Your search keyword '"Galand M"' showing total 268 results

251. An att site-based recombination reporter system for genome engineering and synthetic DNA assembly.

Author

Bland MJ, Ducos-Galand M, Val ME, and Mazel D

Subjects

Bacteriophages genetics, Cloning, Molecular, Escherichia coli drug effects, Escherichia coli genetics, Genes, Reporter, Microbial Sensitivity Tests, Open Reading Frames, Plasmids, beta-Lactamases genetics, Attachment Sites, Microbiological genetics, Genetic Engineering methods, Recombination, Genetic

Abstract

Background: Direct manipulation of the genome is a widespread technique for genetic studies and synthetic biology applications. The tyrosine and serine site-specific recombination systems of bacteriophages HK022 and ΦC31 are widely used for stable directional exchange and relocation of DNA sequences, making them valuable tools in these contexts. We have developed site-specific recombination tools that allow the direct selection of recombination events by embedding the attB site from each system within the β-lactamase resistance coding sequence (bla)., Results: The HK and ΦC31 tools were developed by placing the attB sites from each system into the signal peptide cleavage site coding sequence of bla. All possible open reading frames (ORFs) were inserted and tested for recombination efficiency and bla activity. Efficient recombination was observed for all tested ORFs (3 for HK, 6 for ΦC31) as shown through a cointegrate formation assay. The bla gene with the embedded attB site was functional for eight of the nine constructs tested., Conclusions: The HK/ΦC31 att-bla system offers a simple way to directly select recombination events, thus enhancing the use of site-specific recombination systems for carrying out precise, large-scale DNA manipulation, and adding useful tools to the genetics toolbox. We further show the power and flexibility of bla to be used as a reporter for recombination.

Published

2017

252. Differences in Integron Cassette Excision Dynamics Shape a Trade-Off between Evolvability and Genetic Capacitance.

Author

Loot C, Nivina A, Cury J, Escudero JA, Ducos-Galand M, Bikard D, Rocha EP, and Mazel D

Subjects

Computational Biology, Evolution, Molecular, Interspersed Repetitive Sequences, Adaptation, Biological, Bacteria genetics, Integrons, Recombination, Genetic

Abstract

Integrons ensure a rapid and "on demand" response to environmental stresses driving bacterial adaptation. They are able to capture, store, and reorder functional gene cassettes due to site-specific recombination catalyzed by their integrase. Integrons can be either sedentary and chromosomally located or mobile when they are associated with transposons and plasmids. They are respectively called sedentary chromosomal integrons (SCIs) and mobile integrons (MIs). MIs are key players in the dissemination of antibiotic resistance genes. Here, we used in silico and in vivo approaches to study cassette excision dynamics in MIs and SCIs. We show that the orientation of cassette arrays relative to replication influences attC site folding and cassette excision by placing the recombinogenic strands of attC sites on either the leading or lagging strand template. We also demonstrate that stability of attC sites and their propensity to form recombinogenic structures also regulate cassette excision. We observe that cassette excision dynamics driven by these factors differ between MIs and SCIs. Cassettes with high excision rates are more commonly found on MIs, which favors their dissemination relative to SCIs. This is especially true for SCIs carried in the Vibrio genus, where maintenance of large cassette arrays and vertical transmission are crucial to serve as a reservoir of adaptive functions. These results expand the repertoire of known processes regulating integron recombination that were previously established and demonstrate that, in terms of cassette dynamics, a subtle trade-off between evolvability and genetic capacitance has been established in bacteria. IMPORTANCE The integron system confers upon bacteria a rapid adaptation capability in changing environments. Specifically, integrons are involved in the continuous emergence of bacteria resistant to almost all antibiotic treatments. The international situation is critical, and in 2050, the annual number of deaths caused by multiresistant bacteria could reach 10 million, exceeding the incidence of deaths related to cancer. It is crucial to increase our understanding of antibiotic resistance dissemination and therefore integron recombination dynamics to find new approaches to cope with the worldwide problem of multiresistance. Here, we studied the dynamics of recombination and dissemination of gene encoding cassettes carried on integrons. By combining in silico and in vivo analyses, we show that cassette excision is highly regulated by replication and by the intrinsic properties of cassette recombination sites. We also demonstrated differences in the dynamics of cassette recombination between mobile and sedentary chromosomal integrons (MIs and SCIs). For MIs, a high cassette recombination rate is favored and timed to conditions when generating diversity (upon which selection can act) allows for a rapid response to environmental conditions and stresses. In contrast, for SCIs, cassette excisions are less frequent, limiting cassette loss and ensuring a large pool of cassettes. We therefore confirm a role of SCIs as reservoirs of adaptive functions and demonstrate that the remarkable adaptive success of integron recombination system is due to its intricate regulation., (Copyright © 2017 Loot et al.)

