Interspecies transformation of Acinetobacter: genetic evidence for a ubiquitous genus
about
Bacterial gene transfer by natural genetic transformation in the environmentPreparations and properties of ribonucleic acid polymerase from Acinetobacter calcoaceticusGeneralized indicator plate for genetic, metabolic, and taxonomic studies with microorganismsIsolation and characterization of Escherichia coli mutants defective for phenylpropionate degradationCatabolism of phenylpropionic acid and its 3-hydroxy derivative by Escherichia coliAcinetobacter baumannii: an emerging opportunistic pathogenMicrobial synergy via an ethanol-triggered pathwayCatechol 1,2-dioxygenase from Acinetobacter calcoaceticus: purification and propertiesRelationship of CDC group EO-2 and psychrobacter immobilisAcinetobacter variabilis sp. nov. (formerly DNA group 15 sensu Tjernberg & Ursing), isolated from humans and animals.Screening of environmental DNA libraries for the presence of genes conferring lipolytic activity on Escherichia coli.Exploring the evolutionary dynamics of plasmids: the Acinetobacter pan-plasmidome.sal genes determining the catabolism of salicylate esters are part of a supraoperonic cluster of catabolic genes in Acinetobacter sp. strain ADP1.areABC genes determine the catabolism of aryl esters in Acinetobacter sp. Strain ADP1.Toxicity caused by hydroxycinnamoyl-coenzyme A thioester accumulation in mutants of Acinetobacter sp. strain ADP1.PcaU, a transcriptional activator of genes for protocatechuate utilization in Acinetobacter.Similarities between the antABC-encoded anthranilate dioxygenase and the benABC-encoded benzoate dioxygenase of Acinetobacter sp. strain ADP1.Characterization of transposon Tn1528, which confers amikacin resistance by synthesis of aminoglycoside 3'-O-phosphotransferase type VI.Characterization of the chromosomal aac(6')-Ij gene of Acinetobacter sp. 13 and the aac(6')-Ih plasmid gene of Acinetobacter baumannii.Comparative analysis of the lipids of Acinetobacter species grown on hexadecane.Bacteria are not what they eat: that is why they are so diverse.Skin carriage of acinetobacters in Hong KongRecognition of two novel phenons of the genus Acinetobacter among non-glucose-acidifying isolates from human specimensPhenotypic expression of PCR-generated random mutations in a Pseudomonas putida gene after its introduction into an Acinetobacter chromosome by natural transformationCloning and genetic characterization of dca genes required for beta-oxidation of straight-chain dicarboxylic acids in Acinetobacter sp. strain ADP1.Genetic analysis of a chromosomal region containing vanA and vanB, genes required for conversion of either ferulate or vanillate to protocatechuate in Acinetobacter.Functions of the mismatch repair gene mutS from Acinetobacter sp. strain ADP1.Integration of foreign DNA during natural transformation of Acinetobacter sp. by homology-facilitated illegitimate recombination.Transformation assay for identification of psychrotrophic achromobacters.Moraxella, Acinetobacter, and the MimeaeGene rearrangements in the evolution of the tryptophan synthetic pathwayDiversity within the O-linked protein glycosylation systems of acinetobacter species.Simple genetic transformation assay for rapid diagnosis of Moraxella osloensis.Natural transformation facilitates transfer of transposons, integrons and gene cassettes between bacterial species.Naturally transformable Acinetobacter sp. strain ADP1 belongs to the newly described species Acinetobacter baylyi.Methylation of 23S rRNA nucleotide G745 is a secondary function of the RlmAI methyltransferase.Genomic and functional analysis of the type VI secretion system in Acinetobacter.Acinetobacter baumannii: emergence of a successful pathogenGenes for chlorogenate and hydroxycinnamate catabolism (hca) are linked to functionally related genes in the dca-pca-qui-pob-hca chromosomal cluster of Acinetobacter sp. strain ADP1.Deletion mutations caused by DNA strand slippage in Acinetobacter baylyi.
