Expression of hydroxamate and phenolate siderophores by Shigella flexneri.
about
Shigella Iron Acquisition Systems and their RegulationIdentification of chromosomal Shigella flexneri genes induced by the eukaryotic intracellular environment.Differential protein expression by Shigella flexneri in intracellular and extracellular environments.Identification of two Shigella flexneri chromosomal loci involved in intercellular spreading.NtrBC and Nac contribute to efficient Shigella flexneri intracellular replication.The SHI-3 iron transport island of Shigella boydii 0-1392 carries the genes for aerobactin synthesis and transportThe virulence plasmid-encoded impCAB operon enhances survival and induced mutagenesis in Shigella flexneri after exposure to UV radiation.dksA is required for intercellular spread of Shigella flexneri via an RpoS-independent mechanism.Ferric dicitrate transport system (Fec) of Shigella flexneri 2a YSH6000 is encoded on a novel pathogenicity island carrying multiple antibiotic resistance genes.RNA-mediated thermoregulation of iron-acquisition genes in Shigella dysenteriae and pathogenic Escherichia coli.Contribution of the Shigella flexneri Sit, Iuc, and Feo iron acquisition systems to iron acquisition in vitro and in cultured cells.Expression in Escherichia coli K-12 of the 76,000-dalton iron-regulated outer membrane protein of Shigella flexneri confers sensitivity to cloacin DF13 in the absence of Shigella O antigen.The Vibrio cholerae VctPDGC system transports catechol siderophores and a siderophore-free iron ligand.Identification of shuA, the gene encoding the heme receptor of Shigella dysenteriae, and analysis of invasion and intracellular multiplication of a shuA mutant.Production of the siderophore aerobactin by a halophilic pseudomonad.Genetics and environmental regulation of Shigella iron transport systems.IcsA surface presentation in Shigella flexneri requires the periplasmic chaperones DegP, Skp, and SurA.Anaerobic regulation of Shigella flexneri virulence: ArcA regulates Fur and iron acquisition genes.Identification and cloning of a fur regulatory gene in Yersinia pestis.Genetic analysis of the enterobactin gene cluster in Shigella flexneri.Evolutionary relationship between the TonB-dependent outer membrane transport proteins: nucleotide and amino acid sequences of the Escherichia coli colicin I receptor gene.New aerobactin-mediated iron uptake system in a septicemia-causing strain of Enterobacter cloacae.Genetics and regulation of enterobactin genes in Shigella flexneri.Aerobactin genes in clinical isolates of Escherichia coli.Plasmid- and chromosome-coded aerobactin synthesis in enteric bacteria: insertion sequences flank operon in plasmid-mediated systems.Vibrio Iron Transport: Evolutionary Adaptation to Life in Multiple Environments.Quantitation of HeLa cell monolayer invasion by Shigella and Salmonella speciesPolymorphism in the aerobactin-cloacin DF13 receptor genes from an enteroinvasive strain of Escherichia coli and pColV-K30 is associated only with a decrease in cloacin susceptibility.Interferon production by Shigella flexneri-infected fibroblasts depends upon intracellular bacterial metabolism.Expression of iron-regulated proteins in Yersinia species and their relation to virulenceCongo red binding phenotype is associated with hemin binding and increased infectivity of Shigella flexneri in the HeLa cell model.Evaluation with an iuc::Tn10 mutant of the role of aerobactin production in the virulence of Shigella flexneriNatural and recombinant interferons inhibit epithelial cell invasion by Shigella spp.Synthesis of aerobactin and a 76,000-dalton iron-regulated outer membrane protein by Escherichia coli K-12-Shigella flexneri hybrids and by enteroinvasive strains of Escherichia coli.Genetics and virulence association of the Shigella flexneri sit iron transport systemAnalysis of the proteome of intracellular Shigella flexneri reveals pathways important for intracellular growth.The Vps/VacJ ABC transporter is required for intercellular spread of Shigella flexneri.Shigella flexneri invasion of HeLa cells induces NF-kappa B DNA-binding activity.Shigella flexneri DegP facilitates IcsA surface expression and is required for efficient intercellular spread.Mechanistically novel iron(III) transport system in Serratia marcescens.