Published

2017

253. Fuse or die: how to survive the loss of Dam in Vibrio cholerae.

Author

Val ME, Kennedy SP, Soler-Bistué AJ, Barbe V, Bouchier C, Ducos-Galand M, Skovgaard O, and Mazel D

Subjects

Chromosomes, Bacterial, DNA Replication, Gene Deletion, Gene Expression Regulation, Bacterial, Microbial Viability, Recombination, Genetic, Site-Specific DNA-Methyltransferase (Adenine-Specific) deficiency, Site-Specific DNA-Methyltransferase (Adenine-Specific) metabolism, Vibrio cholerae genetics

Abstract

Dam methylates GATC sequences in γ-proteobacteria genomes, regulating several cellular functions including replication. In Vibrio cholerae, which has two chromosomes, Dam is essential for viability, owing to its role in chr2 replication initiation. In this study, we isolated spontaneous mutants of V. cholerae that were able to survive the deletion of dam. In these mutants, homologous recombination and chromosome dimer resolution are essential, unless DNA mismatch repair is inactivated. Furthermore, the initiator of chr2 replication, RctB, is no longer required. We show that, instead, replication of chr2 is insured by spontaneous fusion with chr1 and piggybacking its replication machinery. We report that natural fusion of chr1 and chr2 occurred by two distinct recombination pathways: homologous recombination between repeated IS elements and site-specific recombination between dif sites. Lastly, we observed a preferential fusion of the two chromosomes in their terminus of replication., (© 2013 John Wiley & Sons Ltd.)

Published

2014

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

Author

Guérout AM, Iqbal N, Mine N, Ducos-Galand M, Van Melderen L, and Mazel D

Subjects

Antitoxins genetics, Escherichia coli genetics, Polymerase Chain Reaction, Reverse Transcriptase Polymerase Chain Reaction, Toxins, Biological genetics, Vibrio cholerae genetics, Integrons genetics, Vibrio genetics

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.

Published

2013

255. Aerosol growth in Titan's ionosphere.

Author

Lavvas P, Yelle RV, Koskinen T, Bazin A, Vuitton V, Vigren E, Galand M, Wellbrock A, Coates AJ, Wahlund JE, Crary FJ, and Snowden D

Abstract

Photochemically produced aerosols are common among the atmospheres of our solar system and beyond. Observations and models have shown that photochemical aerosols have direct consequences on atmospheric properties as well as important astrobiological ramifications, but the mechanisms involved in their formation remain unclear. Here we show that the formation of aerosols in Titan's upper atmosphere is directly related to ion processes, and we provide a complete interpretation of observed mass spectra by the Cassini instruments from small to large masses. Because all planetary atmospheres possess ionospheres, we anticipate that the mechanisms identified here will be efficient in other environments as well, modulated by the chemical complexity of each atmosphere.

Published

2013

256. Replicative resolution of integron cassette insertion.

Author

Loot C, Ducos-Galand M, Escudero JA, Bouvier M, and Mazel D

Subjects

Attachment Sites, Microbiological, Bacterial Proteins metabolism, DNA Helicases metabolism, DNA, Cruciform metabolism, Endodeoxyribonucleases metabolism, Escherichia coli Proteins metabolism, DNA Replication, Integrons, Recombination, Genetic

Abstract

Site-specific recombination catalyzed by tyrosine recombinases follows a common pathway consisting of two consecutive strand exchanges. The first strand exchange generates a Holliday junction (HJ), which is resolved by a second strand exchange. In integrons, attC sites recombine as folded single-stranded substrates. Only one of the two attC site strands, the bottom one, is efficiently bound and cleaved by the integrase during the insertion of gene cassettes at the double-stranded attI site. Due to the asymmetry of this complex, a second strand exchange on the attC bottom strand (bs) would form linearized abortive recombination products. We had proposed that HJ resolution would rely on an uncharacterized mechanism, probably replication. Using an attC site carried on a plasmid with each strand specifically tagged, we followed the destiny of each strand after recombination. We demonstrated that only one strand, the one carrying the attC bs, is exchanged. Furthermore, we show that the recombination products contain the attC site bs and its entire de novo synthesized complementary strand. Therefore, we demonstrate the replicative resolution of single-strand recombination in integrons and rule out the involvement of a second strand exchange of any kind in the attC×attI reaction.

