Characterization of the Bacillus anthracis S-layer: cloning and sequencing of the structural gene
about
S-Layer proteinsStructure of Surface Layer Homology (SLH) Domains from Bacillus anthracis Surface Array ProteinRole of Net Charge on Catalytic Domain and Influence of Cell Wall Binding Domain on Bactericidal Activity, Specificity, and Host Range of Phage LysinsRugged single domain antibody detection elements for Bacillus anthracis spores and vegetative cellsPaenibacillus sp. strain JDR-2 and XynA1: a novel system for methylglucuronoxylan utilizationGermination and amplification of anthrax spores by soil-dwelling amoebas.Surface-layer (S-layer) proteins sap and EA1 govern the binding of the S-layer-associated protein BslO at the cell septa of Bacillus anthracis.Use of a promoter trap system in Bacillus anthracis and Bacillus subtilis for the development of recombinant protective antigen-based vaccinesApplication of in vivo induced antigen technology (IVIAT) to Bacillus anthracis.Bacillus anthracis surface-layer proteins assemble by binding to the secondary cell wall polysaccharide in a manner that requires csaB and tagOS-layered Aneurinibacillus and Bacillus spp. are susceptible to the lytic action of Pseudomonas aeruginosa membrane vesicles.A Bacillus anthracis S-layer homology protein that binds heme and mediates heme delivery to IsdCCell surface-exposed tetanus toxin fragment C produced by recombinant Bacillus anthracis protects against tetanus toxin.Identification and functional analysis of the S-layer protein SplA of Paenibacillus larvae, the causative agent of American Foulbrood of honey bees.Identification of peptide sequences as a measure of Anthrax vaccine stability during storage.S-layers: principles and applications.Genome differences that distinguish Bacillus anthracis from Bacillus cereus and Bacillus thuringiensis.Role played by exosporium glycoproteins in the surface properties of Bacillus cereus spores and in their adhesion to stainless steel.Differential influence of the two Bacillus anthracis plasmids on regulation of virulence gene expressionA recombinant Bacillus anthracis strain producing the Clostridium perfringens Ib component induces protection against iota toxinsCloning, sequencing, and expression of the gene encoding a large S-layer-associated endoxylanase from Thermoanaerobacterium sp. strain JW/SL-YS 485 in Escherichia coli.Two Putative Polysaccharide Deacetylases Are Required for Osmotic Stability and Cell Shape Maintenance in Bacillus anthracis.Bacillus anthracis SlaQ Promotes S-Layer Protein Assembly.Secretion genes as determinants of Bacillus anthracis chain length.Requirements for the Development of Bacillus Anthracis Spore Reference Materials Used to Test Detection SystemsMolecular organization of selected prokaryotic S-layer proteins.Bacillus cereus G9241 S-layer assembly contributes to the pathogenesis of anthrax-like disease in mice.Bacillus anthracis acetyltransferases PatA1 and PatA2 modify the secondary cell wall polysaccharide and affect the assembly of S-layer proteinsIdentification of CodY targets in Bacillus anthracis by genome-wide in vitro binding analysisActivities of different fluoroquinolones against Bacillus anthracis mutants selected in vitro and harboring topoisomerase mutations.Inactivation of Bacillus anthracis spores by a combination of biocides and heating under high-temperature short-time pasteurization conditionsA two-component direct fluorescent-antibody assay for rapid identification of Bacillus anthracis.Isolation of a minireplicon of the virulence plasmid pXO2 of Bacillus anthracis and characterization of the plasmid-encoded RepS replication proteinPenetration of the blood-brain barrier by Bacillus anthracis requires the pXO1-encoded BslA protein.An extracytoplasmic function sigma factor controls beta-lactamase gene expression in Bacillus anthracis and other Bacillus cereus group speciesBacterial SLH domain proteins are non-covalently anchored to the cell surface via a conserved mechanism involving wall polysaccharide pyruvylation.Distinct affinity of binding sites for S-layer homologous domains in Clostridium thermocellum and Bacillus anthracis cell envelopes.The capsule and S-layer: two independent and yet compatible macromolecular structures in Bacillus anthracis.The S-layer proteins of two Bacillus stearothermophilus wild-type strains are bound via their N-terminal region to a secondary cell wall polymer of identical chemical composition.Influence of the secondary cell wall polymer on the reassembly, recrystallization, and stability properties of the S-layer protein from Bacillus stearothermophilus PV72/p2.
