Globally distributed mycobacterial fish pathogens produce a novel plasmid-encoded toxic macrolide, mycolactone F
about
Ecology and transmission of Buruli ulcer disease: a systematic reviewDeciphering the genetic basis for polyketide variation among mycobacteria producing mycolactonesLarge sequence polymorphisms unveil the phylogenetic relationship of environmental and pathogenic mycobacteria related to Mycobacterium ulceransEvolution of Mycobacterium ulcerans and other mycolactone-producing mycobacteria from a common Mycobacterium marinum progenitorA quick and cost effective method for the diagnosis of Mycobacterium ulcerans infection.Mycolactone gene expression is controlled by strong SigA-like promoters with utility in studies of Mycobacterium ulcerans and buruli ulcer.Evolution of two distinct phylogenetic lineages of the emerging human pathogen Mycobacterium ulcerans.Improved protective efficacy of a species-specific DNA vaccine encoding mycolyl-transferase Ag85A from Mycobacterium ulcerans by homologous protein boostingDistribution of Mycobacterium ulcerans in buruli ulcer endemic and non-endemic aquatic sites in GhanaDifferential gene repertoire in Mycobacterium ulcerans identifies candidate genes for patho-adaptation.Late onset of the serological response against the 18 kDa small heat shock protein of Mycobacterium ulcerans in children.Genotyping Tools for Mycobacterium ulcerans-Drawbacks and Future ProspectsScalable and efficient synthesis of the mycolactone core.Synthesis and structure assignment of the minor metabolite arising from the frog pathogen Mycobacterium liflandii.Quantitative PCR assay for Mycobacterium pseudoshottsii and Mycobacterium shottsii and application to environmental samples and fishes from the Chesapeake Bay.Photodegradation of the Mycobacterium ulcerans toxin, mycolactones: considerations for handling and storageStructure-activity relationship studies on the macrolide exotoxin mycolactone of Mycobacterium ulcerans.Chemistry of mycolactones, the causative toxins of Buruli ulcer.Genetic diversity of PCR-positive, culture-negative and culture-positive Mycobacterium ulcerans isolated from Buruli ulcer patients in Ghana.Mycobacterium ulcerans fails to infect through skin abrasions in a guinea pig infection model: implications for transmission.Mycobacterium liflandii outbreak in a research colony of Xenopus (Silurana) tropicalis frogs.Heterogeneity among Mycobacterium ulcerans from French Guiana revealed by multilocus variable number tandem repeat analysis (MLVA)Development and application of two multiplex real-time PCR assays for the detection of Mycobacterium ulcerans in clinical and environmental samplesDetection of Mycobacterium ulcerans DNA in the Environment, Ivory Coast.Mycobacterium ulcerans in mosquitoes captured during outbreak of Buruli ulcer, southeastern Australia.Mycobacterium ulcerans causes minimal pathogenesis and colonization in medaka (Oryzias latipes): an experimental fish model of disease transmissionTotal Synthesis of Mycolactones A and B.Selective suppression of dendritic cell functions by Mycobacterium ulcerans toxin mycolactone.Fish and amphibians as potential reservoirs of Mycobacterium ulcerans, the causative agent of Buruli ulcer disease.Environmental distribution and seasonal prevalence of Mycobacterium ulcerans in Southern Louisiana.Aquatic invertebrates as unlikely vectors of Buruli ulcer disease.Optimized method for preparation of DNA from pathogenic and environmental mycobacteria.Mycolactones: immunosuppressive and cytotoxic polyketides produced by aquatic mycobacteria.A novel mycolactone toxin obtained by biosynthetic engineering.Chronic Mycobacterium marinum infection acts as a tumor promoter in Japanese Medaka (Oryzias latipes)Highly stereoselective total synthesis of fully hydroxy-protected mycolactones A and B and their stereoisomerization upon deprotectionBuruli ulcer: reductive evolution enhances pathogenicity of Mycobacterium ulcerans.Synthesis and structure of mycolactone E isolated from frog mycobacterium.Molecular Characterization of Mycolactone Producing Mycobacteria from Aquatic Environments in Buruli Ulcer Non-Endemic Areas in Côte d'Ivoire.Laboratory procedures for the detection and identification of cutaneous non-tuberculous mycobacterial infections.
