ICEberg
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ICE family: Unclassified


#IDICE nameStrainReplicon
11 experimental BTF-37Bacteroides fragilis LV23-
263 experimental CTn86Bacteroides fragilis 86-5443-2-2-
364 experimental CTnBSTBacteroides uniformis WH207-
465 experimental CTnGERM1Bacteroides ovatus unknown strain(s)-
566 experimental CTnscr94Salmonella enterica subsp. enterica serovar Senftenberg, strain 5494-57-
667 experimental Tn6000 (EfcTn1)Enterococcus casseliflavus 664.1H1-
771 experimental ICEEc2Escherichia coli BEN374-
874 experimental ICEEcIHE3034-1Escherichia coli IHE3034-
977 experimental ICESe2Streptococcus equi subsp. equi 4047NC_012471
1093 experimental Tcr Emr 7853Bacteroides thetaiotaomicron 7853-
1194 experimental Tn5030Bacteroides sp. unknown strain(s)-
1296 experimental Tn5276Lactococcus lactis R5-
1397 experimental Tn5281Enterococcus faecalis unknown strain(s)-
1498 experimental Tn5307Lactococcus lactis 11454-
15101 experimental Tn5385Enterococcus faecalis JH2-7-
16102 experimental Tn5386Enterococcus faecium D344R-
17107 experimental TnB1230Butyrivibrio fibrisolvens 1.230-
18110 experimental bph-salPseudomonas putida KF715-
19111 experimental LpPI-1Legionella pneumophila subsp. pneumophila str. Philadelphia 1-
20115 in_silico ICESe3Salmonella enterica SARC16-
21117 experimental pSAM2Streptomyces ambofaciens ATCC 15154 B3-
22118 experimental pSA1.1Streptomyces cyaneus ATCC14921-
23119 experimental pIJ408Streptomyces glaucescens GLA000-
24120 experimental pIJ110Streptomyces parvulus ATCC 12434-
25122 experimental pMEA100Amycolatopsis mediterranei LBG A3136-
26123 experimental pMEA300Amycolatopsis methanolica NCIB11946-
27124 experimental pRS01Lactococcus lactis subsp. lactis ML3-
28127 in_silico ICEKpn342-1Klebsiella pneumoniae 342NC_011283
29150 experimental pMR2Micromonospora rosaria SCC2095, NRRL3718-
30151 experimental pSG1Streptomyces griseus NRRL3851-
31152 experimental CTn9343Bacteroides fragilis NCTC 9343NC_003228
32156 in_silico pSE102Saccharopolyspora erythraea NRRL 2338NC_009142
33157 experimental pSE211Saccharopolyspora erythraea NRRL 2338NC_009142
34158 in_silico pSE222Saccharopolyspora erythraea NRRL 2338NC_009142
35159 experimental TnGBS2 (genomic island X)Streptococcus agalactiae NEM316NC_004368
36163 experimental SLP1Streptomyces coelicolor A3(2)NC_003888
37164 ICEVchNEV2Vibrio cholerae non-O1, non-O139 NEV2-
38167 Tn6111Clostridium difficile QCD-32G58-
39168 Tn6110Clostridium difficile QCD-23M63-
40169 Tn6107Clostridium difficile QCD-23M63-
41170 Tn6103Clostridium difficile R20291-
42171 Tn6073Clostridium difficile QCD-23M63-
43183 in_silico 2096-RD.2Streptococcus pyogenes MGAS2096NC_008023
44186 in_silico 6180-RD.1Streptococcus pyogenes MGAS6180NC_007296
45206 in_silico AICEFraal5456Frankia alni ACN14aNC_008278
46207 in_silico AICEFranean5323Frankia sp. EAN1pecNC_009921
47208 in_silico AICEFranean6303Frankia sp. EAN1pecNC_009921
48209 in_silico AICEMflv3036Mycobacterium gilvum PYR-GCKNC_009338
49210 in_silico AICESare1562Salinispora arenicola CNS-205NC_009953
50211 in_silico AICESare1922Salinispora arenicola CNS-205NC_009953
51212 in_silico AICESav3708Streptomyces avermitilis MA-4680NC_003155
52213 in_silico AICESav3728Streptomyces avermitilis MA-4680NC_003155
53214 in_silico AICESco3250Streptomyces coelicolor A3(2)NC_003888
54215 in_silico AICESco5349Streptomyces coelicolor A3(2)NC_003888
55216 in_silico AICEStrop0058Salinispora tropica CNB-440NC_009380
56232 in_silico ICESsu(BM407)1Streptococcus suis BM407NC_012926
57237 in_silico AICESare1208Salinispora arenicola CNS-205NC_009953
58238 in_silico AICESco3937Streptomyces coelicolor A3(2)NC_003888
59239 in_silico AICESco3997Streptomyces coelicolor A3(2)NC_003888