Published

2012

257. Genome engineering in Vibrio cholerae: a feasible approach to address biological issues.

Author

Val ME, Skovgaard O, Ducos-Galand M, Bland MJ, and Mazel D

Subjects

Bacterial Proteins metabolism, Cholera microbiology, DNA Replication genetics, DNA, Cruciform genetics, Gene Expression Regulation, Bacterial, Homologous Recombination genetics, Humans, Site-Specific DNA-Methyltransferase (Adenine-Specific) metabolism, Bacterial Proteins genetics, Chromosomes, Bacterial genetics, Genome, Bacterial genetics, Replication Origin genetics, Site-Specific DNA-Methyltransferase (Adenine-Specific) genetics, Vibrio cholerae genetics

Abstract

Although bacteria with multipartite genomes are prevalent, our knowledge of the mechanisms maintaining their genome is very limited, and much remains to be learned about the structural and functional interrelationships of multiple chromosomes. Owing to its bi-chromosomal genome architecture and its importance in public health, Vibrio cholerae, the causative agent of cholera, has become a preferred model to study bacteria with multipartite genomes. However, most in vivo studies in V. cholerae have been hampered by its genome architecture, as it is difficult to give phenotypes to a specific chromosome. This difficulty was surmounted using a unique and powerful strategy based on massive rearrangement of prokaryotic genomes. We developed a site-specific recombination-based engineering tool, which allows targeted, oriented, and reciprocal DNA exchanges. Using this genetic tool, we obtained a panel of V. cholerae mutants with various genome configurations: one with a single chromosome, one with two chromosomes of equal size, and one with both chromosomes controlled by identical origins. We used these synthetic strains to address several biological questions--the specific case of the essentiality of Dam methylation in V. cholerae and the general question concerning bacteria carrying circular chromosomes--by looking at the effect of chromosome size on topological issues. In this article, we show that Dam, RctB, and ParA2/ParB2 are strictly essential for chrII origin maintenance, and we formally demonstrate that the formation of chromosome dimers increases exponentially with chromosome size., Competing Interests: The authors have declared that no competing interests exist.

Published

2012

258. A natural system of chromosome transfer in Yersinia pseudotuberculosis.

Author

Lesic B, Zouine M, Ducos-Galand M, Huon C, Rosso ML, Prévost MC, Mazel D, and Carniel E

Subjects

Adaptation, Physiological, Biological Evolution, Escherichia coli genetics, Plasmids genetics, Yersinia pseudotuberculosis pathogenicity, Chromosomes, Bacterial, DNA Transposable Elements genetics, Gene Transfer, Horizontal, Yersinia pseudotuberculosis genetics

Abstract

The High Pathogenicity Island of Yersinia pseudotuberculosis IP32637 was previously shown to be horizontally transferable as part of a large chromosomal segment. We demonstrate here that at low temperature other chromosomal loci, as well as a non-mobilizable plasmid (pUC4K), are also transferable. This transfer, designated GDT4 (Generalized DNA Transfer at 4°C), required the presence of an IP32637 endogenous plasmid (pGDT4) that carries several mobile genetic elements and a conjugation machinery. We established that cure of this plasmid or inactivation of its sex pilus fully abrogates this process. Analysis of the mobilized pUC4K recovered from transconjugants revealed the insertion of one of the pGDT4-borne ISs, designated ISYps1, at different sites on the transferred plasmid molecules. This IS belongs to the IS6 family, which moves by replicative transposition, and thus could drive the formation of cointegrates between pGDT4 and the host chromosome and could mediate the transfer of chromosomal regions in an Hfr-like manner. In support of this model, we show that a suicide plasmid carrying ISYps1 is able to integrate itself, flanked by ISYps1 copies, at multiple locations into the Escherichia coli chromosome. Furthermore, we demonstrate the formation of RecA-independent cointegrates between the ISYps1-harboring plasmid and an ISYps1-free replicon, leading to the passive transfer of the non-conjugative plasmid. We thus demonstrate here a natural mechanism of horizontal gene exchange, which is less constrained and more powerful than the classical Hfr mechanism, as it only requires the presence of an IS6-type element on a conjugative replicon to drive the horizontal transfer of any large block of plasmid or chromosomal DNA. This natural mechanism of chromosome transfer, which occurs under conditions mimicking those found in the environment, may thus play a significant role in bacterial evolution, pathogenesis, and adaptation to new ecological niches., Competing Interests: The authors have declared that no competing interests exist.

