The Bacillus subtilis spoIIG operon encodes both sigma E and a gene necessary for sigma E activation.
about
Physical and functional characterization of the Bacillus subtilis spoIIM geneEvidence that the Bacillus subtilis SpoIIGA protein is a novel type of signal-transducing aspartic proteaseCharacterization of a sporulation gene, spoIVA, involved in spore coat morphogenesis in Bacillus subtilisContributions of protein structure and gene position to the compartmentalization of the regulatory proteins sigma(E) and SpoIIE in sporulating Bacillus subtilis.The prosequence of pro-sigmaK promotes membrane association and inhibits RNA polymerase core bindingA region in the Bacillus subtilis transcription factor Spo0A that is important for spoIIG promoter activation.Substrate requirements for regulated intramembrane proteolysis of Bacillus subtilis pro-sigmaKSpore formation in Bacillus subtilisThe lethal effect of a benzamide derivative, 3-methoxybenzamide, can be suppressed by mutations within a cell division gene, ftsZ, in Bacillus subtilis.Control of the expression and compartmentalization of (sigma)G activity during sporulation of Bacillus subtilis by regulators of (sigma)F and (sigma)EThe genomic basis for the evolution of a novel form of cellular reproduction in the bacterium Epulopiscium.SirA enforces diploidy by inhibiting the replication initiator DnaA during spore formation in Bacillus subtilisGlobal analysis of the sporulation pathway of Clostridium difficile.Sporulation protein SpoIVFB from Bacillus subtilis enhances processing of the sigma factor precursor Pro-sigma K in the absence of other sporulation gene productsCharacterization of cotJ, a sigma E-controlled operon affecting the polypeptide composition of the coat of Bacillus subtilis spores.Analysis of the role of prespore gene expression in the compartmentalization of mother cell-specific gene expression during sporulation of Bacillus subtiliscse15, cse60, and csk22 are new members of mother-cell-specific sporulation regulons in Bacillus subtilisActivation of the Bacillus subtilis spoIIG promoter requires interaction of Spo0A and the sigma subunit of RNA polymerase.A feedback loop regulates the switch from one sigma factor to the next in the cascade controlling Bacillus subtilis mother cell gene expressionCompartmentalization of gene expression during Bacillus subtilis spore formation.Sporulation gene spoIIB from Bacillus subtilisNegative regulation of the proteolytic activation of a developmental transcription factor in Bacillus subtilis.Isolation of a Bacillus subtilis spoIIGA allele that suppresses processing-negative mutations in the Pro-sigma E gene (sigE).Establishment of cell-specific transcription during sporulation in Bacillus subtilis.Evidence that the spoIIM gene of Bacillus subtilis is transcribed by RNA polymerase associated with sigma EOverproducing the Bacillus subtilis mother cell sigma factor precursor, Pro-sigma K, uncouples sigma K-dependent gene expression from dependence on intercompartmental communicationRoles of rpoD, spoIIF, spoIIJ, spoIIN, and sin in regulation of Bacillus subtilis stage II sporulation-specific transcriptionEffects of amino acid substitutions in the -10 binding region of sigma E from Bacillus subtilis.Molecular cloning and characterization of two genes encoding sigma factors that direct transcription from a Bacillus thuringiensis crystal protein gene promoter.The sigma E subunit of Bacillus subtilis RNA polymerase is present in both forespore and mother cell compartments.Influence of spo mutations on sigma E synthesis in Bacillus subtilisCharacterization of the promoter region of the Bacillus subtilis spoIIE operonSynthesis and fractionation properties of SpoIIGA, a protein essential for pro-sigma E processing in Bacillus subtilis.Phenotypes of Bacillus subtilis mutants altered in the precursor-specific region of sigma EEffects of antibiotics on synthesis and persistence of sigma E in sporulating Bacillus subtilisThe sigma factors of Bacillus subtilisContrasting effects of sigmaE on compartmentalization of sigmaF activity during sporulation of Bacillus subtilis.Sporulation and enterotoxin (CPE) synthesis are controlled by the sporulation-specific sigma factors SigE and SigK in Clostridium perfringensCompartmentalized expression of a gene under the control of sporulation transcription factor sigma E in Bacillus subtilis.Effect of tcdR Mutation on Sporulation in the Epidemic Clostridium difficile Strain R20291.
