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1. Chromosomal Toxin-antitoxin systems may act as antiaddiction modules

Author

De Bast, Manuel Saavedra, Mine, Natacha, and Van Melderen, Laurence

Subjects
Bacterial toxins -- Genetic aspects, Bacterial toxins -- Physiological aspects, Bacterial toxins -- Research, Chromosomes -- Genetic aspects, Chromosomes -- Physiological aspects, Enterobacter -- Genetic aspects, Enterobacter -- Physiological aspects, Enterobacteriaceae -- Genetic aspects, Enterobacteriaceae -- Physiological aspects, Apoptosis -- Research, Biological sciences
Abstract

Toxin-antitoxin (TA) systems are widespread among bacterial chromosomes and mobile genetic elements. Although in plasmids TA systems have a clear role in their vertical inheritance by selectively killing plasmid-free daughter cells (postsegregational killing or addiction phenomenon), the physiological role of chromosomally encoded ones remains under debate. The assumption that chromosomally encoded TA systems are part of stress response networks and/or programmed cell death machinery has been called into question recently by the observation that none of the five canonical chromosomally encoded TA systems in the Escherichia coli chromosome seem to confer any selective advantage under stressful conditions (V. Tsilibaris, G. Maenhaut-Michel, N. Mine, and L. Van Melderen, J. Bacteriol. 189:6101-6108, 2007). Their prevalence in bacterial chromosomes indicates that they might have been acquired through horizontal gene transfer. Once integrated in chromosomes, they might in turn interfere with their homologues encoded by mobile genetic elements. In this work, we show that the chromosomally encoded Erwinia chrysanthemi ccd (control of cell death) ([ccd.sub.Ech]) system indeed protects the cell against postsegregational killing mediated by its F-plasmid ccd ([ccd.sub.F]) homoiogue. Moreover, competition experiments have shown that this system confers a fitness advantage under postsegregational conditions mediated by the [ccd.sub.F] system. We propose that [ccd.sub.Ech] acts as an antiaddiction module and, more generally, that the integration of TA systems in bacterial chromosomes could drive the evolution of plasmid-encoded ones and select toxins that are no longer recognized by the antiaddiction module.

Published
2008

2. What is the benefit to Escherichia coli of having multiple toxin-antitoxin systems in its genome?

Author

Tsilibaris, Virginie, Maenhaut-Michel, Genevieve, Mine, Natacha, and Van Melderen, Laurence

Subjects
Escherichia coli -- Physiological aspects, Escherichia coli -- Genetic aspects, Biological sciences
Abstract

The Escherichia coli K-12 chromosome encodes at least five proteic toxin-antitoxin (TA) systems. The mazEF and relBE systems have been extensively characterized and were proposed to be general stress response modules. On one hand, mazEF was proposed to act as a programmed cell death system that is triggered by a variety of stresses. On the other hand, relBE and mazEF were proposed to serve as growth modulators that induce a dormancy state during amino acid starvation. These conflicting hypotheses led us to test a possible synergetic effect of the five characterized E. coli TA systems on stress response. We compared the behavior of a wild-type strain and its derivative devoid of the five TA systems under various stress conditions. We were unable to detect TA-dependent programmed cell death under any of these conditions, even under conditions previously reported to induce it. Thus, our results rule out the programmed-cell-death hypothesis. Moreover, the presence of the five TA systems advantaged neither recovery from the different stresses nor cell growth under nutrient-limited conditions in competition experiments. This casts a doubt on whether TA systems significantly influence bacterial fitness and competitiveness during non-steady-state growth conditions.

Published
2007

3. Functional interactions between coexisting toxin-antitoxin systems of the ccd family in Escherichia coli O157:H7

Author

Wilbaux, Myriam, Mine, Natacha, Guerout, Anne-Marie, Mazel, Didier, and Van Melderen, Laurence

Subjects
Escherichia coli -- Genetic aspects, Escherichia coli -- Research, Bacterial toxins -- Research, Biological sciences
Abstract

