| scholarly article | Q13442814 |
| P50 | author | Guillaume Cambray | Q58443255 |
| Didier Mazel | Q33206167 | ||
| Ivan Erill | Q42055953 | ||
| Susana Campoy | Q42401480 | ||
| Jordi Barbé | Q42401487 | ||
| P2093 | author name string | Neus Sanchez-Alberola | |
| Marie-Cécile Ploy | |||
| Sandra Da Re | |||
| Bruno González-Zorn | |||
| Émilie Guerin | |||
| P2860 | cites work | Structural basis for broad DNA-specificity in integron recombination | Q56899134 |
| Induction of the SOS response by new 4-quinolones | Q68220052 | ||
| High and low UV-dose responses in SOS-induction of the precise excision of transposons tn1, Tn5 and Tn10 in Escherichia coli | Q74697501 | ||
| Integrons: mobilizable platforms that promote genetic diversity in bacteria | Q80473175 | ||
| A reexamination of information theory-based methods for DNA-binding site identification | Q21284367 | ||
| CLUSTAL W: improving the sensitivity of progressive multiple sequence alignment through sequence weighting, position-specific gap penalties and weight matrix choice | Q24286950 | ||
| Integrons in Xanthomonas: a source of species genome diversity | Q24555753 | ||
| Comparative analysis of superintegrons: engineering extensive genetic diversity in the Vibrionaceae | Q24561864 | ||
| MUSCLE: multiple sequence alignment with high accuracy and high throughput | Q24613456 | ||
| Toxin gene expression by shiga toxin-producing Escherichia coli: the role of antibiotics and the bacterial SOS response | Q24647531 | ||
| Dispersal and regulation of an adaptive mutagenesis cassette in the bacteria domain | Q25257029 | ||
| Recovery and evolutionary analysis of complete integron gene cassette arrays from Vibrio | Q25257603 | ||
| WebLogo: A Sequence Logo Generator | Q27860646 | ||
| One-step inactivation of chromosomal genes in Escherichia coli K-12 using PCR products | Q27860842 | ||
| Selection of conserved blocks from multiple alignments for their use in phylogenetic analysis | Q27860925 | ||
| T-Coffee: A novel method for fast and accurate multiple sequence alignment | Q27860999 | ||
| A Simple, Fast, and Accurate Algorithm to Estimate Large Phylogenies by Maximum Likelihood | Q27861000 | ||
| TreeView: an application to display phylogenetic trees on personal computers | Q27861074 | ||
| A novel family of potentially mobile DNA elements encoding site-specific gene-integration functions: integrons | Q27976520 | ||
| LexA-independent DNA damage-mediated induction of gene expression in Myxococcus xanthus | Q28187541 | ||
| LexA-binding sequences in Gram-positive and cyanobacteria are closely related | Q28188912 | ||
| Identification of the Rhodobacter sphaeroides SOS box | Q28276441 | ||
| Inverse correlation between promoter strength and excision activity in class 1 integrons | Q28472257 | ||
| Characterization of Mycobacterium tuberculosis LexA: recognition of a Cheo (Bacillus-type SOS) box | Q28486727 | ||
| The SOS response controls integron recombination. | Q29346620 | ||
| Geobacter sulfurreducens has two autoregulated lexA genes whose products do not bind the recA promoter: differing responses of lexA and recA to DNA damage | Q29346626 | ||
| The Leptospira interrogans lexA gene is not autoregulated | Q29346634 | ||
| Widespread distribution of a lexA-regulated DNA damage-inducible multiple gene cassette in the Proteobacteria phylum. | Q29346678 | ||
| Cohabitation of two different lexA regulons in Pseudomonas putida. | Q29346851 | ||
| Use of chromosomal integron arrays as a phylogenetic typing system for Vibrio cholerae pandemic strains. | Q30361328 | ||
| Recombination activity of a distinctive integron-gene cassette system associated with Pseudomonas stutzeri populations in soil. | Q30762200 | ||
| Mutagenesis and homology modeling of the Tn21 integron integrase IntI1. | Q30858009 | ||
| Identification of key structural determinants of the IntI1 integron integrase that influence attC x attI1 recombination efficiency | Q33299818 | ||
