scholarly article | Q13442814 |
P2093 | author name string | B. S. Goldman | |
N. R. Benson | |||
P2860 | cites work | Recombination analysis of bacterial heredity | Q28244639 |
Molecular genetics of bacteriophage P22 | Q33622562 | ||
Packaging specific segments of the Salmonella chromosome with locked-in Mud-P22 prophages. | Q33953921 | ||
Positive selection for loss of tetracycline resistance. | Q34147960 | ||
A BlnI restriction map of the Salmonella typhimurium LT2 genome | Q36120516 | ||
Genetic analysis in Salmonella typhimurium with a small collection of randomly spaced insertions of transposon Tn10 delta 16 delta 17. | Q36234869 | ||
Sequence analysis and mapping of the Salmonella typhimurium LT2 umuDC operon | Q36253324 | ||
Plasmid insertion mutagenesis and lac gene fusion with mini-mu bacteriophage transposons | Q36300204 | ||
Conditionally transposition-defective derivative of Mu d1(Amp Lac) | Q36301294 | ||
Selection for loss of tetracycline resistance by Escherichia coli. | Q36322268 | ||
Selection of bacterial pac sites recognized by Salmonella phage P22. | Q36464247 | ||
On the sequential packaging of bacteriophage P22 DNA. | Q36906621 | ||
Linkage map of Salmonella typhimurium, edition VII | Q37064748 | ||
A physical map of the Salmonella typhimurium LT2 genome made by using XbaI analysis | Q39936532 | ||
EcoRI analysis of bacteriophage P22 DNA packaging | Q40870143 | ||
Replication in situ and DNA encapsulation following induction of an excision-defective lysogen of Salmonella bacteriophage P22 | Q40870149 | ||
Transitory cis complementation: a method for providing transposition functions to defective transposons. | Q42960575 | ||
Hfr formation directed by tn10. | Q42980403 | ||
Heterogeneity in P22 transducing particles | Q43444814 | ||
Effects of deletions on cotransduction linkage in Salmonella typhimurium: Evidence that bacterial chromosome deletions affect the formation of transducing DNA fragments | Q43467893 | ||
Initiation of bacteriophage P22 DNA packaging series. Analysis of a mutant that alters the DNA target specificity of the packaging apparatus | Q43735047 | ||
Generalized transduction by bacteriophage P22 in Salmonella typhimurium. II. Mechanism of integration of transducing DNA. | Q43843466 | ||
Bacteriophage P22 mutants that alter the specificity of DNA packaging | Q44382696 | ||
Phage P22-mutants with increased or decreased transduction abilities | Q45252565 | ||
Analysis in vivo of the bacteriophage P22 headful nuclease | Q50198464 | ||
Maturation cleavage of bacteriophage P22 DNA in the absence of DNA packaging | Q50214554 | ||
Phage genes involved in the formation generalized transducing particles in Salmonella--Phage P22. | Q50232203 | ||
Generalized transduction by phage P22 in Salmonella typhimurium. I. Molecular origin of transducing DNA. | Q50235938 | ||
In vitro and in vivo manipulations of bacteriophage Mu DNA: Cloning of Mu ends and construction of mini-Mu's carrying selectable markers | Q54543702 | ||
Variation in composition of chromosome fragments transduced by phage P22 | Q71165586 | ||
Escherichia coli Genomic Diversity within Extraintestinal Acute Infections Argues for Adaptive Evolution at Play | Q104756490 | ||
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Salmonella Typhimurium | Q166491 |
microbiology | Q7193 | ||
P304 | page(s) | 1673-1681 | |
P577 | publication date | 1992-03-01 | |
P1433 | published in | Journal of Bacteriology | Q478419 |
P1476 | title | Rapid mapping in Salmonella typhimurium with Mud-P22 prophages | |
P478 | volume | 174 |
Q39839155 | 1-Methylguanosine deficiency of tRNA influences cognate codon interaction and metabolism in Salmonella typhimurium |
Q57279101 | 4 Isolation and Development of Transposons |
Q36120516 | A BlnI restriction map of the Salmonella typhimurium LT2 genome |
Q33969284 | A Salmonella phage-P22 mutant defective in abortive transduction |
Q34435806 | A Salmonella typhimurium genetic locus which confers copper tolerance on copper-sensitive mutants of Escherichia coli |
Q35630553 | A Tn10 derivative (T-POP) for isolation of insertions with conditional (tetracycline-dependent) phenotypes |
Q33741199 | A combination of three mutations, dcd, pyrH, and cdd, establishes thymidine (Deoxyuridine) auxotrophy in thyA+ strains of Salmonella typhimurium. |
Q34979023 | A cytolysin encoded by Salmonella is required for survival within macrophages |
Q39936532 | A physical map of the Salmonella typhimurium LT2 genome made by using XbaI analysis |
Q48047343 | A proteinaceous gene regulatory thermometer in Salmonella |
Q44872231 | A recombinase-based selection of differentially expressed bacterial genes |