P2860
Q24548994-BB5D8727-F371-4D01-BEF0-C55C07897297Q27667847-2294D0B6-78E3-4ECF-BF4A-1548EE70BDA6Q27671535-A007EB5B-7862-47AA-A479-56C77B20AEF6Q28731481-D6EA28E2-4159-4567-A8E2-BF3476F3ED9BQ28768299-6F36F72D-459D-47E9-9C50-743FAC56DCA8Q30419473-DD3C94B5-7430-4B95-A0C1-0DBBA8371C26Q30524126-29BCEF4D-044D-4BB7-8912-B26F324263D6Q31126626-1830A5E3-77F2-48EB-940C-2E3A7D4917D3Q33324401-C9F8DE10-7005-41A4-9568-567A3B3F6C8BQ33625606-E18C89A4-CC24-4505-96BC-6F0C7BB78AE9Q33729689-204B5AF9-3A83-4CCB-AF00-4EFB545C0BDDQ33964194-6650A3B6-FBB8-4B29-8D93-B50A36891F9CQ34001881-656E3A88-22F9-49CD-A41A-F06FDFE937A4Q34277065-E9A7411C-7615-4ED6-BA21-A45417DC1C9BQ34290957-A25D1CB7-9554-4123-82A2-9D7138B52452Q34401298-BEBEC66B-7923-4722-8692-DFF7E83F86EBQ34987298-4353CA6C-F423-40F6-8D49-4B890E0A7A72Q35138846-ADAE69B2-7F56-4B06-A211-A7274148660EQ35530748-BC3C7594-EF2D-4C63-BB7A-7D7DCFB81DFEQ35548328-B89185CF-4B81-4852-BA12-D9F743747C21Q35603766-3A48E1DA-33C0-4A8F-98FA-4E98EDBE115AQ35861012-2164A7C7-2054-49F2-896B-3817CD65DCC9Q36028567-A99058A6-3E04-42C6-8B25-339D891326DEQ36156338-7358D18D-AF26-4291-97B3-68FED9315027Q36318894-7BE6058D-5770-4CEE-9C5B-F6781084F0BAQ36359908-7D06AEBB-E208-475D-9A24-95C43C34CC50Q36559371-FD1DA1F1-14DF-433E-9ABA-597685DCF3AFQ36606919-80F1CCDE-C595-4D77-AB53-1AA6BF4784F4Q36667419-9A7EEA05-038D-4DBE-AEF5-5C16730B521CQ36669771-624E0158-0D0E-4E43-BF0F-40590F17FB26Q36710511-BA3CFB36-4A92-4964-92E6-5C7DB971C986Q37314116-0BDDDBA2-26D0-4BB5-BBCD-F3462B872977Q37425672-F7939682-8F7A-4E99-A6A9-AE81642F89CFQ37451460-B59C7942-5760-4582-B52E-982EFDF66DFCQ37481369-6A6235C6-533F-4EA1-B485-8B187676A356Q38308679-D5A1783C-EFF4-40F6-85AE-52A3C188C17CQ39495223-8EA5B149-AE45-47A4-9C38-9BBDD8ED2772Q39564033-9B315589-4676-414C-82B4-275DB5A67E37Q39565067-91B8BDF7-8154-4EE4-886C-329BC4452075Q39567188-0221E3DB-6CAF-42A5-B6C9-80EC83D859E4
P2860
Characterization of the Bacillus anthracis S-layer: cloning and sequencing of the structural gene
description
1995 nî lūn-bûn
@nan
1995年の論文
@ja
1995年論文
@yue
1995年論文
@zh-hant
1995年論文
@zh-hk
1995年論文
@zh-mo
1995年論文
@zh-tw
1995年论文
@wuu
1995年论文
@zh
1995年论文
@zh-cn
name
Characterization of the Bacill ...... uencing of the structural gene
@ast
Characterization of the Bacill ...... uencing of the structural gene
@en
type
label
Characterization of the Bacill ...... uencing of the structural gene
@ast
Characterization of the Bacill ...... uencing of the structural gene
@en
prefLabel
Characterization of the Bacill ...... uencing of the structural gene
@ast
Characterization of the Bacill ...... uencing of the structural gene
@en
P2093
P2860
P1476
Characterization of the Bacill ...... uencing of the structural gene
@en
P2093
I Etienne-Toumelin
J C Sirard
P2860
P304
P356
10.1128/JB.177.3.614-620.1995
P407
P50
P577
1995-02-01T00:00:00Z