Genome-wide identification of genes directly regulated by the pleiotropic transcription factor Spx in Bacillus subtilis - Wikidata - wikimedia - TriplyDB

Genome-wide identification of genes directly regulated by the pleiotropic transcription factor Spx in Bacillus subtilis

Genome-wide identification of genes directly regulated by the pleiotropic transcription factor Spx in Bacillus subtilis

http://www.wikidata.org/entity/Q41819717

about

Bacterial responses to reactive chlorine species Redox regulation by reversible protein S-thiolation in bacteria A nitric oxide regulated small RNA controls expression of genes involved in redox homeostasis in Bacillus subtilis Tracking the Elusive Function of Bacillus subtilis Hfq A Redox-Responsive Transcription Factor Is Critical for Pathogenesis and Aerobic Growth of Listeria monocytogenes.Adaptor bypass mutations of Bacillus subtilis spx suggest a mechanism for YjbH-enhanced proteolysis of the regulator Spx by ClpXP Two Spx regulators modulate stress tolerance and virulence in Streptococcus suis serotype 2 spxA2, encoding a regulator of stress resistance in Bacillus anthracis, is controlled by SaiR, a new member of the Rrf2 protein family.Genome-wide identification of Bacillus subtilis Zur-binding sites associated with a Zur box expands its known regulatory network.Staphylococcus aureus Transcriptome Architecture: From Laboratory to Infection-Mimicking Conditions.Rifampin Resistance rpoB Alleles or Multicopy Thioredoxin/Thioredoxin Reductase Suppresses the Lethality of Disruption of the Global Stress Regulator spx in Staphylococcus aureus Bacillus subtilis extracytoplasmic function (ECF) sigma factors and defense of the cell envelope.Nonnative disulfide bond formation activates the σ32-dependent heat shock response in Escherichia coli.The Staphylococcus aureus thiol/oxidative stress global regulator Spx controls trfA, a gene implicated in cell wall antibiotic resistance.Residue substitutions near the redox center of Bacillus subtilis Spx affect RNA polymerase interaction, redox control, and Spx-DNA contact at a conserved cis-acting element.Transcriptomic and phenotypic analysis of paralogous spx gene function in Bacillus anthracis Sterne.Evidence that Oxidative Stress Induces spxA2 Transcription in Bacillus anthracis Sterne through a Mechanism Requiring SpxA1 and Positive Autoregulation.Methylglyoxal resistance in Bacillus subtilis: contributions of bacillithiol-dependent and independent pathways.SpxA1 and SpxA2 Act Coordinately To Fine-Tune Stress Responses and Virulence in Streptococcus pyogenes Thiol-based redox switches in prokaryotes.Functional Diversity of AAA+ Protease Complexes in Bacillus subtilis.Exploring the diversity of protein modifications: special bacterial phosphorylation systems.Role of Hsp100/Clp Protease Complexes in Controlling the Regulation of Motility in Bacillus subtilis.An experimentally supported model of the Bacillus subtilis global transcriptional regulatory network.Transcription of Oxidative Stress Genes Is Directly Activated by SpxA1 and, to a Lesser Extent, by SpxA2 in Streptococcus mutans.AhpA is a peroxidase expressed during biofilm formation in Bacillus subtilis.Reconstruction of Transcription Control Networks in Mollicutes by High-Throughput Identification of Promoters.Glucose Induces ECF Sigma Factor Genes, sigX and sigM, Independent of Cognate Anti-sigma Factors through Acetylation of CshA in Bacillus subtilis.Time-related transcriptome analysis of B. subtilis 168 during growth with glucose.The role of thiol oxidative stress response in heat-induced protein aggregate formation during thermotolerance in Bacillus subtilis.Exploring the Amino Acid Residue Requirements of the RNA Polymerase (RNAP) α Subunit C-Terminal Domain for Productive Interaction between Spx and RNAP of Bacillus subtilis.Induction of the Spx regulon by cell wall stress reveals novel regulatory mechanisms in Bacillus subtilis.Reduce, Induce, Thrive: Bacterial Redox Sensing during Pathogenesis