60242 experimental HHGI1Helicobacter hepaticus ATCC 51449NC_004917
61290 in_silico CdiA1Clostridium difficile unknown strain(s)-
62291 in_silico CdiA2Clostridium difficile unknown strain(s)-
63292 in_silico CdiA3Clostridium difficile unknown strain(s)-
64293 in_silico CdiB2Clostridium difficile unknown strain(s)-
65294 in_silico CdiB3Clostridium difficile unknown strain(s)-
66295 in_silico CdiB4Clostridium difficile unknown strain(s)-
67296 in_silico EfaA4Enterococcus faecalis unknown strain(s)-
68297 in_silico EfaB5Enterococcus faecalis unknown strain(s)-
69298 in_silico EfaC1Enterococcus faecalis unknown strain(s)-
70299 in_silico EfaC2Enterococcus faecalis unknown strain(s)-
71300 in_silico EfaD2Enterococcus faecalis unknown strain(s)-
72301 in_silico SeqA6Streptococcus equi unknown strain(s)-
73302 in_silico SmuEStreptococcus mutans UAB159-
74311 experimental ICESsu05ZYH33-1Streptococcus suis 05ZYH33NC_009442
75322 in_silico ICESgal1Streptococcus gallolyticus UCN34NC_013798
76375 experimental ICEPm1Proteus mirabilis HI4320NC_010554
77376 in_silico ICEEfaV583-1Enterococcus faecalis V583NC_004668
78381 in_silico ICEDda3937-1Dickeya dadantii 3937NC_014500
79382 experimental Tn5382(5-F9)Streptococcus lutetiensis 5-F9-
80384 in_silico ICEPaePA14-1Pseudomonas aeruginosa UCBPP-PA14NC_008463
81387 in_silico CTnPg1-bPorphyromonas gingivalis ATCC 33277NC_010729
82388 in_silico CTnPg2Porphyromonas gingivalis ATCC 33277NC_010729
83389 in_silico CTnPg3Porphyromonas gingivalis ATCC 33277NC_010729
84390 in_silico ICEBvu8482-1Bacteroides vulgatus ATCC 8482NC_009614
85391 in_silico ICEBvu8482-2Bacteroides vulgatus ATCC 8482NC_009614
86394 experimental Tn6098Lactococcus lactis subsp. lactis KF147NC_013656
87395 in_silico TnSmu1Streptococcus mutans UA159AE014133
88396 experimental ICEHpyP12-1Helicobacter pylori P12NC_011498
89397 in_silico ICEHpyP12-2Helicobacter pylori P12NC_011498
90404 experimental Tn5301Lactococcus lactis FI5876-
91436 experimental PPHGI-1Pseudomonas syringae pv. phaseolicola 1302A-
92437 in_silico ICEKpnHS11286-2Klebsiella pneumoniae HS11286CP003200
93438 experimental phn IslandDelftia sp. Cs1-4NC_015563
94439 experimental ICESp2905Streptococcus pyogenes iB21-
95440 experimental ICEPmu1Pasteurella multocida 36950NC_016808
96441 in_silico ICEHso2336-1Haemophilus somnus 2336NC_010519
97443 in_silico pACPLActinoplanes sp. SE50/110NC_017803
98448 in_silico Tn6202Enterococcus faecalis N00-410-
99449 experimental ICE_515_tRNALysStreptococcus agalactiae 515-
100464 in_silico ICESe4Salmonella enterica subsp. enterica serovar Hadar 18-
101465 in_silico ICECroICC168-1Citrobacter rodentium ICC168NC_013716
102466 in_silico ICEPluTTO1-1Photorhabdus luminescens subsp. laumondii TTO1NC_005126
103467 in_silico HAI2Erwinia carotovora subsp. atroseptica SCRI1043NC_004547
experimental Data derived from experimental literature
in_silico Putative ICEs predicted by bioinformatic methods
ElementNo. of sequencesDownloadAlignment
Proteins0Fasta-
ICEs0Fasta-
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(3) Liu G et al. (2010). Cleavage of phosphorothioated DNA and methylated DNA by the type IV restriction endonuclease ScoMcrA. PLoS Genet. 6(12):e1001253. [PudMed:21203499] experimental
(4) Zhang J et al. (2011). Expansion of the known Klebsiella pneumoniae species gene pool by characterization of novel alien DNA islands integrated into tmRNA gene sites. J Microbiol Methods. 84(2):283-9. [PudMed:21182879] experimental
(5) Machielsen R et al. (2011). Molecular description and industrial potential of Tn6098 conjugative transfer conferring alpha-galactoside metabolism in Lactococcus lactis. Appl Environ Microbiol. 77(2):555-63. [PudMed:21115709] experimental
