing of human cells.

Published
2018

32. A method for transforming a strain of the Lactococcus genus by natural competence

Author

UCL - SST/LIBST - Louvain Institute of Biomolecular Science and Technology, Fremaux, Christophe, Horvath, Philippe, Boyaval, Patrick, Hols, Pascal, David, Blandine, Radziejwoski, Amandine, Fontaine, Laetitia, Toussaint, Frédéric, Dupont Nutrition Biosciences APS, UCL - SST/LIBST - Louvain Institute of Biomolecular Science and Technology, Fremaux, Christophe, Horvath, Philippe, Boyaval, Patrick, Hols, Pascal, David, Blandine, Radziejwoski, Amandine, Fontaine, Laetitia, Toussaint, Frédéric, and Dupont Nutrition Biosciences APS

Published
2018

33. Development of versatile procedure based on natural transformation for marker-free targeted genetic modification in Streptococcus thermophilus

Author

Fontaine, Laetitia, Dandoy, Damien, Boutry, Celine, Delplace, Brigitte, de Frahan, Marie Henry, Fremaux, Christophe, Horvath, Philippe, Boyaval, Patrick, and Hols, Pascal

Subjects
Streptococcus -- Genetic aspects, Streptococcus -- Physiological aspects, Genetic engineering -- Analysis, Biological sciences
Abstract

A versatile natural transformation protocol was used as a tool to develop marker-free procedure for site-directed genetic modification in Streptococcus thermophilus strains. The developed natural transformation protocol combined with a powerful positive screen could be successfully applied for the construction of recombinant strains in one step without using any antibiotic resistance marker.

Published
2010

35. Identification of a replicon from pTXL1, a small cryptic plasmid from Leuconostoc mesenteroides subsp. mesenteroides Y110, and development of a food-grade vector

Author

Biet, Franck, Cenatiempo, Yves, and Fremaux, Christophe

Subjects
Plasmids -- Genetic aspects, Genetic vectors -- Design and construction, Microbiological synthesis -- Genetic aspects, Anti-infective agents, Biological sciences
Abstract

Research demonstrates the construction of a vector from a 2,665-base pair plasmid, pTXL1, of Leuconostoc mesenteroides subsp. mesenteroides Y110 by replicating its replicon in lactic acid bacteria. The vector produces mesentericin Y105, a class II anti-Listeria bacteriocin. Construction of an industrial Leuconostoc cremoris strain using this vector is discussed.

Published
2002

36. Natural DNA transformation is functional in Lactococcus lactis ssp. cremoris KW2.

Author

UCL - SST/ISV - Institut des sciences de la vie, David, Blandine, Radziejwoski, Amandine, Toussaint, Frédéric, Fontaine, Laetitia, Henry de Frahan, Marie, Patout, Cédric, van Dillen, Sabine, Boyaval, Patrick, Horvath, Philippe, Fremaux, Christophe, Hols, Pascal, UCL - SST/ISV - Institut des sciences de la vie, David, Blandine, Radziejwoski, Amandine, Toussaint, Frédéric, Fontaine, Laetitia, Henry de Frahan, Marie, Patout, Cédric, van Dillen, Sabine, Boyaval, Patrick, Horvath, Philippe, Fremaux, Christophe, and Hols, Pascal

Abstract

Lactococcus lactis is one of the most commonly used lactic acid bacteria in the dairy industry. Activation of competence for natural DNA transformation in this species would greatly improve the selection of novel strains with desired genetic traits. Here, we investigated the activation of natural transformation in L. lactis ssp. cremoris KW2, a strain of plant origin whose genome encodes the master competence regulator ComX and the complete set of proteins usually required for natural transformation. In the absence of knowledge about competence regulation in this species, we constitutively overproduced ComX in a reporter strain of late competence phase activation and showed, by transcriptomic analyses, a ComX-dependent induction of all key competence genes. We further demonstrated that natural DNA transformation is functional in this strain and requires the competence DNA uptake machinery. Since constitutive ComX overproduction is unstable, we alternatively expressed comX under the control of an endogenous xylose-inducible promoter. This regulated system was used to successfully inactivate the adaptor protein MecA and subunits of the Clp proteolytic complex, which were previously shown to be involved in ComX degradation in streptococci. In the presence of a low amount of ComX, the deletion of mecA, clpC, or clpP genes markedly increased the activation of the late competence phase and transformability. Altogether, our results report the functionality of natural DNA transformation in L. lactis and pave the way for the identification of signaling mechanisms that trigger the competence state in this species.IMPORTANCELactococcus lactis is a lactic acid bacterium of major importance, which is used as a starter species for milk fermentation, a host for heterologous protein production, and a delivery platform for therapeutic molecules. Here, we report the functionality of natural transformation in L. lactis ssp. cremoris KW2 by the overproduction of the master competence r