Toxin-antitoxin (TA) systems are widely represented on mobile genetic elements as well as in bacterial chromosomes. TA systems encode a toxin and an antitoxin neutralizing it. We have characterized a homolog of the ccd TA system of the F plasmid ([ccd.sub.F]) located in the chromosomal backbone of the pathogenic O157:H7 Escherichia coli strain ([ccd.sub.O157]). The [ccd.sub.F] and the [ccd.sub.O157] systems coexist in O157:H7 isolates, as these pathogenic strains contain an F-related virulence plasmid carrying the [ccd.sub.F] system. We have shown that the chromosomal [ccd.sub.O157] system encodes functional toxin and antitoxin proteins that share properties with their plasmidic homologs: the CcdB[O.sub.157] toxin targets the DNA gyrase, and the CcdA[O.sub.157] antitoxin is degraded by the Lon protease. The [ccd.sub.O157] chromosomal system is expressed in its natural context, although promoter activity analyses revealed that its expression is weaker than that of [ccd.sub.F] [ccd.sub.O157] is unable to mediate postsegregational killing when cloned in an unstable plasmid, supporting the idea that chromosomal TA systems play a role(s) other than stabilization in bacterial physiology. Our cross-interaction experiments revealed that the chromosomal toxin is neutralized by the plasmidic antitoxin while the plasmidic toxin is not neutralized by the chromosomal antitoxin, whether expressed ectopically or from its natural context. Moreover, the ccdr system is able to mediate postsegregational killing in an E. coli strain harboring the [ccd.sub.O157] system in its chromosome. This shows that the plasmidic [ccd.sub.F] system is functional in the presence of its chromosomal counterpart.

Published
2007

7. New toxins homologous to ParE belonging to 3-component toxin-antitoxin systems in Escherichia coli O157:H7

Author

Hallez, Régis, Geeraerts, Damien, Sterckx, Yaan, Mine, Natacha, Loris, Remy, Van Melderen, Laurence, URBM, Facultés Universitaires Notre Dame de la Paix (FUNDP), Laboratoire de Génétique et physiologie bactérienne, Université libre de Bruxelles (ULB), Structural iolgy, VUB, and Génétique et physiologie Bactérienne

Subjects
Life Sciences
Abstract

International audience; Type II toxin-antitoxin (TA) systems are considered as protein pairs in which a specific toxin is associated with a specific antitoxin. We have identified a novel antitoxin family (paaA) that is associated with parE toxins. The paaA-parE gene pairs form an operon with a third component (paaR) encoding a transcriptional regulator. Two paralogous paaR-paaA-parE systems are found in E. coli O157:H7. Deletions of the paaA-parE pairs in O157:H7 allowed us to show that these systems are expressed in their natural host and that PaaA antitoxins specifically counteract toxicity of their associated ParE toxin. For the paaR2-paaA2-parE2 system, PaaR2 and Paa2-ParE2 complex are able to regulate the operon expression and both are necessary to ensure complete repression. The paaR2-paaA2-parE2 system mediates ClpXP-dependent post-segregational killing. The PaaR2 regulator appears to be essential for this function, most likely by maintaining an appropriate antitoxin:toxin ratio in steady-state conditions. Ectopic overexpression of ParE2 is bactericidal and is not resuscitated by PaaA2 expression. ParE2 co-localizes with the nucleoid, while it is diffusely distributed in the cytoplasm when PaaA2 is co-expressed. This indicates that ParE2 interacts with DNA-gyrase cycling on DNA and that co-expression of PaaA2 antitoxin sequesters ParE2 away from its target by protein-protein complex formation.

Published
2010

8. Characterization of the phd-doc and ccd toxin-antitoxin cassettes from Vibrio superintegrons.

Author

Guérout, Anne-Marie, Iqbal, Naeem, Mine, Natacha, Ducos-Galand, Magaly, Van Melderen, Laurence, Mazel, Didier, Guérout, Anne-Marie, Iqbal, Naeem, Mine, Natacha, Ducos-Galand, Magaly, Van Melderen, Laurence, and Mazel, Didier