(6) Roche D et al. (2010). ICEEc2, a new integrative and conjugative element belonging to the pKLC102/PAGI-2 family, identified in Escherichia coli strain BEN374. J Bacteriol. 192(19):5026-36. [PudMed:20675467] experimental
(7) Brouwer MS et al. (2010). Characterization of the conjugative transposon Tn6000 from Enterococcus casseliflavus 664.1H1 (formerly Enterococcus faecium 664.1H1). FEMS Microbiol Lett. 309(1):71-6. [PudMed:20528943] experimental
(8) Fischer W et al. (2010). Strain-specific genes of Helicobacter pylori: genome evolution driven by a novel type IV secretion system and genomic island transfer. Nucleic Acids Res. 38(18):6089-101. [PudMed:20478826]
(9) Rusniok C et al. (2010). Genome sequence of Streptococcus gallolyticus: insights into its adaptation to the bovine rumen and its ability to cause endocarditis. J Bacteriol. 192(8):2266-76. [PudMed:20139183]
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(11) Bordeleau E et al. (2010). Beyond antibiotic resistance: integrating conjugative elements of the SXT/R391 family that encode novel diguanylate cyclases participate to c-di-GMP signalling in Vibrio cholerae. Environ Microbiol. 12(2):510-23. [PudMed:19888998] experimental
(12) Putze J et al. (2009). Genetic structure and distribution of the colibactin genomic island among members of the family Enterobacteriaceae. Infect Immun. 77(11):4696-703. [PudMed:19720753] experimental in_silico
(13) Flannery EL et al. (2009). Identification of a modular pathogenicity island that is widespread among urease-producing uropathogens and shares features with a diverse group of mobile elements. Infect Immun. 77(11):4887-94. [PudMed:19687197] experimental
(14) Holden MT et al. (2009). Genomic evidence for the evolution of Streptococcus equi: host restriction, increased virulence, and genetic exchange with human pathogens. PLoS Pathog. 5(3):e1000346. [PudMed:19325880]
(15) Brochet M et al. (2009). Atypical association of DDE transposition with conjugation specifies a new family of mobile elements. Mol Microbiol. 71(4):948-59. [PudMed:19183283] experimental
(16) Mavrodi DV et al. (2009). Mobile genetic elements in the genome of the beneficial rhizobacterium Pseudomonas fluorescens Pf-5. BMC Microbiol. 9:8. [PudMed:19144133]
(17) Heather Z et al. (2008). A novel streptococcal integrative conjugative element involved in iron acquisition. Mol Microbiol. 70(5):1274-92. [PudMed:18990191] experimental
(18) Feizabadi MM et al. (2008). Transposon Tn5281 is the main distributor of the aminoglycoside modifying enzyme gene among isolates of Enterococcus faecalis in Tehran hospitals. Can J Microbiol. 54(10):887-90. [PudMed:18923558] experimental
(19) Naito M et al. (2008). Determination of the genome sequence of Porphyromonas gingivalis strain ATCC 33277 and genomic comparison with strain W83 revealed extensive genome rearrangements in P. gingivalis. DNA Res. 15(4):215-25. [PudMed:18524787]
(20) te Poele EM et al. (2008). Actinomycete integrative and conjugative elements. Antonie Van Leeuwenhoek. 94(1):127-43. [PudMed:18523858]
(21) te Poele EM et al. (2008). Actinomycete integrative and conjugative pMEA-like elements of Amycolatopsis and Saccharopolyspora decoded. Plasmid. 59(3):202-16. [PudMed:18295883] in_silico
(22) Beres SB et al. (2007). Contribution of exogenous genetic elements to the group A Streptococcus metagenome. PLoS One. 2(8):e800. [PudMed:17726530]
(23) Hecht DW et al. (2007). Characterization of BctA, a mating apparatus protein required for transfer of the Bacteroides fragilis conjugal element BTF-37. Res Microbiol. 158(7):600-7. [PudMed:17720457] experimental