Q36107163 | Acid-sensitive mutants of Salmonella typhimurium identified through a dinitrophenol lethal screening strategy |
Q35619848 | Analysis of the boundaries of Salmonella pathogenicity island 2 and the corresponding chromosomal region of Escherichia coli K-12. |
Q33756676 | At least four percent of the Salmonella typhimurium genome is required for fatal infection of mice |
Q35966527 | Bacterial infection as assessed by in vivo gene expression |
Q36574936 | Barriers to recombination between closely related bacteria: MutS and RecBCD inhibit recombination between Salmonella typhimurium and Salmonella typhi. |
Q42658377 | Characterization of thiL, encoding thiamin-monophosphate kinase, in Salmonella typhimurium |
Q48007137 | CobB, a new member of the SIR2 family of eucaryotic regulatory proteins, is required to compensate for the lack of nicotinate mononucleotide:5,6-dimethylbenzimidazole phosphoribosyltransferase activity in cobT mutants during cobalamin biosynthesis i |
Q33991079 | Cyclic AMP receptor protein and TyrR are required for acid pH and anaerobic induction of hyaB and aniC in Salmonella typhimurium |
Q42966928 | DNA adenine methylase mutants of Salmonella typhimurium and a novel dam-regulated locus |
Q35599859 | DNA polymerase I function is required for the utilization of ethanolamine, 1,2-propanediol, and propionate by Salmonella typhimurium LT2 |
Q50124408 | Defects in pyruvate kinase cause a conditional increase of thiamine synthesis in Salmonella typhimurium |
Q28776476 | Differential patterns of acquired virulence genes distinguish Salmonella strains |
Q50111958 | Effect of chromosome location on bacterial mutation rates |
Q33962591 | Endpoint bias in large Tn10-catalyzed inversions in Salmonella typhimurium |
Q36109035 | Evidence for two NAD kinases in Salmonella typhimurium |
Q39847629 | Evidence that rseC, a gene in the rpoE cluster, has a role in thiamine synthesis in Salmonella typhimurium |
Q50142231 | Fts insertional mutant ofSalmonella typhimurium |
Q33736811 | Gene transfer between related bacteria by electrotransformation: mapping Salmonella typhi genes in Salmonella typhimurium. |
Q42545886 | Genetic mapping by duplication segregation in Salmonella enterica |
Q39885267 | Genetic structure and regulation of the cysG gene in Salmonella typhimurium |
Q33994911 | Genetics of swarming motility in Salmonella enterica serovar typhimurium: critical role for lipopolysaccharide |
Q39497424 | Genomic subtraction identifies Salmonella typhimurium prophages, F-related plasmid sequences, and a novel fimbrial operon, stf, which are absent in Salmonella typhi |
Q34002026 | Genomic subtractive hybridization and selective capture of transcribed sequences identify a novel Salmonella typhimurium fimbrial operon and putative transcriptional regulator that are absent from the Salmonella typhi genome |
Q35595241 | Glutathione is required for maximal transcription of the cobalamin biosynthetic and 1,2-propanediol utilization (cob/pdu) regulon and for the catabolism of ethanolamine, 1,2-propanediol, and propionate in Salmonella typhimurium LT2. |
Q28344615 | Growth-dependent DNA breakage and cell death in a gyrase mutant of Salmonella |
Q46961912 | High-level resistance to mecillinam produced by inactivation of soluble lytic transglycosylase in Salmonella enterica serovar Typhimurium |
Q35975216 | High-resolution restriction map for a 240-kilobase region spanning 91 to 96 minutes on the Salmonella typhimurium LT2 chromosome |
Q39571151 | Identification of Salmonella typhimurium genes required for colonization of the chicken alimentary tract and for virulence in newly hatched chicks |
Q33727694 | Identification of a novel Salmonella invasion locus homologous to Shigella ipgDE |
Q37698755 | Identification of a virulence locus encoding a second type III secretion system in Salmonella typhimurium |
Q36105804 | Inactivation of mismatch repair overcomes the barrier to transduction between Salmonella typhimurium and Salmonella typhi |
Q39932313 | Isolation and characterization of a gene, pmrD, from Salmonella typhimurium that confers resistance to polymyxin when expressed in multiple copies |
Q28563574 | Isolation and characterization of beta-ketoacyl-acyl carrier protein reductase (fabG) mutants of Escherichia coli and Salmonella enterica serovar Typhimurium |
Q39839254 | Isolation of NAD cycle mutants defective in nicotinamide mononucleotide deamidase in Salmonella typhimurium |
Q34845008 | Metabolic flux in both the purine mononucleotide and histidine biosynthetic pathways can influence synthesis of the hydroxymethyl pyrimidine moiety of thiamine in Salmonella enterica |