Abstract

Toxin-antitoxin (TA) systems have been reported in the genomes of most bacterial species, and their role when located on the chromosome is still debated. TA systems are particularly abundant in the massive cassette arrays associated with chromosomal superintegrons (SI). Here, we describe the characterization of two superintegron cassettes encoding putative TA systems. The first is the phd-doc(SI) system identified in Vibrio cholerae N16961. We determined its distribution in 36 V. cholerae strains and among five V. metschnikovii strains. We show that this cassette, which is in position 72 of the V. cholerae N16961 cassette array, is functional, carries its own promoter, and is expressed from this location. Interestingly, the phd-doc(SI) system is unable to control its own expression, most likely due to the absence of any DNA-binding domain on the antitoxin. In addition, this SI system is able to cross talk with the canonical P1 phage system. The second cassette that we characterized is the ccd(Vfi) cassette found in the V. fischeri superintegron. We demonstrate that CcdB(Vfi) targets DNA-gyrase, as the canonical CcB(F) toxin, and that ccd(Vfi) regulates its expression in a fashion similar to the ccd(F) operon of the conjugative plasmid F. We also establish that this cassette is functional and expressed in its chromosomal context in V. fischeri CIP 103206T. We tested its functional interactions with the ccdAB(F) system and found that CcdA(Vfi) is specific for its associated CcdB(Vfi) and cannot prevent CcdB(F) toxicity. Based on these results, we discuss the possible biological functions of these TA systems in superintegrons., Journal Article, Research Support, Non-U.S. Gov't, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2013

9. The decay of the chromosomally encoded ccdO157 toxin-antitoxin system in the Escherichia coli species.

Author

Mine, Natacha, Guglielmini, Julien, Wilbaux, Myriam, Van Melderen, Laurence, Mine, Natacha, Guglielmini, Julien, Wilbaux, Myriam, and Van Melderen, Laurence

Abstract

The origin and the evolution of toxin-antitoxin (TA) systems remain to be uncovered. TA systems are abundant in bacterial chromosomes and are thought to be part of the flexible genome that originates from horizontal gene transfer. To gain insight into TA system evolution, we analyzed the distribution of the chromosomally encoded ccdO157 system in 395 natural isolates of Escherichia coli. It was discovered in the E. coli O157:H7 strain in which it constitutes a genomic islet between two core genes (folA and apaH). Our study revealed that the folA-apaH intergenic region is plastic and subject to insertion of foreign DNA. It could be composed (i) of a repetitive extragenic palindromic (REP) sequence, (ii) of the ccdO157 system or subtle variants of it, (iii) of a large DNA piece that contained a ccdAO157 antitoxin remnant in association with ORFs of unknown function, or (iv) of a variant of it containing an insertion sequence in the ccdAO157 remnant. Sequence analysis and functional tests of the ccdO157 variants revealed that 69% of the variants were composed of an active toxin and antitoxin, 29% were composed of an active antitoxin and an inactive toxin, and in 2% of the cases both ORFs were inactive. Molecular evolution analysis showed that ccdBO157 is under neutral evolution, suggesting that this system is devoid of any biological role in the E. coli species., Journal Article, Research Support, Non-U.S. Gov't, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2009

10. Chromosomal toxin-antitoxin systems may act as antiaddiction modules.

Author

Saavedra De Bast, Manuel, Mine, Natacha, Van Melderen, Laurence, Saavedra De Bast, Manuel, Mine, Natacha, and Van Melderen, Laurence

Abstract

Toxin-antitoxin (TA) systems are widespread among bacterial chromosomes and mobile genetic elements. Although in plasmids TA systems have a clear role in their vertical inheritance by selectively killing plasmid-free daughter cells (postsegregational killing or addiction phenomenon), the physiological role of chromosomally encoded ones remains under debate. The assumption that chromosomally encoded TA systems are part of stress response networks and/or programmed cell death machinery has been called into question recently by the observation that none of the five canonical chromosomally encoded TA systems in the Escherichia coli chromosome seem to confer any selective advantage under stressful conditions (V. Tsilibaris, G. Maenhaut-Michel, N. Mine, and L. Van Melderen, J. Bacteriol. 189:6101-6108, 2007). Their prevalence in bacterial chromosomes indicates that they might have been acquired through horizontal gene transfer. Once integrated in chromosomes, they might in turn interfere with their homologues encoded by mobile genetic elements. In this work, we show that the chromosomally encoded Erwinia chrysanthemi ccd (control of cell death) (ccd(Ech)) system indeed protects the cell against postsegregational killing mediated by its F-plasmid ccd (ccd(F)) homologue. Moreover, competition experiments have shown that this system confers a fitness advantage under postsegregational conditions mediated by the ccd(F) system. We propose that ccd(Ech) acts as an antiaddiction module and, more generally, that the integration of TA systems in bacterial chromosomes could drive the evolution of plasmid-encoded ones and select toxins that are no longer recognized by the antiaddiction module., Journal Article, Research Support, Non-U.S. Gov't, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2008