P2860
Q24634610-FBB2160F-8BEE-4F8C-9E22-348D2E8990A8Q24652517-5A4D46F6-76F7-4738-B4CD-367D558DFBA0Q24681492-112462B0-596A-4452-9361-EBD2DA4CCDDCQ24681655-32B9B3F8-31C0-41F3-9C61-2A15ED2C6C36Q24685386-52C088EE-18EF-4154-8905-EDD6FE8317AEQ26830893-EDF71B76-593D-48B6-86CA-FCC6C1CC793DQ27938765-EA49FE5A-04AF-409A-AB4B-57473D058DC8Q28256951-D0191226-A0E8-424B-BFCA-4018F549043FQ28361949-F86EDDE0-41CD-4476-88E0-653C0BB77EE0Q30878584-F7032B46-84B0-429F-ADAA-9F429327871FQ30883523-7C04A6D8-E516-4FFE-BCE1-0AB84BBEC423Q33533993-B7E924C1-0363-4537-81B6-2572839089DFQ33602601-9C5BB42C-3F8D-4545-9CF5-1E6DCFCE0CD6Q33635413-1000EB23-8A01-4302-8CA1-2358799D06B1Q33708316-24124388-6B21-4086-9664-E030CCAB2AB3Q33727010-0585FC75-EDA4-40D4-B2DF-05C511DE93A6Q33736446-2BB0DD1C-F063-422F-928F-6B4D1978D9BFQ33752382-AC6C2A92-9277-4691-AC8A-80B51AD62BE9Q33757485-2A6FF01D-E6FC-4CA0-B04F-87DD455A0DC6Q33796704-661EF85F-7418-4F28-A9DE-449B4909D8A1Q33813470-308404CB-2509-491B-9A57-9AF1DC6DF9DDQ33962532-09748FF6-6D0B-4FDE-95E2-248C1BBD07BAQ33970152-0CBC3121-81DF-48A7-B205-142B2A04A7B3Q33984716-63B606EF-57FD-453B-AFA7-4468E2D0148EQ33990523-CD2F9DE7-0232-44C2-980A-D624893EC63DQ33992182-4F971F9E-29E1-4BF8-AA28-D8C8858A1645Q33997106-088EA1BD-1258-4946-BCAC-EE63E0345EA2Q34012308-94C99678-7286-4AAD-9E04-6F9DF30B101CQ34049128-DC5157E4-453D-4E28-8572-7F8B9045335AQ34067266-A5268213-044D-42A3-85EE-A02EC1442094Q34069395-A0E1A03C-F6C3-46F9-9141-7450BEF9D721Q34157681-7DAC0FA3-5501-4A2B-9A20-294AFA68D3D5Q34213883-A3548BBA-B292-403D-A131-9374C67BCF32Q34293002-48096A58-092E-4392-A6D7-E78389F07CF7Q34316009-D7B336C4-969C-4A40-9592-5A959DE9A140Q34351361-F67E2FAE-28E1-4B9C-B04A-60B42BF6507BQ34568426-68430C8F-B0E8-40E5-B8AA-D09CD6659D2AQ34795807-9C2F2DA3-8189-4FF5-8A63-109ADF9D5B3AQ34879527-850AA043-5A31-4610-87AF-EC39A4282F06Q34973894-1A2C7110-742F-4AB2-8A3F-CAEF8B0601A9
P2860
Interspecies transformation of Acinetobacter: genetic evidence for a ubiquitous genus
description
1972 nî lūn-bûn
@nan
1972年の論文
@ja
1972年論文
@yue
1972年論文
@zh-hant
1972年論文
@zh-hk
1972年論文
@zh-mo
1972年論文
@zh-tw
1972年论文
@wuu
1972年论文
@zh
1972年论文
@zh-cn
name
Interspecies transformation of Acinetobacter: genetic evidence for a ubiquitous genus
@en
type
label
Interspecies transformation of Acinetobacter: genetic evidence for a ubiquitous genus
@en
prefLabel
Interspecies transformation of Acinetobacter: genetic evidence for a ubiquitous genus
@en
P2860
P1476
Interspecies transformation of Acinetobacter: genetic evidence for a ubiquitous genus
@en
P2093
P2860
P304
P407
P577
1972-11-01T00:00:00Z