Tetracycline-dependent appearance of plasmidlike forms in Bacteroides uniformis 0061 mediated by conjugal Bacteroides tetracycline resistance elements.
about
Antibiotics as a selective driver for conjugation dynamicsProduction of two proteins encoded by the Bacteroides mobilizable transposon NBU1 correlates with time-dependent accumulation of the excised NBu1 circular form.Characterization of a Bacteroides mobilizable transposon, NBU2, which carries a functional lincomycin resistance gene.Translational control of tetracycline resistance and conjugation in the Bacteroides conjugative transposon CTnDOT.Characterization of the 13-kilobase ermF region of the Bacteroides conjugative transposon CTnDOT.Integration and excision of a Bacteroides conjugative transposon, CTnDOT.The global regulator H-NS acts directly on the transpososome to promote Tn10 transpositionAntibiotic resistance genes in the vaginal microbiota of primates not normally exposed to antibiotics.The mobilization regions of two integrated Bacteroides elements, NBU1 and NBU2, have only a single mobilization protein and may be on a cassetteThe Bacteroides mobilizable insertion element, NBU1, integrates into the 3' end of a Leu-tRNA gene and has an integrase that is a member of the lambda integrase familyCloning and characterization of a Bacteroides conjugal tetracycline-erythromycin resistance element by using a shuttle cosmid vectorMobile genetic elements in the genus Bacteroides, and their mechanism(s) of dissemination.Evidence for natural horizontal transfer of tetQ between bacteria that normally colonize humans and bacteria that normally colonize livestock.Insertion and excision of Bacteroides conjugative chromosomal elements.Genes involved in production of plasmidlike forms by a Bacteroides conjugal chromosomal element share amino acid homology with two-component regulatory systemsTetracycline regulation of genes on Bacteroides conjugative transposons.Excision, transfer, and integration of NBU1, a mobilizable site-selective insertion elementCharacterization of the mobilization region of a Bacteroides insertion element (NBU1) that is excised and transferred by Bacteroides conjugative transposons.A cryptic 65-kilobase-pair transposonlike element isolated from Bacteroides uniformis has homology with Bacteroides conjugal tetracycline resistance elements.Genetic evidence that outer membrane binding of starch is required for starch utilization by Bacteroides thetaiotaomicronThe region of a Bacteroides conjugal chromosomal tetracycline resistance element which is responsible for production of plasmidlike forms from unlinked chromosomal DNA might also be involved in transfer of the element.The small RNA RteR inhibits transfer of the Bacteroides conjugative transposon CTnDOT.Conjugative transposons: an unusual and diverse set of integrated gene transfer elements.An unexpected effect of tetracycline concentration: growth phase-associated excision of the Bacteroides mobilizable transposon NBU1Interactions of NBU1 IntN1 and Orf2x proteins with attachment site DNA.Challenging a paradigm: the role of DNA homology in tyrosine recombinase reactions.Microbiological effects of sublethal levels of antibiotics.Dissecting the effects of antibiotics on horizontal gene transfer: Analysis suggests a critical role of selection dynamics.Bacteroides fragilis transfer factor Tn5520: the smallest bacterial mobilizable transposon containing single integrase and mobilization genes that function in Escherichia coli.The transfer origin for Bacteroides mobilizable transposon Tn4555 is related to a plasmid family from gram-positive bacteriaIsolation and characterization of cLV25, a Bacteroides fragilis chromosomal transfer factor resembling multiple Bacteroides sp. mobilizable transposons.Isolation and characterization of BTF-37: chromosomal DNA captured from Bacteroides fragilis that confers self-transferability and expresses a pilus-like structure in Bacteroides spp. and Escherichia coli.Characterization and DNA sequence of the mobilization region of pLV22a from Bacteroides fragilis.NBU1, a mobilizable site-specific integrated element from Bacteroides spp., can integrate nonspecifically in Escherichia coli.Identification of a circular intermediate in the transfer and transposition of Tn4555, a mobilizable transposon from Bacteroides spp.The presence of conjugative transposon Tn916 in the recipient strain does not impede transfer of a second copy of the elementA site-specific DNA inversion in Bacteroides plasmid pBF4 is influenced by the presence of the conjugal tetracycline resistance element.Regulation of a Bacteroides operon that controls excision and transfer of the conjugative transposon CTnDOT.Control of genes for conjugative transfer of plasmids and other mobile elements.The bacteroides NBU1 integrase performs a homology-independent strand exchange to form a holliday junction intermediate.