12. Purification and crystallization of Vibrio fischeri CcdB and its complexes with fragments of gyrase and CcdA.

Author

De Jonge, Natalie, Buts, Lieven, Vangelooven, Joris, Mine, Natacha, Van Melderen, Laurence, Wyns, Lode, Loris, Remy, De Jonge, Natalie, Buts, Lieven, Vangelooven, Joris, Mine, Natacha, Van Melderen, Laurence, Wyns, Lode, and Loris, Remy

Abstract

The ccd toxin-antitoxin module from the Escherichia coli F plasmid has a homologue on the Vibrio fischeri integron. The homologue of the toxin (CcdB(Vfi)) was crystallized in two different crystal forms. The first form belongs to space group I23 or I2(1)3, with unit-cell parameter a = 84.5 A, and diffracts to 1.5 A resolution. The second crystal form belongs to space group C2, with unit-cell parameters a = 58.5, b = 43.6, c = 37.5 A, beta = 110.0 degrees, and diffracts to 1.7 A resolution. The complex of CcdB(Vfi) with the GyrA14(Vfi) fragment of V. fischeri gyrase crystallizes in space group P2(1)2(1)2(1), with unit-cell parameters a = 53.5, b = 94.6, c = 58.1 A, and diffracts to 2.2 A resolution. The corresponding mixed complex with E. coli GyrA14(Ec) crystallizes in space group C2, with unit-cell parameters a = 130.1, b = 90.8, c = 58.1 A, beta = 102.6 degrees, and diffracts to 1.95 A. Finally, a complex between CcdB(Vfi) and part of the F-plasmid antitoxin CcdA(F) crystallizes in space group P2(1)2(1)2(1), with unit-cell parameters a = 46.9, b = 62.6, c = 82.0 A, and diffracts to 1.9 A resolution., Journal Article, Research Support, Non-U.S. Gov't, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2007

13. Structural basis for nucleic acid and toxin recognition of the bacterial antitoxin CcdA.

Author

Madl, Tobias, Van Melderen, Laurence, Mine, Natacha, Respondek, Michal, Oberer, Monika, Keller, Walter, Khatai, Leila, Zangger, Klaus, Madl, Tobias, Van Melderen, Laurence, Mine, Natacha, Respondek, Michal, Oberer, Monika, Keller, Walter, Khatai, Leila, and Zangger, Klaus

Abstract

Toxin-antitoxin systems are highly abundant in plasmids and bacterial chromosomes. They ensure plasmid maintenance by killing bacteria that have lost the plasmid. Their expression is autoregulated at the level of transcription. Here, we present the solution structure of CcdA, the antitoxin of the ccd system, as a free protein (16.7 kDa) and in complex with its cognate DNA (25.3 kDa). CcdA is composed of two distinct and independent domains: the N-terminal domain, responsible for DNA binding, which establishes a new family of the ribbon-helix-helix fold and the C-terminal region, which is responsible for the interaction with the toxin CcdB. The C-terminal domain is intrinsically unstructured and forms a tight complex with the toxin. We show that CcdA specifically recognizes a 6 bp palindromic DNA sequence within the operator-promoter (OP) region of the ccd operon and binds to DNA by insertion of the positively charged N-terminal beta-sheet into the major groove. The binding of up to three CcdA dimers to a 33mer DNA of its operator-promoter region was studied by NMR spectroscopy, isothermal titration calorimetry and single point mutation. The highly flexible C-terminal region of free CcdA explains its susceptibility to proteolysis by the Lon ATP-dependent protease., Journal Article, Research Support, Non-U.S. Gov't, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2006

14. Overproduction of the Lon protease triggers inhibition of translation in Escherichia coli: involvement of the yefM-yoeB toxin-antitoxin system.