Published

2012

259. The relaxed requirements of the integron cleavage site allow predictable changes in integron target specificity.

Author

Frumerie C, Ducos-Galand M, Gopaul DN, and Mazel D

Subjects

Attachment Sites, Microbiological, Base Sequence, DNA chemistry, DNA metabolism, Integrases genetics, Integrases metabolism, Mutation, Integrons, Recombination, Genetic

Abstract

Integrons are able to incorporate exogenous genes embedded in mobile cassettes, by a site-specific recombination mechanism. Gene cassettes are collected at the attI site, via an integrase mediated recombination between the cassette recombination site, attC, and the attI site. Interestingly, only three nucleotides are conserved between attC and attI. Here, we have determined the requirements of these in recombination, using the recombination machinery from the paradigmatic class 1 integron. We found that, strikingly, the only requirement is to have identical first nucleotide in the two partner sites, but not the nature of this nucleotide. Furthermore, we showed that the reaction is close to wild-type efficiency when one of the nucleotides in the second or third position is mutated in either the attC or the attI1 site, while identical mutations can have drastic effects when both sites are mutated, resulting in a dramatic decrease of recombination frequency compared to that of the wild-type sites. Finally, we tested the functional role of the amino acids predicted from structural data to interact with the cleavage site. We found that, if the recombination site triplets are tolerant to mutation, the amino acids interacting with them are extremely constrained.

Published

2010

260. Structural features of single-stranded integron cassette attC sites and their role in strand selection.

Author

Bouvier M, Ducos-Galand M, Loot C, Bikard D, and Mazel D

Subjects

Base Sequence, DNA, Bacterial genetics, DNA, Single-Stranded genetics, Escherichia coli chemistry, Molecular Sequence Data, Mutation, Nucleic Acid Conformation, Recombination, Genetic, Sequence Alignment, Attachment Sites, Microbiological, DNA, Bacterial chemistry, DNA, Single-Stranded chemistry, Escherichia coli genetics, Integrons

Abstract

We recently showed that cassette integration and deletion in integron platforms were occurring through unconventional site-specific recombination reactions involving only the bottom strand of attC sites. The lack of sequence conservation among attC sites led us to hypothesize that sequence-independent structural recognition determinants must exist within attC sites. The structural data obtained from a synaptic complex of the Vibrio cholerae integrase with the bottom strand of an attC site has shown the importance of extra helical bases (EHB) inside the stem-loop structure formed from the bottom strand. Here, we systematically determined the contribution of three structural elements common to all known single-stranded attC site recombination substrates (the EHBs, the unpaired central spacer (UCS), and the variable terminal structure (VTS)) to strand choice and recombination. Their roles have been evaluated in vivo in the attIxattC reaction context using the suicide conjugation assay we previously developed, but also in an attCxattC reaction using a deletion assay. Conjugation was used to deliver the attC sites in single-stranded form. Our results show that strand choice is primarily directed by the first EHB, but the presence of the two other EHBs also serves to increase this strand selection. We found that the structure of the central spacer is essential to achieve high level recombination of the bottom strand, suggesting a dual role for this structure in active site exclusion and for hindering the reverse reaction after the first strand exchange. Moreover, we have shown that the VTS has apparently no role in strand selectivity., Competing Interests: The authors have declared that no competing interests exist.

Published

2009

261. Susceptibility of Neisseria gonorrhoeae to antimicrobial peptides from amphibian skin, dermaseptin, and derivatives.

Author

Zairi A, Tangy F, Ducos-Galand M, Alonso JM, and Hani K

Subjects

Amino Acid Sequence, Antimicrobial Cationic Peptides chemical synthesis, Humans, Microbial Sensitivity Tests, Molecular Sequence Data, Peptide Fragments chemical synthesis, Peptides chemical synthesis, Amphibian Proteins pharmacology, Anti-Infective Agents pharmacology, Antimicrobial Cationic Peptides pharmacology, Neisseria gonorrhoeae drug effects, Peptide Fragments pharmacology

Abstract

We evaluated the antimicrobial effect of antimicrobial peptides from frog skin belonging to the dermaseptin family against reference and clinical Neisseria gonorrhoeae strains, including penicillin-resistant strains. Dermaseptin S4 exhibited anti-N. gonorrhoeae activity against all strains with MICs ranging between 10 and 100 microg/mL. We then used derivatives of DS4 and determined the anti-N. gonorrhoeae activity of each of analogs. All the derivatives showed antimicrobial activity. Among the different molecules tested, we found that dermaseptins K4S4 (1-16)a and K4S4 (1-28) were the more potent to inhibit N. gonorrhoeae growth with MIC of 10 microg/mL against all strains.