P2860
Q27313286-82D46070-470A-44C4-BB28-7C8B7E908D54Q33554716-3C77EF69-B765-451D-A637-B965A3BD7124Q33603130-F01EA6C9-547F-477F-9604-3B61650B9626Q33726779-109E49F7-5AED-40F3-BDD0-71307FBCC656Q33990026-CE1BE4B3-A27A-49F3-88C0-53BC8BD61CA6Q33994404-1617E7D2-48D7-431D-88CE-2D79D3044F83Q34009176-085CFDD7-CF35-4C1E-BEC5-D912146D9988Q35134793-C54EFB3E-0B0D-4609-B137-F96728062C84Q35589859-B052321F-25ED-44FE-BA41-F53FC3E1D91FQ35608605-1CF520BA-46BD-4E2A-A76D-F4EF234318EEQ35805204-BFF9043E-5971-4F85-A449-C221B0BCA442Q35852691-7540A817-4177-4131-B8B9-0D7DBB7187EAQ36058218-0E376BE8-B7D2-4EDF-B4E7-AE3C9440C84DQ36109436-192B1A76-BF08-4FE9-B0F2-B4F093E1A83DQ36111310-C8042159-A1F1-47AC-95B2-279BAF5FFE27Q36122622-6918C2E6-D52E-4553-A165-F3BC5E820E97Q36123078-DC5F1967-D84F-402D-ADEF-704A80A680ABQ36123086-2C3F85C1-BE10-477F-9ABA-60925A88BAA6Q36159625-39BFF4A5-80B5-43B5-B19F-72DA78E4B80AQ36178541-8FD5F26F-BB45-45DE-BDD2-E7FFED215361Q36254645-7F333C1F-C525-4F17-B4DA-CCFA517D7B1BQ36276342-2115A152-8699-4C7D-9DDE-7B323FAA982DQ36670389-F760AAC5-A37B-47D3-8EA9-76023DBD93C2Q37075510-9841F2F0-0B2D-4EF8-8200-7E8DC69B5D4EQ37469777-666E093F-D7B2-4572-B1AA-23FA73983A39Q37504513-D097B259-EA5B-4A49-B107-2CF1EB90C729Q38214805-02828FCF-48A3-428F-8F33-44E882A09FC0Q38971699-1D3A94D0-4231-4C82-AEF7-C9AB6F5ACAD4Q39495302-37DD1060-A145-431D-B82E-A3D00BB8B9E0Q39564325-5750A3BA-F3DF-47A6-9DC1-2FFE65236082Q39678677-B95FC9E8-551F-4147-A8A3-F30AC1ADD54EQ39694549-35C68846-B4C0-47F0-B0BF-B798DD068A2EQ39837807-DBB9606C-1A47-40D7-B8BF-B685C94D49DCQ39841812-9EE14CA8-41BA-41DC-9B6B-22EE7AE34A98Q39928223-9595D886-9F93-4377-8175-6302F6970BA2Q39938842-EED11DA8-48B1-4CAE-84F5-2EB2D9CABB36Q39942825-C265B686-7B8D-4F37-8D3A-89E8E3D5F073Q40763527-742B954A-C801-49D5-BA38-78F444C6F5F9Q43453420-3F7AC5EC-6A18-4E50-9D76-F3726D80DBBCQ54435180-B90415AD-3C31-4553-AA9A-1C364A566B13
P2860
Tetracycline-dependent appearance of plasmidlike forms in Bacteroides uniformis 0061 mediated by conjugal Bacteroides tetracycline resistance elements.
description
1988 nî lūn-bûn
@nan
1988年の論文
@ja
1988年論文
@yue
1988年論文
@zh-hant
1988年論文
@zh-hk
1988年論文
@zh-mo
1988年論文
@zh-tw
1988年论文
@wuu
1988年论文
@zh
1988年论文
@zh-cn
name
Tetracycline-dependent appeara ...... racycline resistance elements.
@ast
Tetracycline-dependent appeara ...... racycline resistance elements.
@en
type
label
Tetracycline-dependent appeara ...... racycline resistance elements.
@ast
Tetracycline-dependent appeara ...... racycline resistance elements.
@en
prefLabel
Tetracycline-dependent appeara ...... racycline resistance elements.
@ast
Tetracycline-dependent appeara ...... racycline resistance elements.
@en
P2860
P1476
Tetracycline-dependent appeara ...... racycline resistance elements.
@en
P2093
A A Salyers
N B Shoemaker
P2860
P304
P356
10.1128/JB.170.4.1651-1657.1988
P407
P577
1988-04-01T00:00:00Z