Author

Christensen, Susanne K, Maenhaut, Geneviève, Mine, Natacha, Gottesman, Susan, Gerdes, Kenn, Van Melderen, Laurence, Christensen, Susanne K, Maenhaut, Geneviève, Mine, Natacha, Gottesman, Susan, Gerdes, Kenn, and Van Melderen, Laurence

Abstract

In Escherichia coli, the Lon ATP-dependent protease is responsible for degradation of several regulatory proteins and for the elimination of abnormal proteins. Previous studies have shown that the overproduction of Lon is lethal. Here, we showed that Lon overproduction specifically inhibits translation through at least two different pathways. We have identified one of the pathways as being the chromosomal yefM-yoeB toxin-antitoxin system. The existence of a second pathway is demonstrated by the observation that the deletion of the yefM-yoeB system did not completely suppress lethality and translation inhibition. We also showed that the YoeB toxin induces cleavage of translated mRNAs and that Lon overproduction specifically activates YoeB-dependent mRNAs cleavage. Indeed, none of the other identified chromosomal toxin-antitoxin systems (relBE, mazEF, chpB and dinJ-yafQ) was involved in Lon-dependent lethality, translation inhibition and mRNA cleavage even though the RelB and MazE antitoxins are known to be Lon substrates. Based on our results and other studies, translation inhibition appears to be the key element that triggers chromosomal toxin-antitoxin systems. We propose that under Lon overproduction conditions, translation inhibition is mediated by Lon degradation of a component of the YoeB-independent pathway, in turn activating the YoeB toxin by preventing synthesis of its unstable YefM antidote., Journal Article, Research Support, Non-U.S. Gov't, SCOPUS: ar.j, FLWIN, info:eu-repo/semantics/published

Published
2004

16. A novel MVMp-based vector system specifically designed to reduce the risk of replication-competent virus generation by homologous recombination

Author

Dupont, Francis, Karim, Abdelatif, Mine, Natacha, Avalosse, Bernard, Dumon, J.C. J.C., Dupont, Francis, Karim, Abdelatif, Mine, Natacha, Avalosse, Bernard, and Dumon, J.C. J.C.

Abstract

Recent work highlights the potential usefulness of MVM-based vectors as selective vehicles for cancer gene therapy (Dupont et al, Gene Therapy, 2000; 7: 790-796). To implement this strategy, however, it is necessary to develop optimized methods for producing high-titer, helper-free parvovirus stocks. Recombinants of MVMp (rMVMp) are currently generated by transiently co-transfecting permissive cell lines with a plasmid carrying the vector genome and a helper plasmid expressing the capsid genes (replaced with a foreign gene in the vector genome). The resulting stocks, however, are always heavily contaminated with replication-competent viruses (RCV), which precludes their use in vivo and particularly in gene therapy. In the present work we have developed a second-generation MVMp-based vector system specifically designed to reduce the probability of RCV generation by homologous recombination. We have constructed a new MVMp-based vector and a new helper genome with minimal sequence overlap and have used the degeneracy of the genetic code to further decrease vector-helper homology. In this system, the left homologous region was almost completely eliminated and the right sequence overlap was reduced to 74 nt with only 61% homology. We were thus able to substantially reduce (∼ 200 ×), but not completely eliminate, generation of contaminating viruses in medium-scale rMVMp preparations. Since the remaining sequence homology between the new vector and helper genomes is weak, our results suggest that contaminating viruses in this system are generated by nonhomologous recombination. It is important to note, unlike the autonomously replicating helper viruses produced from the first-generation vector/helper genomes, the contaminating viruses arising from the new packaging system cannot initiate secondary infection rounds (so they are not 'replication-competent viruses'). Our findings have important implications for the design of new MVMp-based vectors and for the construction of, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2001

18. Tumor-selective gene transduction and cell killing with an oncotropic autonomous parvovirus-based vector.

Author

Dupont, Florence, Avalosse, Bernard, Karim, A, Mine, Natacha, Bosseler, M, Maron, A, Van Den Broeke, Anne, Ghanem, Ghanem Elias, Burny, Arsène, Zeicher, M, Dupont, Florence, Avalosse, Bernard, Karim, A, Mine, Natacha, Bosseler, M, Maron, A, Van Den Broeke, Anne, Ghanem, Ghanem Elias, Burny, Arsène, and Zeicher, M