| The evolution of class 1 integrons and the rise of antibiotic resistance | Q33335636 | ||
| Insights and inferences about integron evolution from genomic data | Q33339041 | ||
| Directed enzyme evolution via small and effective neutral drift libraries | Q33377922 | ||
| Genome sequence of Vibrio splendidus: an abundant planctonic marine species with a large genotypic diversity | Q33429705 | ||
| Structural features of single-stranded integron cassette attC sites and their role in strand selection | Q33500139 | ||
| The relaxed requirements of the integron cleavage site allow predictable changes in integron target specificity | Q33608908 | ||
| Conjugative DNA transfer induces the bacterial SOS response and promotes antibiotic resistance development through integron activation. | Q33727996 | ||
| Point mutations in the integron integrase IntI1 that affect recombination and/or substrate recognition | Q33738103 | ||
| The biological cost of antibiotic resistance | Q33745219 | ||
| Super-integrons | Q33836570 | ||
| Integron integrases possess a unique additional domain necessary for activity | Q33997057 | ||
| New carbenicillin-hydrolyzing beta-lactamase (CARB-7) from Vibrio cholerae non-O1, non-O139 strains encoded by the VCR region of the V. cholerae genome | Q34109811 | ||
| SOS response promotes horizontal dissemination of antibiotic resistance genes | Q34285480 | ||
| Expression of antibiotic resistance genes in the integrated cassettes of integrons | Q34307018 | ||
| Antibiotic-induced SOS response promotes horizontal dissemination of pathogenicity island-encoded virulence factors in staphylococci | Q34409956 | ||
| A distinctive class of integron in the Vibrio cholerae genome. | Q34465137 | ||
| New approaches to combating antimicrobial drug resistance. | Q34481042 | ||
| Integrons: agents of bacterial evolution. | Q34569146 | ||
| The evolutionary history of chromosomal super-integrons provides an ancestry for multiresistant integrons. | Q34624290 | ||
| Aeons of distress: an evolutionary perspective on the bacterial SOS response. | Q34691348 | ||
| Excision and integration of cassettes by an integron integrase of Nitrosomonas europaea | Q34768570 | ||
| The role of integrons in antibiotic resistance gene capture | Q34796504 | ||
| Resistance integrons and super-integrons | Q35732086 | ||
| Elucidation of regulatory elements that control damage induction and competence induction of the Bacillus subtilis SOS system | Q36122205 | ||
| Phage regulatory circuits and virulence gene expression | Q36175321 | ||
| LIKELIHOOD OF ANCESTOR STATES IN ADAPTIVE RADIATION. | Q36387652 | ||
| Lex marks the spot: the virulent side of SOS and a closer look at the LexA regulon | Q36624120 | ||
| Mutagenesis and inducible responses to deoxyribonucleic acid damage in Escherichia coli | Q37060983 | ||
| Analysis by mutagenesis of a chromosomal integron integrase from Shewanella amazonensis SB2BT. | Q37110853 | ||
| Mechanism of specific LexA cleavage: autodigestion and the role of RecA coprotease | Q37361177 | ||
| Gene cassettes and cassette arrays in mobile resistance integrons. | Q37470852 | ||
| Integrons. | Q37779789 | ||
| Integron cassette insertion: a recombination process involving a folded single strand substrate | Q38317844 | ||
| Characterization of Xanthomonas axonopodis pv. citri LexA: recognition of the LexA binding site | Q38360017 | ||
| Mutational analysis of the Rhizobium etli recA operator. | Q39568800 | ||
| The IntI-like tyrosine recombinase of Shewanella oneidensis is active as an integron integrase | Q39678449 | ||
| IntI2 integron integrase in Tn7. | Q39678456 | ||
| Characterization of the class 3 integron and the site-specific recombination system it determines | Q39679237 | ||
| An analysis of the evolutionary relationships of integron integrases, with emphasis on the prevalence of class 1 integrons in Escherichia coli isolates from clinical and environmental origins | Q39827694 | ||