P2860

Q27023308-219B915C-B50E-4677-BCA9-13A58A6D1848 Q28083854-9E13BBC3-E628-48F3-A0BC-4DD0F2EC65A5 Q28546717-AD6C04FF-3CA6-474E-89EC-A993E055CDE4 Q28546723-BD35ADDD-E16D-46A1-A679-2B0099DCF6DE Q33592157-94E9F69E-B19D-4012-A4B9-161FEDD164C0 Q34024940-5EA308E3-8CF0-412E-B920-353C49AD7680 Q34270233-9E46ED98-52C4-4471-8CCE-2FFD29AC0F5F Q34644024-68E618E0-A17C-4B78-A206-A5ED8125D9F7 Q35554891-D868C15A-ADC9-40A7-8522-12E0D7267451 Q35976784-5598B83C-42D8-4059-8FB9-8C55FA9FF6AD Q36081351-B9CE4BFE-FBBD-4A63-A2D3-A7CC7B06BF91 Q36767686-FFAB03D3-A03D-402B-908D-85053A20AD9C Q36969531-9E4ABF0D-00EB-427E-902C-4168F09DB790 Q36969735-DC8CEB42-8DB2-40A7-83D4-9DB656168D99 Q37124962-09DEBD94-D960-48E8-BB99-CF4437DE521A Q37318669-7706280A-5811-46AC-BB58-D1AE479AFE83 Q37321981-23606626-5B77-4218-AAE3-2473D6285F0E Q37622864-D4A5F209-F3FC-465A-95A7-C61B4F239DE2 Q37727162-79580389-2D4F-4BF5-83F3-5D39A4EF73EA Q38365541-30C42FB5-10A8-4549-A508-44212A1A8B7A Q38658749-925A7553-C3C3-46E3-8AB9-AF8018F9851E Q38754752-035AB9AA-5E2F-4B8E-8013-272C9EC250E0 Q39025445-F0488A9A-2E0F-48A7-99BD-61E686184571 Q40312082-350DA5AF-9B3C-4D8B-BA76-E16E02234D1A Q41035588-CAD202C2-A1CA-4891-A963-E45006019306 Q41768310-146FF242-7DCD-4534-A066-D8CD10EFFC1B Q41855550-52BCB22D-8EE0-406A-AD0B-D43F342BE0CF Q42362552-F169C9A4-2579-4908-8BA5-7E686FF6957E Q43553463-2EB8C99A-363C-4688-8031-BEDC2A40271C Q46355450-E4D54C4F-C474-4FCD-BDFE-B32FDEDDD2AF Q46369430-763C3D9E-04C4-4DD9-A904-6410461BCB9C Q48358074-BD10EC1A-D5AC-4389-AE33-0F8606DDC667 Q58790706-503C8E8F-D29D-40CD-BB4A-97683B299C7E

P2860

Genome-wide identification of genes directly regulated by the pleiotropic transcription factor Spx in Bacillus subtilis