Abstract

A recombinant MVMp of the fibrotropic strain of minute virus of mice (MVMp) expressing the chloramphenicol acetyltransferase reporter gene was used to infect a series of biologically relevant cultured cells, normal or tumor-derived, including normal melanocytes versus melanoma cells, normal mammary epithelial cells versus breast adenocarcinoma cells, and normal neurons or astrocytes versus glioma cells. As a reference cell system we used normal human fibroblasts versus the SV40-transformed fibroblast cell line NB324K. After infection, we observed good expression of the reporter gene in the different tumor cell types, but only poor expression if any in the corresponding normal cells. We also constructed a recombinant MVMp expressing the green fluorescent protein reporter gene and assessed by flow cytometry the efficiency of gene transduction into the different target cells. At a multiplicity of infection of 30, we observed substantial transduction of the gene into most of the tumor cell types tested, but only marginal transduction into normal cells under the same experimental conditions. Finally, we demonstrated that a recombinant MVMp expressing the herpes simplex virus thymidine kinase gene can, in vitro, cause efficient killing of most tumor cell types in the presence of ganciclovir, whilst affecting normal proliferating cells only marginally if at all. However, in the same experimental condition, breast tumor cells appeared to be resistant to GCV-mediated cytotoxicity, possibly because these cells are not susceptible to the bystander effect. Our data suggest that MVMp-based vectors could prove useful as selective vehicles for anticancer gene therapy, particularly for in vivo delivery of cytotoxic effector genes into tumor cells., Comparative Study, Journal Article, info:eu-repo/semantics/published

Published
2000

20. Nanomolar range docetaxel treatment sensitizes MCF-7 cells to chemotherapy induced apoptosis, induces G2M arrest and phosphorylates bcl-2*

Author

Berchem, Guy, Bosseler, Manon, Mine, Natacha, Avalosse, Bernard, Berchem, Guy, Bosseler, Manon, Mine, Natacha, and Avalosse, Bernard

Abstract

Docetaxel (Taxotere(TM)), a member of the taxoid family of chemotherapy drugs is currently being tested in clinical trials simultaneously with other apoptosis inducing drugs like doxorubicin. We show, in vitro, in MCF-7 breast cancer cells that when it is used at doses as low as 5 nM, 24 hours before either doxorubicin or etoposide, docetaxel is capable of inducing a significant increase in cell death compared to the reverse sequence or simultaneous treatment. We further show that this increase in cell death is due to an increase in apoptosis, and that this sensitization coincides with a docetaxel induced G2-M arrest and phosphorylation of the bcl-2 oncoprotein. We speculate that this phosphorylation of the apoptosis blocker bcl-2 might be responsible for the sensitization, and we suggest a clinical study comparing a 24 hour docetaxel pretreatment to the current simultaneous schedules., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
1999

22. Method for concentrating and purifying recombinant autonomous parvovirus vectors designed for tumour-cell-targeted gene therapy

Author

Avalosse, Bernard, Dupont, Francis, Spegelaere, Pierre, Mine, Natacha, Burny, Arsène, Avalosse, Bernard, Dupont, Francis, Spegelaere, Pierre, Mine, Natacha, and Burny, Arsène

Abstract

Recent work has highlighted the use of parvoviruses as potential vectors for tumour-cell-targeted gene therapy. The oncotropic properties of the prototype strain of minute virus of mice (MVMp) suggest that this virus might be a useful vehicle for introducing selectively therapeutic genes, e.g. lymphokine or suicide genes, into tumour cells and preferentially expressing them. But the low titre of recombinant virus stocks (105-106 infectious units per ml) and their high level of contamination by cell proteins make it practically impossible to evaluate their efficacy in in vivo systems. A technique is described for producing cellular contaminant-free stocks of recombinant virus particles, with titres up to 5 x 108 IU/ml., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
1996

24. The Decay of the Chromosomally Encoded ccd O157 Toxin-Antitoxin System in the Escherichia coli Species.

Author

Mine, Natacha, Guglielmini, Julien, Wilbaux, Myriam, and Van Melderen, Laurence

Subjects
*ESCHERICHIA coli, *BACTERIAL genetics, *ESCHERICHIA, *GENETIC transformation, *MOLECULAR evolution, *DNA, *GENETICS
Abstract

The origin and the evolution of toxin-antitoxin (TA) systems remain to be uncovered. TA systems are abundant in bacterial chromosomes and are thought to be part of the flexible genome that originates from horizontal gene transfer. To gain insight into TA system evolution, we analyzed the distribution of the chromosomally encoded ccd0157 system in 395 natural isolates of Escherichia coli. It was discovered in the E. coli 0157:H7 strain in which it constitutes a genomic islet between two core genes (folA and apaH). Our study revealed that the folA-apaH intergenic region is plastic and subject to insertion of foreign DNA. It could be composed (i) of a lepetitive extragenic palindromic (REP) sequence, (ii) of the ccd0157 system or subtle variants of it, (iii) of a large DNA piece that contained a ccdA0157 antitoxin remnant in association with ORFs of unknown function, or (iv) of a variant of it containing an insertion sequence in the ccdA0157 remnant. Sequence analysis and functional tests of the ccd0157 variants revealed that 69% of the variants were composed of an active toxin and antitoxin, 29% were composed of an active antitoxin and an inactive toxin, and in 2% of the cases both ORFs were inactive. Molecular evolution analysis showed that ccdB0157 is under neutral evolution, suggesting that this system is devoid of any biological role in the E. coli species. [ABSTRACT FROM AUTHOR]