| Identification of operators and promoters that control SXT conjugative transfer | Q40001121 | ||
| CARB-9, a carbenicillinase encoded in the VCR region of Vibrio cholerae non-O1, non-O139 belongs to a family of cassette-encoded beta-lactamases. | Q40165566 | ||
| Genetic elements involved in Tn21 site-specific integration, a novel mechanism for the dissemination of antibiotic resistance genes. | Q41207440 | ||
| Whole-genome reciprocal BLAST analysis reveals that planctomycetes do not share an unusually large number of genes with Eukarya and Archaea. | Q41867112 | ||
| Expression of canonical SOS genes is not under LexA repression in Bdellovibrio bacteriovorus | Q41912286 | ||
| New qnr gene cassettes associated with superintegron repeats in Vibrio cholerae O1 | Q41970495 | ||
| Comparative study of class 1 integron and Vibrio cholerae superintegron integrase activities | Q42025330 | ||
| xFITOM: a generic GUI tool to search for transcription factor binding sites | Q42055901 | ||
| Activation of the Vibrio cholerae SOS response is not required for intestinal cholera toxin production or colonization | Q42077201 | ||
| Identification of additional genes belonging to the LexA regulon in Escherichia coli | Q42486422 | ||
| Discovery and distribution of super-integrons among pseudomonads. | Q42664498 | ||
| Mobile gene cassettes: a fundamental resource for bacterial evolution | Q43169183 | ||
| Ciprofloxacin and trimethoprim cause phage induction and virulence modulation in Staphylococcus aureus | Q43181776 | ||
| beta-lactam antibiotics induce the SOS response and horizontal transfer of virulence factors in Staphylococcus aureus | Q43259790 | ||
| Bacterial resistance evolution by recruitment of super-integron gene cassettes | Q43959220 | ||
| A new regulatory DNA motif of the gamma subclass Proteobacteria: identification of the LexA protein binding site of the plant pathogen Xylella fastidiosa | Q44213589 | ||
| SOS response induction by beta-lactams and bacterial defense against antibiotic lethality | Q45016731 | ||
| Reconstruction of the evolutionary history of the LexA-binding sequence. | Q45140789 | ||
| Molecular differentiation of common promoters in Salmonella class 1 integrons | Q48083273 | ||
| Genetic basis for dissemination of armA. | Q48129108 | ||
| Integron-encoded IntI integrases preferentially recognize the adjacent cognate attI site in recombination with a 59-be site | Q48271993 | ||
| Information content of individual genetic sequences. | Q49947049 | ||
| Upstream of the SOS response: figure out the trigger. | Q51140578 | ||
| Diversity and relative strength of tandem promoters for the antibiotic-resistance genes of several integrons. | Q54205679 | ||
| Nature of the SOS-inducing signal in Escherichia coli. The involvement of DNA replication. | Q54716069 | ||
| P433 | issue | 1 | |
| P921 | main subject | adaptive trait | Q23072093 |
| P304 | page(s) | 6 | |
| P577 | publication date | 2011-04-30 | |
| P1433 | published in | Mobile DNA | Q15816655 |
| P1476 | title | Prevalence of SOS-mediated control of integron integrase expression as an adaptive trait of chromosomal and mobile integrons | |
| P478 | volume | 2 |
| Q28485389 | A trade-off between the fitness cost of functional integrases and long-term stability of integrons |
| Q35866017 | An SOS Regulon under Control of a Noncanonical LexA-Binding Motif in the Betaproteobacteria |
| Q29346732 | Analysis of the SOS response of Vibrio and other bacteria with multiple chromosomes |
| Q33580265 | Antibiotics trigger initiation of SCCmec transfer by inducing SOS responses |
| Q39451464 | Antimicrobial resistance in the next 30 years, humankind, bugs and drugs: a visionary approach |
| Q34742045 | Antimicrobial use in aquaculture re-examined: its relevance to antimicrobial resistance and to animal and human health. |
| Q37998201 | Are humans increasing bacterial evolvability? |
| Q38012391 | Bacterial stress responses as determinants of antimicrobial resistance |
