TnphoA and TnphoA' elements for making and switching fusions for study of transcription, translation, and cell surface localization.
about
The phosphate regulon and bacterial virulence: a regulatory network connecting phosphate homeostasis and pathogenesisMembrane topology and insertion of membrane proteins: search for topogenic signalsCharacterization of the Vibrio cholerae vceCAB multiple-drug resistance efflux operon in Escherichia coli.Identification and functional characterization of CbaR, a MarR-like modulator of the cbaABC-encoded chlorobenzoate catabolism pathwayTopology of RbsC, a membrane component of the ribose transporter, belonging to the AraH superfamilyFunctional analysis of the active partition region of the Coxiella burnetii plasmid QpH1.Genetic analysis of the mobilization and leading regions of the IncN plasmids pKM101 and pCU1H-NS-Dependent regulation of flagellar synthesis is mediated by a LysR family protein.Identification of genes in an extraintestinal isolate of Escherichia coli with increased expression after exposure to human urine.Unprecedented high-resolution view of bacterial operon architecture revealed by RNA sequencingProtective role of tolC in efflux of the electron shuttle anthraquinone-2,6-disulfonate.Bacterial evolution through the selective loss of beneficial Genes. Trade-offs in expression involving two loci.Loss of the O4 antigen moiety from the lipopolysaccharide of an extraintestinal isolate of Escherichia coli has only minor effects on serum sensitivity and virulence in vivo.Escherichia coli invasion of brain microvascular endothelial cells in vitro and in vivo: molecular cloning and characterization of invasion gene ibe10Isolation and characterization of adenylate kinase (adk) mutations in Salmonella typhimurium which block the ability of glycine betaine to function as an osmoprotectantIdentification of new genes regulated by the marRAB operon in Escherichia coliMolecular cloning, mapping, and regulation of Pho regulon genes for phosphonate breakdown by the phosphonatase pathway of Salmonella typhimurium LT2.Nitrate- and nitrite-sensing protein NarX of Escherichia coli K-12: mutational analysis of the amino-terminal tail and first transmembrane segmentThe Escherichia coli flagellar transcriptional activator flhD regulates cell division through induction of the acid response gene cadAGenomic rearrangements leading to overexpression of aldo-keto reductase YafB of Escherichia coli confer resistance to glyoxalMutational analysis of an Escherichia coli fourteen-gene operon for phosphonate degradation, using TnphoA' elementsUse of the rep technique for allele replacement to construct mutants with deletions of the pstSCAB-phoU operon: evidence of a new role for the PhoU protein in the phosphate regulon.aldB, an RpoS-dependent gene in Escherichia coli encoding an aldehyde dehydrogenase that is repressed by Fis and activated by Crp.D-Allose catabolism of Escherichia coli: involvement of alsI and regulation of als regulon expression by allose and ribose.Roles of hilC and hilD in regulation of hilA expression in Salmonella enterica serovar TyphimuriumA simple in vitro Tn7-based transposition system with low target site selectivity for genome and gene analysisNonenzymatic turnover of an Erwinia carotovora quorum-sensing signaling molecule.Expression of the gene cluster associated with the Escherichia coli pilus adhesin K99.Identification of genes negatively regulated by Fis: Fis and RpoS comodulate growth-phase-dependent gene expression in Escherichia coli.Fis activates the RpoS-dependent stationary-phase expression of proP in Escherichia coli.Lethality and survival of Klebsiella oxytoca evoked by conjugative IncN group plasmids.Transcription of the glutamyl-tRNA reductase (hemA) gene in Salmonella typhimurium and Escherichia coli: role of the hemA P1 promoter and the arcA gene product.Active efflux of bile salts by Escherichia coli.Transcriptional regulation of the Enterococcus faecium BM4147 vancomycin resistance gene cluster by the VanS-VanR two-component regulatory system in Escherichia coli K-12.Organization and regulation of the D-xylose operons in Escherichia coli K-12: XylR acts as a transcriptional activator.The D-allose operon of Escherichia coli K-12Flavin electron shuttles dominate extracellular electron transfer by Shewanella oneidensisTranscriptional activation of the aldehyde reductase YqhD by YqhC and its implication in glyoxal metabolism of Escherichia coli K-12.Quorum sensing-controlled Evr regulates a conserved cryptic pigment biosynthetic cluster and a novel phenomycin-like locus in the plant pathogen, Pectobacterium carotovorum.Characterization of tdt genes for the degradation of tricyclic diterpenes by Pseudomonas diterpeniphila A19-6a.