Q35598208 | Molecular cloning, mapping, and regulation of Pho regulon genes for phosphonate breakdown by the phosphonatase pathway of Salmonella typhimurium LT2 |
Q36087007 | Molecular, functional, and evolutionary analysis of sequences specific to Salmonella |
Q33277988 | Mud-P22. |
Q35580672 | MudSacI, a transposon with strong selectable and counterselectable markers: use for rapid mapping of chromosomal mutations in Salmonella typhimurium |
Q40501335 | Mutagenesis and variant selection in Salmonella. |
Q39842898 | Mutations in apbC (mrp) prevent function of the alternative pyrimidine biosynthetic pathway in Salmonella typhimurium |
Q34009645 | Novel Salmonella enterica serovar Typhimurium protein that is indispensable for virulence and intracellular replication |
Q44448259 | Null mutations in the essential gene yrfF (mucM) are not lethal in rcsB, yojN or rcsC strains of Salmonella enterica serovar Typhimurium |
Q43808598 | Oxygen tension and nutrient starvation are major signals that regulate agfD promoter activity and expression of the multicellular morphotype in Salmonella typhimurium |
Q48038471 | PmrA-PmrB-regulated genes necessary for 4-aminoarabinose lipid A modification and polymyxin resistance |
Q28490062 | Propionate catabolism in Salmonella typhimurium LT2: two divergently transcribed units comprise the prp locus at 8.5 centisomes, prpR encodes a member of the sigma-54 family of activators, and the prpBCDE genes constitute an operon |
Q31030619 | Resistance to host antimicrobial peptides is necessary for Salmonella virulence |
Q35549330 | Salmonella enterica serovar Typhimurium RamA, intracellular oxidative stress response, and bacterial virulence |
Q39522566 | Salmonella enterica serovar Typhimurium response involved in attenuation of pathogen intracellular proliferation |
Q35275357 | Salmonella phages and prophages: genomics, taxonomy, and applied aspects |
Q39860005 | Salmonella typhimurium loci involved in survival within macrophages |
Q40826516 | Salmonella typhimurium mutants that downregulate phagocyte nitric oxide production |
Q34002348 | Salmonella typhimurium virulence genes are induced upon bacterial invasion into phagocytic and nonphagocytic cells |
Q35105561 | Selection of small-colony variants of Salmonella enterica serovar typhimurium in nonphagocytic eucaryotic cells |
Q33994952 | Sequence of the genome of Salmonella bacteriophage P22 |
Q36102441 | Spontaneous pmrA mutants of Salmonella typhimurium LT2 define a new two-component regulatory system with a possible role in virulence |
Q34990210 | Stress-inducible gene of Salmonella typhimurium identified by arbitrarily primed PCR of RNA |
Q28238185 | Structure and regulation of the Salmonella typhimurium rnc-era-recO operon |
Q39838067 | Suppression of the pleiotropic effects of HisH and HisF overproduction identifies four novel loci on the Salmonella typhimurium chromosome: osmH, sfiW, sfiX, and sfiY |
Q33963475 | Suppressors of recB mutations in Salmonella typhimurium. |
Q36102412 | The XbaI-BlnI-CeuI genomic cleavage map of Salmonella typhimurium LT2 determined by double digestion, end labelling, and pulsed-field gel electrophoresis |
Q37346357 | The alternative sigma factor katF (rpoS) regulates Salmonella virulence |
Q39564631 | The apbE gene encodes a lipoprotein involved in thiamine synthesis in Salmonella typhimurium |
Q24561707 | The eutT gene of Salmonella enterica Encodes an oxygen-labile, metal-containing ATP:corrinoid adenosyltransferase enzyme |
Q39836308 | The methylthio group (ms2) of N6-(4-hydroxyisopentenyl)-2-methylthioadenosine (ms2io6A) present next to the anticodon contributes to the decoding efficiency of the tRNA. |
Q39569290 | The ms2io6A37 modification of tRNA in Salmonella typhimurium regulates growth on citric acid cycle intermediates. |
Q44563376 | The type III secretion chaperone FlgN regulates flagellar assembly via a negative feedback loop containing its chaperone substrates FlgK and FlgL. |
Q39841184 | Thiamine pyrophosphate (TPP) negatively regulates transcription of some thi genes of Salmonella typhimurium |
Q39570899 | Trafficking of porin-deficient Salmonella typhimurium mutants inside HeLa cells: ompR and envZ mutants are defective for the formation of Salmonella-induced filaments. |
Q39566421 | Transcriptional analysis of essential genes of the Escherichia coli fatty acid biosynthesis gene cluster by functional replacement with the analogous Salmonella typhimurium gene cluster |
Q35967881 | apbA, a new genetic locus involved in thiamine biosynthesis in Salmonella typhimurium |
Q50131157 | thiBPQ encodes an ABC transporter required for transport of thiamine and thiamine pyrophosphate in Salmonella typhimurium |
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