Published
2017

37. Hetrologous expression of the bacteriocin mesentericin Y105 using the dedicated transport system and the general secretion pathway

Author

Biet, Franck, Berjeaud, Jean, Worobo, Randy W., Cenatiempo, Yves, and Fremaux, Christophe

Subjects
Bacteria -- Research, Secretion -- Research, Biological sciences
Abstract

A two-glycine-type leader peptide and a signal peptide have been identified within class II bacteriocin precursors. Mesentericin Y105, the class II anti-Listeria bacteriocin produced by Leuconostoc mesenteroides Y105, has been investigated. Two secretion vectors were constructed to investigated heterologous expression systems able to produce mesentericin Y105 in certain hosts. The production of mesentericin Y105 in Leuconostoc was shown to be enhanced via the dedicated transport system, compared to the general secretion pathway.

Published
1998

38. Divercin V41, a new bacteriocin with two disulphide bonds produced by Carnobacterium divergens V41: Primary structure and genomic organization

Author

Metivier, Anita, Pilet, Marie-France, Dousset, Xavier, Sorokine, Odile, Anglade, Patricia, Zagorec, Monique, Piard, Jean-Christohe, Marion, Didier, Cenatiempo, Yves, and Fremaux, Christophe

Subjects
Bacteria -- Research, Microbiological research -- Observations, Biological sciences
Abstract

The lactic acid bacterium Carnobacterium divergens V41, isolated from fish viscera, produces divercin V41, a bacteriocin. Divercin V41 shows high homologies with pediocin PA-1 and enterocin A. A chromosomal fragment containing dvnA, the divercin V41 structural gene, was cloned and sequenced, and results suggest that divercin V41 is synthesized as a pre-bacteriocin of 66 amino acids.

Published
1998

39. The CRISPR/Cas bacterial immune system cleaves bacteriophage and plasmid DNA

Author

Garneau, Josiane, Dupuis, Marie-Ève, Villion, Manuela, Romero, Dennis A., Barrangou, Rodolphe, Boyaval, Patrick, Fremaux, Christophe, Horvath, Philippe, Magadán, Alfonso H., Moineau, Sylvain, Garneau, Josiane, Dupuis, Marie-Ève, Villion, Manuela, Romero, Dennis A., Barrangou, Rodolphe, Boyaval, Patrick, Fremaux, Christophe, Horvath, Philippe, Magadán, Alfonso H., and Moineau, Sylvain

Abstract

Bacteria and Archaea have developed several defence strategies against foreign nucleic acids such as viral genomes and plasmids. Among them, clustered regularly interspaced short palindromic repeats (CRISPR) loci together with cas (CRISPR-associated) genes form the CRISPR/Cas immune system, which involves partially palindromic repeats separated by short stretches of DNA called spacers, acquired from extrachromosomal elements. It was recently demonstrated that these variable loci can incorporate spacers from infecting bacteriophages and then provide immunity against subsequent bacteriophage infections in a sequence-specific manner. Here we show that the Streptococcus thermophilus CRISPR1/Cas system can also naturally acquire spacers from a self-replicating plasmid containing an antibiotic-resistance gene, leading to plasmid loss. Acquired spacers that match antibiotic-resistance genes provide a novel means to naturally select bacteria that cannot uptake and disseminate such genes. We also provide in vivo evidence that the CRISPR1/Cas system specifically cleaves plasmid and bacteriophage double-stranded DNA within the proto-spacer, at specific sites. Our data show that the CRISPR/Cas immune system is remarkably adapted to cleave invading DNA rapidly and has the potential for exploitation to generate safer microbial strains.

Published
2010

40. A novel pheromone quorum-sensing system controls the development of natural competence in Streptococcus thermophilus and Streptococcus salivarius.

Author

UCL - SC/BIOL - Département de biologie, Fontaine, Laetitia, Boutry, Céline, Henry de Frahan, Marie, Delplace, Brigitte, Fremaux, Christophe, Horvath, Philippe, Boyaval, Patrick, Hols, Pascal, UCL - SC/BIOL - Département de biologie, Fontaine, Laetitia, Boutry, Céline, Henry de Frahan, Marie, Delplace, Brigitte, Fremaux, Christophe, Horvath, Philippe, Boyaval, Patrick, and Hols, Pascal