P2860
Q28267290-856592E6-0639-43FD-9D9D-6966060F548BQ30326361-F026BAAD-D62F-4FD9-B599-FB114E1DA239Q33937386-1B4FBFBC-53C4-40DA-87DA-F1703CA68323Q33990047-95E6ED86-D968-41D8-BF65-24F005D4AF16Q33991208-7FCE858A-1ABB-412A-8EA9-DB4A4A11FEA9Q33991558-C43EE103-FA8A-4988-86E3-424878136EA7Q33991801-26E87C97-7006-48A2-9ED2-08100A38CD38Q33994555-6B4997A5-3F93-4F6E-B147-AEB3E2D05B40Q34002140-D93CF90B-3408-4C92-8937-3BE1EB136FE8Q34165431-AC349C8A-E657-400F-B864-D60C79AB3A67Q34307084-D2A2A3C9-F47D-4297-A466-B9045DC59532Q34618065-7D730856-8B4B-42BD-9F86-7A7F79968C91Q35399021-915C06B9-93C9-4A78-BEDB-574D6C33A21EQ35451232-242D24A4-BD03-45C5-860F-C1A8696823CAQ35577497-D34D8688-1D75-4596-AB6B-32F028080A6CQ35578124-9C6D11E8-35F4-4DEE-86AA-E18893B8DD53Q35598208-33261DA6-F85F-437E-873E-DC904F9A0F19Q35619353-0D66E2E8-D08D-4E98-B51F-5F56E61F5A21Q35624282-63E037C8-A624-4BD4-8146-B4E1C4BA3752Q35867707-CA42756B-F575-4721-957D-B4F549B35A15Q36101376-831D8B3A-B88E-4D0B-87FA-FAD3D84E384FQ36123277-9B87E3A7-CB3D-4617-B2FF-C982D24626F4Q38294659-7475C613-6FCF-4DEB-AECA-85E4AEA265D3Q39498048-488803C9-BB60-4A44-AF58-B63B39FCE788Q39526317-A61B4512-8226-4D65-A882-3003303FF5EBQ39542427-4CCE622E-31C4-4CEA-88B7-39BFCBE07805Q39678132-944DFC59-AB89-45F2-B435-4A5F864D7F4BQ39823264-EE8AA59C-0201-4E32-A568-8EE2D1F008D7Q39835658-3D1D026C-72B6-4352-AA5A-DB21994FEED6Q39838288-0EEBB440-7F73-40C6-88E4-0E436BEEF982Q39839041-5F8E351D-D602-4794-92FB-0E451B25EA36Q39840070-14EBD003-F341-4BD7-AD80-8E91511F03F8Q39845292-DF172479-FD37-48E7-A649-0A45D1041803Q39847254-80C19498-19B4-4635-A2AF-56592A527450Q39847902-FCC44918-E64F-4C06-9355-5E2EAD3607BEQ39848216-E09F42CE-1632-4E38-8954-CB7005DD9748Q41954433-8EC2559D-8F81-495C-83F4-606C46483CC9Q42576196-2E80C2A0-AD58-4219-B070-507D099D2DA6Q42651154-525D83C7-AEB3-4A1A-B801-43FEE46560C1Q42671912-2F033CD3-FB69-459B-B64E-EC82ACF39A02
P2860
TnphoA and TnphoA' elements for making and switching fusions for study of transcription, translation, and cell surface localization.
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
1992年论文
@zh
1992年论文
@zh-cn
name
TnphoA and TnphoA' elements fo ...... and cell surface localization.
@en
TnphoA and TnphoA' elements fo ...... and cell surface localization.
@nl
type
label
TnphoA and TnphoA' elements fo ...... and cell surface localization.
@en
TnphoA and TnphoA' elements fo ...... and cell surface localization.
@nl
prefLabel
TnphoA and TnphoA' elements fo ...... and cell surface localization.
@en
TnphoA and TnphoA' elements fo ...... and cell surface localization.
@nl
P2860
P1476
TnphoA and TnphoA' elements fo ...... and cell surface localization.
@en
P2093
Wilmes-Riesenberg MR
P2860
P304
P356
10.1128/JB.174.14.4558-4575.1992
P577
1992-07-01T00:00:00Z