P2860
Q28488937-A9395AB5-2E3E-40F5-AE09-63FAE9B05E7DQ28489003-B15AF534-3273-4031-A6A9-A5858C708C99Q28489048-02C6F215-01DF-44B3-B6F4-AC53F01D9331Q30350940-4CA07519-9D29-4286-BC39-6F4D7EB92ACFQ33730134-5FA65AAE-93CD-421E-BB0B-4714F3FCA81AQ33733503-AB738FD5-98E4-4DE5-B27D-9849ED847569Q33758495-EDDFD8C1-60D0-43C7-A608-61B857698CA2Q33834319-88C30713-1FE0-4065-8B4B-43B441334C3EQ33991312-71311F98-D02D-4BFA-AEAD-8B8AFD84C53AQ34077225-6FD67DE0-9D01-4D94-92DE-28D480EB084BQ34312963-EC393FD3-F0E5-4CD6-8A5E-B9A6D99AAF28Q34355977-C5C111D8-A1C2-4AE1-B578-FE46452D9178Q34945584-175D49B2-D5F6-4984-A29D-C7A74329E3F3Q35579798-E32446DB-CC87-44FC-8084-FBD8593F5BFDQ35587891-76F7A3E4-9BAC-4A46-9804-3054B8CA6BBDQ35607168-D8F01A36-32BD-4F7A-B648-FE0D8BCD6945Q35618923-1769C871-57C9-48F2-B52F-4B049D98F146Q35629627-EE9A0E0B-60E9-4A27-A90C-EC356465CF71Q35631042-E95B9BB3-2D06-418A-A560-577F63C2DE70Q35798772-7C4D3D90-8896-4B2E-99DC-9778250827F3Q35966497-2B9434FB-8CDF-4BD1-9DD6-DCA98D39DB88Q35981067-1B8C713C-8C80-4DD3-A36A-0CE518B62F55Q35984386-571AFDC7-9C35-449A-A7D2-89015426E01FQ36058831-6C951F79-0036-4AE4-9BE5-5816B68B167EQ36101918-9DB89DF7-B298-4FEE-B7BC-5C9452D72160Q36108697-452A09EC-C4EA-437F-BC64-B52E627747D8Q36111978-0E90CF02-67DC-46FC-BE48-BA5E5BCCD5F3Q36132179-D1146B8F-AF06-4699-9A2E-2FE542022FE0Q36147161-D8E4BE39-158D-4D76-A07E-631CB19D46E2Q36176122-A8AF1AD7-495B-446F-A8DD-212295C5F3F7Q36182185-DC501715-E390-4A4D-A8D7-2D7A6FB01AE3Q36199307-C409FF96-B6D7-4FA0-BC21-02B9F7CF732AQ36242438-C299F460-59B2-47E1-B82F-F65BA833B788Q36254365-BE77D340-73A3-4915-A6A0-C649997D9BCEQ36255907-49E51E20-3910-429B-A779-342D0D7FEBCCQ36669809-C5B07527-BFD4-44D1-B9FD-3101AAB97995Q37096818-34B1BF6A-6F9C-4D76-A1CF-FDB00D0FB5CBQ37157065-E428BAA5-0937-4339-B64E-10ADC82B5BBFQ37616885-49CEC54D-26FC-4363-B36D-5248D98F4502Q37644036-CE318690-724D-40F8-BF76-33FDC1E9EA02
P2860
The Bacillus subtilis spoIIG operon encodes both sigma E and a gene necessary for sigma E activation.
description
1988 nî lūn-bûn
@nan
1988年の論文
@ja
1988年論文
@yue
1988年論文
@zh-hant
1988年論文
@zh-hk
1988年論文
@zh-mo
1988年論文
@zh-tw
1988年论文
@wuu
1988年论文
@zh
1988年论文
@zh-cn
name
The Bacillus subtilis spoIIG o ...... essary for sigma E activation.
@ast
The Bacillus subtilis spoIIG o ...... essary for sigma E activation.
@en
type
label
The Bacillus subtilis spoIIG o ...... essary for sigma E activation.
@ast
The Bacillus subtilis spoIIG o ...... essary for sigma E activation.
@en
prefLabel
The Bacillus subtilis spoIIG o ...... essary for sigma E activation.
@ast
The Bacillus subtilis spoIIG o ...... essary for sigma E activation.
@en
P2093
P2860
P1476
The Bacillus subtilis spoIIG o ...... essary for sigma E activation.
@en
P2093
E A Weaver
T J Kenney
W G Haldenwang
P2860
P304
P356
10.1128/JB.170.2.507-511.1988
P407
P577
1988-02-01T00:00:00Z