P2860
Q21144518-A0E9E6FB-A1FB-4A39-88D4-F3E552BA3174Q21263166-19D26860-53A9-4212-9B68-4457C29FDE3DQ24641812-F66DBB8A-BB3D-490A-8265-80AD9CDBED32Q24680677-2C4BAD0D-772E-4D4A-A48E-5B0C03B53F69Q30425946-961B1492-1566-4BB1-BE7C-3B65E02903B3Q30914398-46923A0D-5A10-4F66-BA03-4F33E7BD8B2FQ33300604-78A17F22-728B-4A60-A9C4-4ABD534683BEQ33324374-38D6E508-4839-4941-AB83-35342DFFA511Q33325502-2EC80CE3-96D1-4C07-8700-C86CF875B469Q33395337-4C5979CE-43DE-4670-8A96-C5BFF0A65251Q33650683-9851813A-A885-4C4A-B1B4-247426245F1DQ33693727-AD70A639-7D2E-4075-B3BF-51D2496D7B68Q33715059-631372E2-C657-4EA5-A508-E870F1FBEB15Q33733563-08E82167-6420-4BD3-AED7-FA561729F555Q34119537-FC86C28D-F379-4B81-A8DE-B4923B74B079Q34238411-F270BD5D-B388-4E02-AD95-415F97893BC1Q34654293-B47412C1-7042-4176-9725-E8249C148C85Q34880338-7B980A4F-F546-4FD9-81B2-6BDD1462A8C9Q35092680-C7A6FFED-4651-484F-A0DF-AF1AFB3C6255Q35145362-6DBC9A8D-B9BD-4007-8499-192CE2B89E3DQ35206412-6D9D21CD-FA9C-4358-84D2-0D0C8919971AQ35566003-2F8EF49E-C284-48FD-81D2-93DF9C04101FQ35946813-FAB8B37F-75E8-45D3-990F-DD4AEA313BF0Q35959581-46F162CD-EBCD-4BC4-B0BA-B4FA7007F70DQ36034039-54F0F2AB-91CA-4170-965D-2D2853B77EC8Q36074572-7E10E621-7A32-4E5B-847C-449A3F816F89Q36076322-5F555245-3C5D-44BB-AEC1-ED4113AFE8A5Q36229394-92B7CEC3-DD21-4554-870A-A913B6D3C244Q36632556-4E57D54E-81F5-42FF-A118-A362373026B7Q36757243-8F50ED0E-6CA8-4812-A3FA-429073D8C1F0Q37009583-1E160382-2D99-4BF6-AE7E-D9364A33247EQ37051152-E5F84238-E347-4D87-826B-F95FE1654735Q37170768-AFEB808C-DD87-437B-B70F-375A655EF44FQ37234097-AFF5A01F-A5F3-44FE-90A9-296CF476DA21Q37236699-B7410AFB-A7F7-4692-9BE4-AC0BD142A79AQ37296425-ACC05925-9799-47C4-B60C-8A27DAA85E88Q37349850-0522750C-DE45-486B-ACAF-E5C254CA3204Q37395656-E630BA57-3D43-4725-BBE2-0F6B528FBCE1Q37678481-692DDF30-75AA-412B-94A1-5EA75058581BQ38068498-A40E3416-A2DD-40CB-A2BD-F516530520FE
P2860
Globally distributed mycobacterial fish pathogens produce a novel plasmid-encoded toxic macrolide, mycolactone F
description
2006 nî lūn-bûn
@nan
2006 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Globally distributed mycobacte ...... toxic macrolide, mycolactone F
@ast
Globally distributed mycobacte ...... toxic macrolide, mycolactone F
@en
Globally distributed mycobacte ...... toxic macrolide, mycolactone F
@nl
type
label
Globally distributed mycobacte ...... toxic macrolide, mycolactone F
@ast
Globally distributed mycobacte ...... toxic macrolide, mycolactone F
@en
Globally distributed mycobacte ...... toxic macrolide, mycolactone F
@nl
prefLabel
Globally distributed mycobacte ...... toxic macrolide, mycolactone F
@ast
Globally distributed mycobacte ...... toxic macrolide, mycolactone F
@en
Globally distributed mycobacte ...... toxic macrolide, mycolactone F
@nl
P2093
P2860
P356
P1476
Globally distributed mycobacte ...... toxic macrolide, mycolactone F
@en
P2093
Angelo Colorni
Brian S Ranger
Engy A Mahrous
Lydia Mosi
Martha Rhodes
P L C Small
Sarojini Adusumilli
P2860
P304
P356
10.1128/IAI.00970-06
P407
P50
P577
2006-08-21T00:00:00Z