(24) Song B et al. (2007). Integration site selection by the Bacteroides conjugative transposon CTnBST. J Bacteriol. 189(18):6594-601. [PudMed:17616597] experimental
(25) te Poele EM et al. (2007). Prevalence and distribution of nucleotide sequences typical for pMEA-like accessory genetic elements in the genus Amycolatopsis. FEMS Microbiol Ecol. 61(2):285-94. [PudMed:17535299] experimental
(26) Schlesinger DJ et al. (2007). Possible origins of CTnBST, a conjugative transposon found recently in a human colonic Bacteroides strain. Appl Environ Microbiol. 73(13):4226-33. [PudMed:17483268] experimental
(27) Oliynyk M et al. (2007). Complete genome sequence of the erythromycin-producing bacterium Saccharopolyspora erythraea NRRL23338. Nat Biotechnol. 25(4):447-53. [PudMed:17369815]
(28) Rice LB et al. (2007). Interaction of related Tn916-like transposons: analysis of excision events promoted by Tn916 and Tn5386 integrases. J Bacteriol. 189(10):3909-17. [PudMed:17322310] experimental
(29) Belhocine K et al. (2007). Conjugative transfer of the Lactococcus lactis sex factor and pRS01 plasmid to Enterococcus faecalis. FEMS Microbiol Lett. 269(2):289-94. [PudMed:17263841] experimental
(30) Wesslund NA et al. (2007). Integration and excision of a newly discovered bacteroides conjugative transposon, CTnBST. J Bacteriol. 189(3):1072-82. [PudMed:17122349] experimental
(31) Nougayrede JP et al. (2006). Escherichia coli induces DNA double-strand breaks in eukaryotic cells. Science. 313(5788):848-51. [PudMed:16902142] experimental
(32) Roberts AP et al. (2006). Characterization of the ends and target site of a novel tetracycline resistance-encoding conjugative transposon from Enterococcus faecium 664.1H1. J Bacteriol. 188(12):4356-61. [PudMed:16740942] experimental
(33) Pitman AR, Jackson RW, Mansfield JW, Kaitell V, Thwaites R, Arnold DL (2005). Exposure to host resistance mechanisms drives evolution of bacterial virulence in plants. Curr Biol. 15(24):2230-5. [PudMed:16360685] experimental
(34) Rice LB et al. (2005). Tn5386, a novel Tn916-like mobile element in Enterococcus faecium D344R that interacts with Tn916 to yield a large genomic deletion. J Bacteriol. 187(19):6668-77. [PudMed:16166528] experimental
(35) Hosted TJ Jr et al. (2005). Characterization of the Micromonospora rosaria pMR2 plasmid and development of a high G+C codon optimized integrase for site-specific integration. Plasmid. 54(3):249-58. [PudMed:16024079] experimental
(36) Franco AA (2004). The Bacteroides fragilis pathogenicity island is contained in a putative novel conjugative transposon. J Bacteriol. 186(18):6077-92. [PudMed:15342577] experimental
(37) Melville CM et al. (2004). The Butyrivibrio fibrisolvens tet(W) gene is carried on the novel conjugative transposon TnB1230, which contains duplicated nitroreductase coding sequences. J Bacteriol. 186(11):3656-9. [PudMed:15150255] experimental
(38) Gupta A et al. (2003). A new Bacteroides conjugative transposon that carries an ermB gene. Appl Environ Microbiol. 69(11):6455-63. [PudMed:14602600] experimental
(39) Wang Y et al. (2003). A newly discovered Bacteroides conjugative transposon, CTnGERM1, contains genes also found in gram-positive bacteria. Appl Environ Microbiol. 69(8):4595-603. [PudMed:12902247] experimental
(40) Dahl KH et al. (2003). Transferable vanB2 Tn5382-containing elements in fecal streptococcal strains from veal calves. Antimicrob Agents Chemother. 47(8):2579-83. [PudMed:12878522] experimental
(41) Brassinga AK et al. (2003). A 65-kilobase pathogenicity island is unique to Philadelphia-1 strains of Legionella pneumophila. J Bacteriol. 185(15):4630-7. [PudMed:12867476] experimental
