scholarly article | Q13442814 |
P2093 | author name string | A B Vaidya | |
J Errington | |||
M G Bramucci | |||
T H Mysliwiec | |||
P2860 | cites work | Characterization of the spo0A locus and its deduced product | Q37685570 |
The SpoOA protein of Bacillus subtilis is a repressor of the abrB gene | Q37709796 | ||
Genetics of endospore formation in Bacillus subtilis | Q39593172 | ||
Catabolite repression-resistant mutants of Bacillus subtilis | Q39714057 | ||
Nucleotide sequence of the transcriptional repressor gene korB which plays a key role in regulation of the copy number of broad host range plasmid RK2. | Q40390507 | ||
Structure and function of the region of the replication origin of the Bacillus subtilis chromosome. III. Nucleotide sequence of some 10,000 base pairs in the origin region | Q40568554 | ||
Isolation and sequence of the spo0E gene: its role in initiation of sporulation in Bacillus subtilis | Q41335508 | ||
Regulation of stage II of sporulation in Bacillus subtilis | Q44001367 | ||
Dissection of the expression signals of the spoA gene of Bacillus subtilis: glucose represses sporulation-specific expression | Q48298352 | ||
Nucleotide sequence of korB, a replication control gene of broad host-range plasmid RK2. | Q48335169 | ||
Use of a lacZ fusion to study the role of the spoO genes of Bacillus subtilis in developmental regulation | Q48395195 | ||
Systematic method for the detection of potential lambda Cro-like DNA-binding regions in proteins. | Q52598651 | ||
A general method for fusion of the Escherichia coli lacZ gene to chromosomal genes in Bacillus subtilis | Q70356109 | ||
Use of a lacZ gene fusion to determine the dependence pattern of sporulation operon spoIIA in spo mutants of Bacillus subtilis | Q70356113 | ||
The stability of messenger ribonucleic acid during sporulation in Bacillus subtilis | Q93823976 | ||
DNA sequencing with chain-terminating inhibitors | Q22066207 | ||
Protein phosphorylation and regulation of adaptive responses in bacteria | Q24634755 | ||
Improved tools for biological sequence comparison | Q24652199 | ||
Detection of specific sequences among DNA fragments separated by gel electrophoresis | Q25939003 | ||
Site-directed mutagenesis of a catabolite repression operator sequence in Bacillus subtilis | Q33745053 | ||
Genetic analysis of Bacillus subtilis spo mutations generated by Tn917-mediated insertional mutagenesis | Q33953555 | ||
Chromosomal location of genes regulating resistance to bacteriophage in Bacillus subtilis | Q35155208 | ||
The spoIIJ gene, which regulates early developmental steps in Bacillus subtilis, belongs to a class of environmentally responsive genes | Q36156005 | ||
Bacteriophage-enhanced sporulation: comparison of spore-converting bacteriophages PMB12 and SP10. | Q36160004 | ||
Characterization of the gene for a protein kinase which phosphorylates the sporulation-regulatory proteins Spo0A and Spo0F of Bacillus subtilis | Q36184399 | ||
Bacillus sporulation gene spo0H codes for sigma 30 (sigma H). | Q36194136 | ||
Temporal regulation of the Bacillus subtilis early sporulation gene spo0F. | Q36254019 | ||
Identification of the transcriptional suppressor sof-1 as an alteration in the spo0A protein | Q36290329 | ||
Sequence analysis of the spo0B locus reveals a polycistronic transcription unit. | Q36290348 | ||
Analysis of Bacillus subtilis sporulation with spore-converting bacteriophage PMB12. | Q36320513 | ||
Catabolic repression of bacterial sporulation | Q36378531 | ||
Cloning in Bacillus subtilis by transfection with bacteriophage vector phi 105J27: isolation and preliminary characterization of transducing phages for 23 sporulation loci | Q36432327 | ||
Plasmid deoxyribonucleic acid in Bacillus subtilis and Bacillus pumilus | Q36607240 | ||
Statistical estimate of the total number of operons specific for Bacillus subtilis sporulation | Q36759283 | ||
Development of competence in the Bacillus subtilis transformation system | Q36844702 | ||
Bacteriophage PMB12 conversion of the sporulation defect in RNA polymerase mutants of Bacillus subtilis | Q37507097 | ||
Deduced product of the stage 0 sporulation gene spo0F shares homology with the Spo0A, OmpR, and SfrA proteins | Q37536173 | ||
Catabolite-resistant sporulation (crsA) mutations in the Bacillus subtilis RNA polymerase sigma 43 gene (rpoD) can suppress and be suppressed by mutations in spo0 genes | Q37557263 | ||
Nucleotide sequence of the spo0B gene of Bacillus subtilis and regulation of its expression | Q37576895 | ||
P433 | issue | 6 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Bacillus subtilis | Q131238 |
sporulation | Q22294440 | ||
P304 | page(s) | 1911-1919 | |
P577 | publication date | 1991-03-01 | |
P1433 | published in | Journal of Bacteriology | Q478419 |
P1476 | title | The Bacillus subtilis spo0J gene: evidence for involvement in catabolite repression of sporulation | |
P478 | volume | 173 |
Q47694576 | A negative regulator linking chromosome segregation to developmental transcription in Bacillus subtilis |
Q36111194 | Bacillus subtilis early sporulation genes kinA, spo0F, and spo0A are transcribed by the RNA polymerase containing sigma H. |
Q40693475 | Bacillus subtilis sporulation: regulation of gene expression and control of morphogenesis. |
Q46121025 | Cell cycle-dependent polar localization of chromosome partitioning proteins in Caulobacter crescentus |
Q39538876 | Control of sporulation gene expression in Bacillus subtilis by the chromosome partitioning proteins Soj (ParA) and Spo0J (ParB). |
Q44760220 | Hpr (ScoC) and the phosphorelay couple cell cycle and sporulation in Bacillus subtilis |
Q42922035 | Inducible protein degradation in Bacillus subtilis using heterologous peptide tags and adaptor proteins to target substrates to the protease ClpXP. |
Q34128062 | Microarray-based identification of htrA, a Streptococcus pneumoniae gene that is regulated by the CiaRH two-component system and contributes to nasopharyngeal colonization |
Q34353932 | ParABS systems of the four replicons of Burkholderia cenocepacia: new chromosome centromeres confer partition specificity |
Q44326462 | Productive interaction between the chromosome partitioning proteins, ParA and ParB, is required for the progression of the cell cycle in Caulobacter crescentus |
Q42676866 | Roa307, a protein encoded on Coxiella burnetii plasmid QpH1, shows homology to proteins encoded in the replication origin region of bacterial chromosomes |
Q33755283 | Role of HtrA in growth and competence of Streptococcus mutans UA159. |
Q42705163 | Soj antagonizes Spo0A activation of transcription in Bacillus subtilis |
Q54558803 | Subcellular distribution of actively partitioning F plasmid during the cell division cycle in E. coli. |
Q34088161 | The bacterial ParA-ParB partitioning proteins |
Q52123751 | The parAB gene products of Pseudomonas putida exhibit partition activity in both P. putida and Escherichia coli. |
Q33756345 | Toll-like receptors 1 and 2 heterodimers alter Borrelia burgdorferi gene expression in mice and ticks |
Q28489050 | spo0J is required for normal chromosome segregation as well as the initiation of sporulation in Bacillus subtilis |
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