Abstract

In streptococcal species, the key step of competence development is the transcriptional induction of comX, which encodes the alternative sigma factor sigma(X) that positively regulates genes necessary for DNA transformation. In species belonging to the mitis and mutans groups, induction of comX relies on the activation of a three component system consisting of a secreted pheromone, a histidine kinase, and a response regulator. In Streptococcus thermophilus, a species belonging to the salivarius group, the oligopeptide transporter Ami is essential for comX expression in competence-inducing conditions. This suggests a different regulation pathway of competence based on the production and re-importation of a signal peptide. The objective of our work was to identify the main actors involved in the early steps of comX induction in S. thermophilus LMD-9. Using a transcriptomic approach, four highly-induced early competence operons were identified. Among them, we found a Rgg-like regulator (Ster_0316) associated to a non-annotated gene encoding a 24-amino acid hydrophobic peptide (Shp0316). Through genetic deletions, we showed that these two genes are essential for comX induction. Moreover, addition to the medium of synthetic peptides derived from the C-terminal part of Shp0316 restores comX induction and transformation of a Shp0316-deficient strain. These peptides also induce competence in S. thermophilus and Streptococcus salivarius strains that are poorly or not transformable. Altogether, our results show that Ster_0316 and Shp0316, renamed ComRS, are the two members of a novel quorum-sensing system responsible for comX induction in species from the salivarius group, which differs from the classical phosphorelay three-component system identified so far in streptococci.

Published
2010

41. Development of a versatile procedure based on natural transformation for marker-free targeted genetic modification in Streptococcus thermophilus.

Author

UCL - SST/ISV - Institut des sciences de la vie, Fontaine, Laetitia, Dandoy, Damien, Boutry, Céline, Delplace, Brigitte, de Frahan, Marie Henry, Fremaux, Christophe, Horvath, Philippe, Boyaval, Patrick, Hols, Pascal, UCL - SST/ISV - Institut des sciences de la vie, Fontaine, Laetitia, Dandoy, Damien, Boutry, Céline, Delplace, Brigitte, de Frahan, Marie Henry, Fremaux, Christophe, Horvath, Philippe, Boyaval, Patrick, and Hols, Pascal

Abstract

A versatile natural transformation protocol was established in order to facilitate marker-less targeted genetic modification in 18 out of the 19 Streptococcus thermophilus strains tested. Its efficiency enables the use of in vitro-amplified mutagenesis fragments to perform large genetic deletion or insertion. Depending on the phenotype linked to the mutation, marker-less mutants can either be selected in two steps i.e. resistance marker insertion and excision using an adapted Cre-loxP system, or in one step using a powerful positive screening procedure as illustrated here for histidine prototrophy.

Published
2010

43. Genomic impact of CRISPR immunization against bacteriophages

Author

Barrangou, Rodolphe, primary, Coûté-Monvoisin, Anne-Claire, additional, Stahl, Buffy, additional, Chavichvily, Isabelle, additional, Damange, Florian, additional, Romero, Dennis A., additional, Boyaval, Patrick, additional, Fremaux, Christophe, additional, and Horvath, Philippe, additional

Published
2013
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44. Genomic organization and molecular analysis of virulent bacteriophage 2972 infecting an exopolysaccharide-producing Streptococcus thermophilus strain

Author

Lévesque, Céline, Duplessis, Martin, Labonté, Jessica, Labrie, Steve, Fremaux, Christophe, Tremblay, Denise, Moineau, Sylvain, Lévesque, Céline, Duplessis, Martin, Labonté, Jessica, Labrie, Steve, Fremaux, Christophe, Tremblay, Denise, and Moineau, Sylvain

Abstract

The Streptococcus thermophilus virulent pac-type phage 2972 was isolated from a yogurt made in France in 1999. It is a representative of several phages that have emerged with the industrial use of the exopolysaccharide-producing S. thermophilus strain RD534. The genome of phage 2972 has 34,704 bp with an overall G C content of 40.15%, making it the shortest S. thermophilus phage genome analyzed so far. Forty-four open reading frames (ORFs) encoding putative proteins of 40 or more amino acids were identified, and bioinformatic analyses led to the assignment of putative functions to 23 ORFs. Comparative genomic analysis of phage 2972 with the six other sequenced S. thermophilus phage genomes confirmed that the replication module is conserved and that cos- and pac-type phages have distinct structural and packaging genes. Two group I introns were identified in the genome of 2972. They interrupted the genes coding for the putative endolysin and the terminase large subunit. Phage mRNA splicing was demonstrated for both introns, and the secondary structures were predicted. Eight structural proteins were also identified by N-terminal sequencing and/or matrixassisted laser desorption ionization—time-of-flight mass spectrometry. Detailed analysis of the putative minor tail proteins ORF19 and ORF21 as well as the putative receptor-binding protein ORF20 showed the following interesting features: (i) ORF19 is a hybrid protein, because it displays significant identity with both pac- and cos-type phages; (ii) ORF20 is unique; and (iii) a protein similar to ORF21 of 2972 was also found in the structure of the cos-type phage DT1, indicating that this structural protein is present in both S. thermophilus phage groups. The implications of these findings for phage classification are discussed.

Published
2005

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