Published
2009
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25. Purification and crystallization of Vibrio fischeri CcdB and its complexes with fragments of gyrase and CcdA.

Author

Buts, Lieven, De Jonge, Natalie, Mine, Natacha, Wyns, Lode, Loris, Remy, Vangelooven, Joris, and Van Melderen, Laurence

Subjects
VIBRIO fischeri, TOXINS, CRYSTALLIZATION, OPTICAL diffraction, ESCHERICHIA coli, GRAM-negative bacteria, PLASMIDS
Abstract

The ccd toxin–antitoxin module from the Escherichia coli F plasmid has a homologue on the Vibrio fischeri integron. The homologue of the toxin (CcdBVfi) was crystallized in two different crystal forms. The first form belongs to space group I23 or I213, with unit-cell parameter a = 84.5 Å, and diffracts to 1.5 Å resolution. The second crystal form belongs to space group C2, with unit-cell parameters a = 58.5, b = 43.6, c = 37.5 Å, β = 110.0°, and diffracts to 1.7 Å resolution. The complex of CcdBVfi with the GyrA14Vfi fragment of V. fischeri gyrase crystallizes in space group P212121, with unit-cell parameters a = 53.5, b = 94.6, c = 58.1 Å, and diffracts to 2.2 Å resolution. The corresponding mixed complex with E. coli GyrA14Ec crystallizes in space group C2, with unit-cell parameters a = 130.1, b = 90.8, c = 58.1 Å, β = 102.6°, and diffracts to 1.95 Å. Finally, a complex between CcdBVfi and part of the F-plasmid antitoxin CcdAF crystallizes in space group P212121, with unit-cell parameters a = 46.9, b = 62.6, c = 82.0 Å, and diffracts to 1.9 Å resolution. [ABSTRACT FROM AUTHOR]

Published
2007
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26. Purification and crystallization of Vibrio fischeri CcdB and its complexes with fragments of gyrase and CcdA.

Author

De Jonge N, Buts L, Vangelooven J, Mine N, Van Melderen L, Wyns L, and Loris R

Subjects
Aliivibrio fischeri enzymology, Amino Acid Sequence, Bacterial Proteins chemistry, Base Sequence, Crystallization, DNA Primers, Molecular Sequence Data, Protein Conformation, Aliivibrio fischeri chemistry, Bacterial Proteins isolation & purification, DNA Gyrase chemistry
Abstract

The ccd toxin-antitoxin module from the Escherichia coli F plasmid has a homologue on the Vibrio fischeri integron. The homologue of the toxin (CcdB(Vfi)) was crystallized in two different crystal forms. The first form belongs to space group I23 or I2(1)3, with unit-cell parameter a = 84.5 A, and diffracts to 1.5 A resolution. The second crystal form belongs to space group C2, with unit-cell parameters a = 58.5, b = 43.6, c = 37.5 A, beta = 110.0 degrees, and diffracts to 1.7 A resolution. The complex of CcdB(Vfi) with the GyrA14(Vfi) fragment of V. fischeri gyrase crystallizes in space group P2(1)2(1)2(1), with unit-cell parameters a = 53.5, b = 94.6, c = 58.1 A, and diffracts to 2.2 A resolution. The corresponding mixed complex with E. coli GyrA14(Ec) crystallizes in space group C2, with unit-cell parameters a = 130.1, b = 90.8, c = 58.1 A, beta = 102.6 degrees, and diffracts to 1.95 A. Finally, a complex between CcdB(Vfi) and part of the F-plasmid antitoxin CcdA(F) crystallizes in space group P2(1)2(1)2(1), with unit-cell parameters a = 46.9, b = 62.6, c = 82.0 A, and diffracts to 1.9 A resolution.

Published
2007
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