http://www.wikidata.org/entity/Q41819717

description

2012 nî lūn-bûn

@nan

2012年の論文

@ja

2012年論文

@yue

2012年論文

@zh-hant

2012年論文

@zh-hk

2012年論文

@zh-mo

2012年論文

@zh-tw

2012年论文

@wuu

2012年论文

@zh

2012年论文

@zh-cn

name

Genome-wide identification of ...... actor Spx in Bacillus subtilis

@en

type

label

Genome-wide identification of ...... actor Spx in Bacillus subtilis

@en

prefLabel

Genome-wide identification of ...... actor Spx in Bacillus subtilis

@en

P1433

Q41819717-EAE138E0-B9ED-4F8D-864F-A322E300ABF3

P1476

Q41819717-D289EB54-3BC2-4084-BAEB-A942AA7591D0

P2093

Q41819717-4B5954ED-F0DA-4F3B-822B-84FC31188182

Q41819717-6B39E806-281F-479D-99CC-DC435EB23BA3

Q41819717-710858FF-FEBC-414D-AA8B-E335A1895704

Q41819717-7C9BF119-D807-409B-9B91-3DFBF6D963EC

Q41819717-7E8D8695-166D-48B2-A208-B362F934A128

Q41819717-96333221-BD8E-43EB-8E3E-DD44F8F18337

Q41819717-9A9AC710-91F7-42D0-8368-065CF8346F2E

Q41819717-DA65DF16-EF70-45DA-B1A7-48BB986852BD

P2860

Q41819717-035E736E-AE34-41B1-8BEB-EB179A37E6AC

Q41819717-0906B6B4-A50F-4E55-B761-C7E7CB03D012

Q41819717-0BA3D9DA-E914-4FAA-8409-1A7185C861A2

Q41819717-0D69D6DD-488E-455C-9C5B-6D7A4DB610A0

Q41819717-1F3E60FA-866A-4A8E-A974-651478D23469

Q41819717-26DBAD75-EE98-48FA-B836-4EEF3259F4CF

Q41819717-2B157205-A080-42CF-BD9A-6BD80637560B

Q41819717-2ECD6CD7-4542-4A75-977C-A0F21A688E40

Q41819717-333C8AE6-11C9-4569-BA5D-0B525ECC8210

Q41819717-3DDFE6C1-8DBD-4248-B980-19EB47856857

P304

Q41819717-24D83A89-EAA2-4502-8D57-BF23FC7A4112

P31

Q41819717-EC901E89-72AD-4DC7-B3CA-2CE861291388

P356

Q41819717-18F52362-357B-40E1-BA51-04AF31969FAF

P433

Q41819717-B5CC18BF-D509-482E-9214-61E43B83AE79

P478

Q41819717-256B5306-29BD-44ED-A55C-4689AC5DF494

P50

Q41819717-84FEE1EA-9A39-4F84-A036-F54855084F5E

Q41819717-8775B5D2-7F80-4D96-90B8-04F77A035C02

P577

Q41819717-FD6B19C5-FBAB-46F7-9FE6-50446425E27E

P5875

Q41819717-759ADF88-3255-40C4-BD91-02A634E75F6F

P698

Q41819717-760EB421-CA8C-4E21-9D2C-BDAD0549B79F

P921

Q41819717-E9EA4D54-3400-4CD1-A338-99F335E10461

P932

Q41819717-54B9FA0C-B8BB-40F1-8993-CDC6C96D1C78

P356

P1433

Nucleic Acids Research

P1476

Genome-wide identification of ...... actor Spx in Bacillus subtilis

@en

P2093

Alžbeta Rabatinová

http://www.w3.org/2001/XMLSchema#string

Aurélie Leduc

http://www.w3.org/2001/XMLSchema#string

Etienne Dervyn

http://www.w3.org/2001/XMLSchema#string

Jana Korelusová

http://www.w3.org/2001/XMLSchema#string

Olivier Delumeau

http://www.w3.org/2001/XMLSchema#string

Philippe Bessières

http://www.w3.org/2001/XMLSchema#string

Philippe Noirot

http://www.w3.org/2001/XMLSchema#string

Pierre Nicolas

http://www.w3.org/2001/XMLSchema#string

P2860

The complete genome sequence of the gram-positive bacterium Bacillus subtilis

Biosynthesis and functions of bacillithiol, a major low-molecular-weight thiol in Bacilli

The transcriptionally active regions in the genome of Bacillus subtilis

Promoter Recognition by a Complex of Spx and the C-Terminal Domain of the RNA Polymerase α Subunit

A comparison of normalization methods for high density oligonucleotide array data based on variance and bias

The YjbH protein of Bacillus subtilis enhances ClpXP-catalyzed proteolysis of Spx

Requirement of the zinc-binding domain of ClpX for Spx proteolysis in Bacillus subtilis and effects of disulfide stress on ClpXP activity

Dual negative control of spx transcription initiation from the P3 promoter by repressors PerR and YodB in Bacillus subtilis.

MEME SUITE: tools for motif discovery and searching

Analysis of gene control signals by DNA fusion and cloning in Escherichia coli

P304

9571-9583

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1093/NAR/GKS755

http://www.w3.org/2001/XMLSchema#string

P433

19

http://www.w3.org/2001/XMLSchema#string

P478

40

http://www.w3.org/2001/XMLSchema#string

P50

P577

2012-08-16T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

230698950

http://www.w3.org/2001/XMLSchema#string

P698

22904090

http://www.w3.org/2001/XMLSchema#string

P921

Bacillus subtilis

P932

3479203

http://www.w3.org/2001/XMLSchema#string