Published

2007

262. Continuing diversification of Neisseria meningitidis W135 as a primary cause of meningococcal disease after emergence of the serogroup in 2000.

Author

Taha MK, Giorgini D, Ducos-Galand M, and Alonso JM

Subjects

Bacterial Typing Techniques, Base Sequence, DNA Fingerprinting methods, DNA Primers, Electrophoresis, Gel, Pulsed-Field, France epidemiology, Humans, Meningitis, Meningococcal epidemiology, Neisseria meningitidis classification, Neisseria meningitidis genetics, Oligodeoxyribonucleotides, Phenotype, Phylogeny, Meningitis, Meningococcal diagnosis, Neisseria meningitidis isolation & purification

Abstract

The occurrence of a clonal outbreak of serogroup W135 (of the electrophoretic type 37 [ET-37] clonal complex) meningococcal disease among Hajj pilgrims in 2000 has led to enhanced surveillance of the evolution of this particular serogroup, formerly considered rare, in invasive infections. Since the first case of meningococcal disease due to a serogroup W135 strain was detected in France in 1994, all isolates were characterized phenotypically. We further used phenotypic and genotypic approaches to type the 101 serogroup W135 strains isolated from patients with invasive meningococcal diseases in France in 2001 and 2002. Overall, 55% of these isolates had Hajj strain-related phenotypes (60 and 52% in 2001 and 2002, respectively), although only 45% belonged to the ET-37 clonal complex. Moreover, pulsed-field gel electrophoresis of the ET-37 clonal complex isolates showed that only 32% of the serogroup W135 isolates were indistinguishable from the 2000 Hajj-related strain. Our results suggest the continuous emergence of new genetic lineages of serogroup W135 independently of the 2000 global outbreak.

Published

2004

263. Brown fat and nonshivering thermogenesis in the gray mouse lemur (Microcebus murinus).

Author

Génin F, Nibbelink M, Galand M, Perret M, and Ambid L

Subjects

Adipose Tissue, Brown cytology, Animals, Arousal physiology, Blotting, Western, Carrier Proteins metabolism, Circadian Rhythm, Female, Injections, Ion Channels, Isoproterenol pharmacology, Male, Membrane Proteins metabolism, Metabolism drug effects, Mitochondrial Proteins, Oxygen Consumption, Sleep Stages physiology, Uncoupling Protein 1, Adipose Tissue, Brown physiology, Cheirogaleidae physiology, Thermogenesis physiology

Abstract

The gray mouse lemur Microcebus murinus is a rare example of a primate exhibiting daily torpor. In captive animals, we examined the metabolic rate during arousal from torpor and showed that this process involved nonshivering thermogenesis (NST). Under thermoneutrality (28 degrees C), warming-up from daily torpor (body temperature <33 degrees C) involved a rapid (<5 min) increase of O(2) consumption that was proportional to the depth of torpor (n = 8). The injection of a beta-adrenergic agonist (isoproterenol) known to elicit NST induced a dose-dependent increase in metabolic rate (n = 8). Moreover, maximum thermogenesis was increased by cold exposure. For the first time in this species, anatomic and histological examination using an antibody against uncoupling protein (UCP) specifically demonstrated the presence of brown fat. With the use of Western blotting with the same antibody, we showed a likely increase in UCP expression after cold exposure, suggesting that NST is also used to survive low ambient temperatures in this tropical species.

Published

2003

264. [Radiotherapy of breast cancer and preparation of the patient].

Author

Galand M, Fontaine O, and Salah D

Subjects

Behavior Therapy, Breast Neoplasms psychology, Female, Humans, Middle Aged, Stress, Psychological prevention & control, Breast Neoplasms radiotherapy, Patient Education as Topic methods

Published

1990

265. [Professional education project--nursing students].

Author

Galopin A and Galand MT

Subjects

France, Humans, Curriculum, Education, Nursing, Psychiatric Nursing education

Published

1990

266. [Multiple plaque scleroderma with seroconversion for Borrelia burgdorferi].

Author

Maleville J, Baranton G, Klene C, Galand M, Sanciaume C, Hajjer M, Fontan I, and Taieb A

Subjects

Child, Female, Humans, Serologic Tests, Borrelia Infections diagnosis, Scleroderma, Localized etiology

Published

1987

267. [Modern data on sinus infection].

Author

Galand M

Subjects

Humans, Sinusitis

Published

1966

268. [Tracheotomy].

Author

Galand M

Subjects

Humans, Tracheotomy

Published

1966