The chitinolytic cascade in Vibrios is regulated by chitin oligosaccharides and a two-component chitin catabolic sensor/kinase.
about
Differential enzymatic activity of common haplotypic versions of the human acidic Mammalian chitinase proteinIdentification of a chitin-induced small RNA that regulates translation of the tfoX gene, encoding a positive regulator of natural competence in Vibrio choleraeConservation of the chitin utilization pathway in the VibrionaceaeCues and regulatory pathways involved in natural competence and transformation in pathogenic and environmental Gram-negative bacteriaRegulation of the xylan-degrading apparatus of Cellvibrio japonicus by a novel two-component systemAn Asymmetry-to-Symmetry Switch in Signal Transmission by the Histidine Kinase Receptor for TMAOPseudomonas aeruginosa enhances production of an antimicrobial in response to N-acetylglucosamine and peptidoglycanProbing the Catalytic Mechanism of Vibrio harveyi GH20 β-N-Acetylglucosaminidase by Chemical RescueDifferential chitinase activity and production within Francisella species, subspecies, and subpopulationsDiversity of Clinical and Environmental Isolates of Vibrio cholerae in Natural Transformation and Contact-Dependent Bacterial Killing Indicative of Type VI Secretion System Activity.Genome analysis of Chitinivibrio alkaliphilus gen. nov., sp. nov., a novel extremely haloalkaliphilic anaerobic chitinolytic bacterium from the candidate phylum Termite Group 3.The genome sequence of the fish pathogen Aliivibrio salmonicida strain LFI1238 shows extensive evidence of gene decay.TorT, a member of a new periplasmic binding protein family, triggers induction of the Tor respiratory system upon trimethylamine N-oxide electron-acceptor binding in Escherichia coli.Screening of genes involved in chitinase production in Aeromonas caviae CB101 via transposon mutagenesis.A communal bacterial adhesin anchors biofilm and bystander cells to surfaces.The regulatory network of natural competence and transformation of Vibrio choleraeMolecular uptake of chitooligosaccharides through chitoporin from the marine bacterium Vibrio harveyiThe acetate switch of an intestinal pathogen disrupts host insulin signaling and lipid metabolismHeterodisaccharide 4-O-(N-acetyl-beta-D-glucosaminyl)-D-glucosamine is a specific inducer of chitinolytic enzyme production in Vibrios harboring chitin oligosaccharide deacetylase genes.A metalloprotease secreted by the type II secretion system links Vibrio cholerae with collagen.Genome mining reveals unlocked bioactive potential of marine Gram-negative bacteria.Living in the matrix: assembly and control of Vibrio cholerae biofilms.Role of Shrimp Chitin in the Ecology of Toxigenic Vibrio cholerae and Cholera Transmission.Genomic insight into Aquimarina longa SW024 T: its ultra-oligotrophic adapting mechanisms and biogeochemical functions.Draft Genome Sequence of Vibrio sp. Strain Evh12, a Bacterium Retrieved from the Gorgonian Coral Eunicella verrucosa.Age-Related Differences in the Gastrointestinal Microbiota of Chinstrap Penguins (Pygoscelis antarctica).Short-Chain Chitin Oligomers: Promoters of Plant Growth.Genomic and biochemical studies demonstrating the absence of an alkane-producing phenotype in Vibrio furnissii M1Overexpression, crystallization and preliminary X-ray crystallographic analysis of β-N-acetylglucosaminidase from Thermotoga maritima encoded by the Tm0809 gene.The Vibrio cholerae chitin utilization programChitin hydrolysis by Listeria spp., including L. monocytogenesMicrodiversity of extracellular enzyme genes among sequenced prokaryotic genomesBacterial chitin degradation-mechanisms and ecophysiological strategies.Staying Alive: Vibrio cholerae's Cycle of Environmental Survival, Transmission, and DisseminationIdentification and Functional Characterization of a Novel OprD-like Chitin Uptake Channel in Non-chitinolytic BacteriaShell disease in crustaceans - just chitin recycling gone wrong?Bacteria-surface interactionsCompetence and natural transformation in vibrios.Identification of a membrane-bound transcriptional regulator that links chitin and natural competence in Vibrio cholerae.Growth on Chitin Impacts the Transcriptome and Metabolite Profiles of Antibiotic-Producing Vibrio coralliilyticus S2052 and Photobacterium galatheae S2753.
