Development of competence in the Bacillus subtilis transformation system
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Tracing the domestication of a biofilm-forming bacteriumBiochemical and genetic characterization of a temperature-sensitive, tryptophanyl-transfer ribonucleic acid synthetase mutant of Bacillus subtilisTwo developmental genes encoding sigma factor homologs are arranged in tandem in Bacillus subtilis.Molecular cloning of genetically active fragments of Bacillus DNA in Bacillus subtilis and properties of the vector plasmid pUB110Temperature-sensitive DNA synthesis mutants of Bacillus subtilis--appendix: theory of density transfer for symmetric chromosome replicationBacteriophages of Bacillus subtilis.Membrane association of a Staphylococcus aureus plasmid in Bacillus subtilis.Transductional selection of cloned bacteriophage phi 105 and SP02 deoxyribonucleic acids in Bacillus subtilis.Characterization of a Generalized Transducing Phage of Poly-(gamma)-Glutamic Acid-Producing Bacillus subtilis and Its Application for Analysis of Tn917-LTV1 Insertional Mutants Defective in Poly-(gamma)-Glutamic Acid Production.Nucleotide sequence of Bacillus subtilis dnaB: a gene essential for DNA replication initiation and membrane attachmentIsolation of DNA-membrane complex in Bacillus subtilis.Nutritional factors influencing the development of competence in the Bacillus subtilis transformation system.High-frequency elimination of SP02 prophage from Bacillus subtilis by plasmid transformationEvidence of a bacterial receptor for lysozyme: binding of lysozyme to the anti-σ factor RsiV controls activation of the ecf σ factor σV.A novel erythromycin resistance plasmid from Bacillus sp. strain HS24, isolated from the marine sponge Haliclona simulans.Analysis of the SOS inducing signal in Bacillus subtilis using Escherichia coli LexA as a probe.The Anti-sigma Factor RsiV Is a Bacterial Receptor for Lysozyme: Co-crystal Structure Determination and Demonstration That Binding of Lysozyme to RsiV Is Required for σV ActivationThe Bacillus subtilis spo0J gene: evidence for involvement in catabolite repression of sporulation.Bacteriophage-enhanced sporulation: comparison of spore-converting bacteriophages PMB12 and SP10.Nucleotide sequence of a chromosomal mercury resistance determinant from a Bacillus sp. with broad-spectrum mercury resistance.Two highly related insecticidal crystal proteins of Bacillus thuringiensis subsp. kurstaki possess different host range specificities.Induction of cat-86 by chloramphenicol and amino acid starvation in relaxed mutants of Bacillus subtilis.Selective expression of a plasmid cat gene at a late stage of Bacillus subtilis sporulation.Chloramphenicol-inducible gene expression in Bacillus subtilis is independent of the chloramphenicol acetyltransferase structural gene and its promoterRegulatory regions that control expression of two chloramphenicol-inducible cat genes cloned in Bacillus subtilis.Genetic heterogeneity in the cysA-fus region of the Bacillus subtilis chromosome: identification of the hos gene.SP02 particles mediating transduction of a plasmid containing SP02 cohesive endsCloning restriction fragments that promote expression of a gene in Bacillus subtilisRestriction fragments that exert promoter activity during postexponential growth of Bacillus subtilisMembrane enrichment of genetic markers close to the origin and terminus during the deoxyribonucleic acid replication cycle in Bacillus subtilis.Specific inhibition of outgrowth of Bacillus subtilis spores by novobiocinSpectinomycin dependence in Bacillus subtilis.DNA-membrane association is necessary for initiation of chromosomal and plasmid replication in Bacillus subtilisInterference of plasmid pCM194 with lysogeny of bacteriophage SP02 in Bacillus subtilisFormation of competent Bacillus subtilis cells.Isolation and characterization of fusidic acid-resistant, sporulation-defective mutants of Bacillus subtilis.Recombination between compatible plasmids containing homologous segments requires the Bacillus subtilis recE gene product.Bacillus subtilis 168 genetic transformation mediated by outgrowing spores: necessity for cell contact.Bacillus pumilus plasmid pPL10: properties and insertion into Bacillus subtilis 168 by transformationTransformation of Escherichia coli and Bacillus subtilis with a hybrid plasmid molecule.
P2860
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P2860
Development of competence in the Bacillus subtilis transformation system
description
1967 nî lūn-bûn
@nan
1967年の論文
@ja
1967年論文
@yue
1967年論文
@zh-hant
1967年論文
@zh-hk
1967年論文
@zh-mo
1967年論文
@zh-tw
1967年论文
@wuu
1967年论文
@zh
1967年论文
@zh-cn
name
Development of competence in the Bacillus subtilis transformation system
@en
type
label
Development of competence in the Bacillus subtilis transformation system
@en
prefLabel
Development of competence in the Bacillus subtilis transformation system
@en
P2860
P1476
Development of competence in the Bacillus subtilis transformation system
@en
P2093
P2860
P304
P407
P577
1967-09-01T00:00:00Z