Construction of GFP vectors for use in gram-negative bacteria other than Escherichia coli.
about
Proteomic, microarray, and signature-tagged mutagenesis analyses of anaerobic Pseudomonas aeruginosa at pH 6.5, likely representing chronic, late-stage cystic fibrosis airway conditionsMonitoring of gene expression in bacteria during infections using an adaptable set of bioluminescent, fluorescent and colorigenic fusion vectorsCorrelated biofilm imaging, transport and metabolism measurements via combined nuclear magnetic resonance and confocal microscopy.Comparison of a range of green fluorescent protein-tagging vectors for monitoring a microbial inoculant in soil.Use of green fluorescent protein to tag and investigate gene expression in marine bacteriaPseudomonas aeruginosa-mediated damage requires distinct receptors at the apical and basolateral surfaces of the polarized epithelium.An improved, high-quality draft genome sequence of the Germination-Arrest Factor-producing Pseudomonas fluorescens WH6.Use of green fluorescent protein to assess urease gene expression by uropathogenic Proteus mirabilis during experimental ascending urinary tract infection.Expression of green fluorescent protein in Streptococcus gordonii DL1 and its use as a species-specific marker in coadhesion with Streptococcus oralis 34 in saliva-conditioned biofilms in vitro.Genome-driven investigation of compatible solute biosynthesis pathways of Pseudomonas syringae pv. syringae and their contribution to water stress tolerance.Trophic regulation of Vibrio cholerae in coastal marine waters.Fur is a repressor of biofilm formation in Yersinia pestis.Identification of genes essential for pellicle formation in Acinetobacter baumannii.The Pathogenicity of Pseudomonas syringae MB03 against Caenorhabditis elegans and the Transcriptional Response of Nematicidal Genes upon Different Nutritional Conditions.Two dissimilar N-acyl-homoserine lactone acylases of Pseudomonas syringae influence colony and biofilm morphologyInvolvement of Shewanella oneidensis MR-1 LuxS in biofilm development and sulfur metabolism.SacB-SacR Gene Cassette As the Negative Selection Marker to Suppress Agrobacterium Overgrowth in Agrobacterium-Mediated Plant Transformation.Formation and regulation of Yersinia biofilms.Diverse microhabitats experienced by Halomonas variabilis on salt-secreting leaves.Detection on surfaces and in Caco-2 cells of Campylobacter jejuni cells transformed with new gfp, yfp, and cfp marker plasmids.Differential binding of Escherichia coli O157:H7 to alfalfa, human epithelial cells, and plastic is mediated by a variety of surface structures.Construction and characterization of a highly efficient Francisella shuttle plasmid.The Erwinia chrysanthemi type III secretion system is required for multicellular behavior.Characterization of the Pseudomonas syringae pv. tomato AvrRpt2 protein: demonstration of secretion and processing during bacterial pathogenesis.Vibrio cholerae strains possess multiple strategies for abiotic and biotic surface colonization.Use of transposon promoter-probe vectors in the metabolic engineering of the obligate methanotroph Methylomonas sp. strain 16a for enhanced C40 carotenoid synthesis.A comparison of the retention of pathogenic Escherichia coli O157 by sprouts, leaves and fruits.Agrobacterium-mediated root transformation is inhibited by mutation of an Arabidopsis cellulose synthase-like gene.
P2860
Q28492782-59729782-908C-4335-83C3-1FFBEF586616Q31018261-56A5F348-DDD3-4C8F-81DF-F95962DBF1B2Q31145597-76E5552F-18D0-4A7F-B003-659A327A350AQ31906485-12695A77-38BB-422F-B8ED-34B5C10DDD17Q32058836-7F97C656-1501-44FA-90DD-204294431CCBQ33675996-2B0F2125-3F14-4EAA-B9E5-F3BBACF413F0Q33709736-CD29CCBD-7479-45F3-B8F4-9BC70EDDDA5BQ33748894-D7A8A26C-643B-4AE3-A95D-4D388C922330Q33987678-35A666AF-DC0F-43EF-811A-F6D04779DE92Q34055244-57DD9922-1196-470F-A946-28E882761034Q34475134-DEC54B4B-6922-4B15-8404-30CEAF1DB7E0Q34533788-BE041DC5-8F7E-493F-B34B-62DB69533126Q35654893-F77EBB8E-3C82-4FF9-A6F9-FC7973018961Q36946069-3E075728-87A0-4C53-A690-B56C410521BEQ37032946-7103BB23-CE3F-487D-BEB6-612246DA4F3AQ37110448-EC8EE207-846E-472D-B6B2-4217FD8FA293Q37366313-37764503-2435-4846-9BF8-D4F476151C55Q37850359-C525EEC6-8EA2-440C-8E93-76742C807C27Q38925909-6177A52D-F746-46F4-9C78-F37C23026579Q39488773-8B14061F-C49F-45C6-ABE4-33D88E980E5FQ40342783-7837CC85-8FEF-4211-968A-E8830B78BD02Q40622839-A8127C10-9EEC-4EB8-A142-D0E54DCA972BQ40875002-6FE5B2D4-3E2B-4D30-9522-37DE31909600Q41670828-366D560F-9DAD-498B-A068-425E4508ECB7Q41870559-CF24B933-BF2E-4311-AF47-AFF2C686820EQ42087867-77B8A781-CBE2-4E0F-83B3-723A8FA84C80Q42593424-A71D512C-AE8E-4B62-8A33-8AA4165A81A6Q52552481-9072111E-F940-45E9-AF2F-E07A515F2E49
P2860
Construction of GFP vectors for use in gram-negative bacteria other than Escherichia coli.
description
1996 nî lūn-bûn
@nan
1996年の論文
@ja
1996年学术文章
@wuu
1996年学术文章
@zh-cn
1996年学术文章
@zh-hans
1996年学术文章
@zh-my
1996年学术文章
@zh-sg
1996年學術文章
@yue
1996年學術文章
@zh
1996年學術文章
@zh-hant
name
Construction of GFP vectors fo ...... a other than Escherichia coli.
@en
Construction of GFP vectors fo ...... a other than Escherichia coli.
@nl
type
label
Construction of GFP vectors fo ...... a other than Escherichia coli.
@en
Construction of GFP vectors fo ...... a other than Escherichia coli.
@nl
prefLabel
Construction of GFP vectors fo ...... a other than Escherichia coli.
@en
Construction of GFP vectors fo ...... a other than Escherichia coli.
@nl
P2093
P1476
Construction of GFP vectors fo ...... a other than Escherichia coli.
@en
P2093
Goodman AE
Matthysse AG
McClure NC
Stretton S
P356
10.1016/0378-1097(96)00392-8
P577
1996-11-01T00:00:00Z