P2860
Q24310180-053BAF20-8081-4A30-9811-A0F18ED241EDQ24594435-506F5E17-59B9-41DE-B948-465939642D3AQ24642238-F8CCF01B-0760-45DB-938A-31DBF848F54AQ27014793-525CF947-5B14-4E11-BA65-EFAA26BBCC48Q27652520-03CBEF98-5F2F-4EE4-9A36-531ADA9F30C6Q27678362-4DFB8EDC-0D76-4DA1-8932-6DAC0959E81CQ28492482-86CD649D-588B-4883-AE2F-F80F0E3A9EE2Q28550193-86FB45D8-2D7D-4FF2-B197-87F18DD02FD1Q28742756-17F12057-A4CE-407E-9462-168F3A6A2625Q30385302-7A257FC5-9B5E-4178-B0DC-04201673A0BBQ30674699-1050F010-9FC9-436F-8EA1-5C6E7DB29707Q30855534-FE6BAF60-4034-4625-8119-4445EE0B08F2Q31066812-4FFAB0F0-15D4-4A2C-8C2B-20BA5DF5CB94Q33274566-FD3C6AE2-B511-43AB-AF7F-09AF569C20F2Q34013625-3B41E9D9-D07B-4525-A034-FF24185A9C40Q34318274-E8FBF0DC-8622-4DCA-A008-B3409E17A286Q34576102-5A400BE0-46DA-4559-8F76-3D9F3A8AD502Q34745482-F6BE0F53-726A-4B19-85FD-591F3164DB2FQ34988790-88D3AFCB-1AE1-40A4-B5C1-72ECA387A086Q35107296-C33C46C5-6617-4690-A20D-C5C247B72382Q35176785-6F1A3F96-3E05-4A0F-AAEE-A543E8D01F4BQ35624604-38A15792-C7F0-4C65-A29D-1B6F3FB8EF4DQ35650253-1D247B48-AC9F-4979-9B4B-2212FC3BB7B9Q35804241-28617054-A35A-4BC7-A823-81C6174491A4Q35921409-674DA7F3-75FA-4F94-B98D-B101247B66DDQ35982658-8FE36D52-EDA3-4603-BA4C-C07A13946A0CQ36283998-7E46EC11-6087-43AF-A43E-D0BC7BC82C2CQ36313640-C0405A1F-1D7C-4903-B17A-747140A44D67Q36588151-24BD2659-A8DD-4D1D-9FDB-CE08D5461AE7Q36602658-EF48594D-E8F9-4E7D-8AD6-30272F17341AQ36746763-4B0B511D-9B0C-4172-8DD2-C77BFE54A74FQ36864609-AB80D999-095E-4E5A-ADDC-2DAF9DC68F54Q36928697-82D0898B-FC75-43C1-812F-C07CD0E9F707Q36956153-62E93AD4-6B3A-4D65-B1A3-EFC7D4CE3B53Q37034406-AD764CF6-6120-4704-BAA2-61DB55706347Q37051389-D26A4A18-8848-4773-B117-98E665C1FB8BQ37069941-D00C862A-9437-461C-98D7-EDCCE35CE336Q37286859-FE1EAA9A-EDB3-4B57-8512-E204F93FC6EDQ37519894-C804A1B5-ABD4-4AF7-B670-81D0FB072EAAQ37553917-19D4C982-5A38-45F5-8C86-4C59692CEA47
P2860
The chitinolytic cascade in Vibrios is regulated by chitin oligosaccharides and a two-component chitin catabolic sensor/kinase.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
2003年论文
@zh
2003年论文
@zh-cn
name
The chitinolytic cascade in Vi ...... hitin catabolic sensor/kinase.
@ast
The chitinolytic cascade in Vi ...... hitin catabolic sensor/kinase.
@en
type
label
The chitinolytic cascade in Vi ...... hitin catabolic sensor/kinase.
@ast
The chitinolytic cascade in Vi ...... hitin catabolic sensor/kinase.
@en
prefLabel
The chitinolytic cascade in Vi ...... hitin catabolic sensor/kinase.
@ast
The chitinolytic cascade in Vi ...... hitin catabolic sensor/kinase.
@en
P2860
P356
P1476
The chitinolytic cascade in Vi ...... hitin catabolic sensor/kinase.
@en
P2093
Saul Roseman
P2860
P304
P356
10.1073/PNAS.0307645100
P407
P577
2003-12-29T00:00:00Z