| Q36833074 | Characterization of the phd-doc and ccd toxin-antitoxin cassettes from Vibrio superintegrons. |
| Q52882941 | Class 1 integrons are low-cost structures in Escherichia coli. |
| Q38724119 | Comparative genomics of the DNA damage-inducible network in the Patescibacteria. |
| Q35682366 | Comprehensive Functional Analysis of the 18 Vibrio cholerae N16961 Toxin-Antitoxin Systems Substantiates Their Role in Stabilizing the Superintegron. |
| Q34773696 | Comprehensive analysis of the HEPN superfamily: identification of novel roles in intra-genomic conflicts, defense, pathogenesis and RNA processing |
| Q38174149 | Conjugative and mobilizable genomic islands in bacteria: evolution and diversity. |
| Q35826738 | Connecting environment and genome plasticity in the characterization of transformation-induced SOS regulation and carbon catabolite control of the Vibrio cholerae integron integrase |
| Q42153897 | Costly Class-1 integrons and the domestication of the the functional integrase. |
| Q37727172 | Differences in Integron Cassette Excision Dynamics Shape a Trade-Off between Evolvability and Genetic Capacitance |
| Q41416806 | Effects of 100 years wastewater irrigation on resistance genes, class 1 integrons and IncP-1 plasmids in Mexican soil. |
| Q45002855 | Elevation of antibiotic resistance genes at cold temperatures: implications for winter storage of sludge and biosolids |
| Q34311588 | Evidence for induction of integron-based antibiotic resistance by the SOS response in a clinical setting |
| Q41438047 | Gene Expression in Class 2 Integrons Is SOS-Independent and Involves Two Pc Promoters |
| Q35272560 | High-level gene cassette transcription prevents integrase expression in class 1 integrons. |
| Q42254255 | Identification and analysis of integrons and cassette arrays in bacterial genomes |
| Q34598331 | Identification and characterization of integron-mediated antibiotic resistance in the phytopathogen Xanthomonas oryzae pv. oryzae |
| Q37021032 | Influence of humans on evolution and mobilization of environmental antibiotic resistome |
| Q62671375 | Integrase-Controlled Excision of Metal-Resistance Genomic Islands in |
| Q38554846 | Integron diversity in marine environments |
| Q35875852 | Integron involvement in environmental spread of antibiotic resistance. |
| Q38041234 | Integrons and gene cassettes: hotspots of diversity in bacterial genomes |
| Q33743517 | Integrons: past, present, and future. |
| Q40515882 | Lateral gene transfer, bacterial genome evolution, and the Anthropocene |
| Q37138819 | Multidrug resistant commensal Escherichia coli in animals and its impact for public health |
| Q36683593 | Multiple Pathways of Genome Plasticity Leading to Development of Antibiotic Resistance. |
| Q47757940 | Occurrence of antimicrobial agents, drug-resistant bacteria, and genes in the sewage-impacted Vistula River (Poland). |
| Q34683559 | RpoS plays a central role in the SOS induction by sub-lethal aminoglycoside concentrations in Vibrio cholerae |
| Q38219786 | SOS, the formidable strategy of bacteria against aggressions. |
| Q37110249 | The Verrucomicrobia LexA-Binding Motif: Insights into the Evolutionary Dynamics of the SOS Response |
| Q34192579 | The antimicrobial resistance crisis: causes, consequences, and management |
| Q42048839 | The antimicrobial resistance crisis: management through gene monitoring |
| Q35915814 | The evolutionary dynamics of integrons in changing environments. |
| Q26782828 | The extended regulatory networks of SXT/R391 integrative and conjugative elements and IncA/C conjugative plasmids |
| Q28652539 | The genomic diversification of the whole Acinetobacter genus: origins, mechanisms, and consequences |
| Q35056021 | The rulB gene of plasmid pWW0 is a hotspot for the site-specific insertion of integron-like elements found in the chromosomes of environmental Pseudomonas fluorescens group bacteria |
Search more.