P2860
Q26767228-2981B1E1-80B9-431D-910B-348133C2D7ADQ30836926-CD6ADD4E-EE73-4D09-A1FE-99FBB1CC590CQ33609143-6CD17F41-5A81-4974-BE74-149F0B9DFBBFQ33764731-2041CA29-F5C4-4F39-A60C-F0DB50988E33Q33899588-D116096C-D68A-4E9D-9D5B-8F5E1422A774Q33996488-0C7BC95A-D16B-4457-A550-BEC757A8317BQ34000703-B736CDA5-34BF-46B5-BEA3-1115BFC98868Q34009042-6375BADB-B1A4-4A7C-B7CC-3597EF41F67EQ34009180-9BD7EC62-4B60-4190-A267-AA76731FFE58Q34036883-5B4AA845-CFB9-4B22-8974-0713E55CB13DQ34853708-AFF434BB-2154-4BEF-98B3-7B7D5776015CQ35102032-2B68BC8F-73AC-45D3-94D5-745D8DAF75E8Q35529567-C91EABB5-65B4-4187-9D7E-56505C12D57FQ35561276-CA5563DA-DD29-4221-8A1A-A86B3CAAFE20Q35707936-C08F76F5-15B3-4330-B973-06FC55411136Q35801732-21B016C9-6844-4324-B41C-317833D7D4AFQ35949250-0A702D74-2106-4AA1-B882-FCC4DA660F98Q36098452-35540316-2FA7-4BE2-AA08-B0ED24D3C49DQ36125298-D807061A-063C-4F70-8632-69749C592402Q36125791-01E03ED7-CBA5-4AFE-AB23-D6BAA0311B1CQ36174455-86B79978-6DED-4890-B374-4BEDB7A98EA0Q36224428-5EE19673-A829-4635-A389-524DFDF5ED10Q36224512-BFEDFB28-35D7-4FEA-8D94-3D276C360A73Q36290802-3DD1D0E7-DD7B-4124-8CE9-6C5CF30659CCQ36301782-AC83CAE0-5392-42C6-9DF5-06754B097739Q36457911-D15D2B13-5E18-4258-A776-4EDF9CE965DEQ36500393-4A39DC1F-0A16-44F0-BFE7-D686CFA00947Q36960078-AD5DF4A8-0442-42C0-8065-583D2AB9806DQ36976670-62416192-4C00-463A-998B-C8986DEEB915Q37015778-EC5912DD-80E5-49BC-B07A-884514640F7AQ37019688-DB8B0754-6111-4514-B1F7-B96F905306A1Q37022140-9FA721D1-E701-4ED5-A0FE-4FEEA7BA9D76Q37027574-A8E69CAD-6C4D-4D6D-BA42-B2EE7E28302CQ37050851-F54306AD-4883-405E-87E4-0CE0F892DC41Q37191371-4EA90D7A-2B71-4C8D-90AA-ED941EF85554Q37336082-AD148F05-BDC1-4D0C-B3AC-34E69B9C0709Q37546476-84282BE8-1D9D-4BE3-AAB8-5FC2A42A1DE5Q38315401-DF155EAC-7526-4E22-95F6-0F00C866E685Q39663436-E43A7574-2638-48F7-8721-B5E89DBB05A8Q39947581-58880871-C746-430A-8B72-F44BF5364881
P2860
Expression of hydroxamate and phenolate siderophores by Shigella flexneri.
description
1983 nî lūn-bûn
@nan
1983年の論文
@ja
1983年学术文章
@wuu
1983年学术文章
@zh-cn
1983年学术文章
@zh-hans
1983年学术文章
@zh-my
1983年学术文章
@zh-sg
1983年學術文章
@yue
1983年學術文章
@zh
1983年學術文章
@zh-hant
name
Expression of hydroxamate and phenolate siderophores by Shigella flexneri.
@ast
Expression of hydroxamate and phenolate siderophores by Shigella flexneri.
@en
type
label
Expression of hydroxamate and phenolate siderophores by Shigella flexneri.
@ast
Expression of hydroxamate and phenolate siderophores by Shigella flexneri.
@en
prefLabel
Expression of hydroxamate and phenolate siderophores by Shigella flexneri.
@ast
Expression of hydroxamate and phenolate siderophores by Shigella flexneri.
@en
P2093
P2860
P1476
Expression of hydroxamate and phenolate siderophores by Shigella flexneri
@en
P2093
D W Niesel
K M Lawlor
S S Peixotto
P2860
P304
P407
P577
1983-09-01T00:00:00Z