(42) Paulsen IT et al. (2003). Role of mobile DNA in the evolution of vancomycin-resistant Enterococcus faecalis. Science. 299(5615):2071-4. [PudMed:12663927]
(43) Possoz C et al. (2003). Conjugal immunity of Streptomyces strains carrying the integrative element pSAM2 is due to the pif gene (pSAM2 immunity factor). Mol Microbiol. 47(5):1385-93. [PudMed:12603742] experimental
(44) Ajdic D et al. (2002). Genome sequence of Streptococcus mutans UA159, a cariogenic dental pathogen. Proc Natl Acad Sci U S A. 99(22):14434-9. [PudMed:12397186]
(45) Burrus V et al. (2002). The ICESt1 element of Streptococcus thermophilus belongs to a large family of integrative and conjugative elements that exchange modules and change their specificity of integration. Plasmid. 48(2):77-97. [PudMed:12383726] experimental in_silico
(46) Glaser P et al. (2002). Genome sequence of Streptococcus agalactiae, a pathogen causing invasive neonatal disease. Mol Microbiol. 45(6):1499-513. [PudMed:12354221]
(47) Dimopoulou ID et al. (2002). Site-specific recombination with the chromosomal tRNA(Leu) gene by the large conjugative Haemophilus resistance plasmid. Antimicrob Agents Chemother. 46(5):1602-3. [PudMed:11959612] experimental
(48) Vedantam G et al. (2002). 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. J Bacteriol. 184(3):728-38. [PudMed:11790742] experimental
(49) Nishi A et al. (2000). A 90-kilobase conjugative chromosomal element coding for biphenyl and salicylate catabolism in Pseudomonas putida KF715. J Bacteriol. 182(7):1949-55. [PudMed:10715002] experimental
(50) Chung WO et al. (1999). Mobile elements carrying ermF and tetQ genes in gram-positive and gram-negative bacteria. J Antimicrob Chemother. 44(3):329-35. [PudMed:10511399] experimental
(51) Sezonov G et al. (1998). Replicase, excisionase, and integrase genes of the Streptomyces element pSAM2 constitute an operon positively regulated by the pra gene. J Bacteriol. 180(12):3056-61. [PudMed:9620953] experimental
(52) Rice LB et al. (1998). Transfer of Tn5385, a composite, multiresistance chromosomal element from Enterococcus faecalis. J Bacteriol. 180(3):714-21. [PudMed:9457879] experimental
(53) Seoane A et al. (1997). Targets for pSAM2 integrase-mediated site-specific integration in the Mycobacterium smegmatis chromosome. Microbiology. 143 ( Pt 10):3375-80. [PudMed:9353939] experimental
(54) Hochhut B et al. (1997). CTnscr94, a conjugative transposon found in enterobacteria. J Bacteriol. 179(7):2097-102. [PudMed:9079891] experimental
(55) Cooper AJ et al. (1996). The erythromycin resistance gene from the Bacteroides conjugal transposon Tcr Emr 7853 is nearly identical to ermG from Bacillus sphaericus. Antimicrob Agents Chemother. 40(2):506-8. [PudMed:8834912] experimental
(56) Mills DA et al. (1996). Splicing of a group II intron involved in the conjugative transfer of pRS01 in lactococci. J Bacteriol. 178(12):3531-8. [PudMed:8655550] experimental
(57) Vrijbloed JW et al. (1995). Identification of the minimal replicon of plasmid pMEA300 of the methylotrophic actinomycete Amycolatopsis methanolica. Mol Microbiol. 18(1):21-31. [PudMed:8596458] experimental
(58) De Vos WM et al. (1995). Genetics of the nisin operon and the sucrose-nisin conjugative transposon Tn5276. Dev Biol Stand. 85:617-25. [PudMed:8586240] experimental
(59) Broadbent JR et al. (1995). Characteristics of Tn5307 exchange and intergeneric transfer of genes associated with nisin production. Appl Microbiol Biotechnol. 44(1-2):139-46. [PudMed:8579827] experimental
(60) Vrijbloed JW et al. (1995). Transformation of the methylotrophic actinomycete Amycolatopis methanolica with plasmid DNA: stimulatory effect of a pMEA300-encoded gene. Plasmid. 34(2):96-104. [PudMed:8559807] experimental
(61) Sezonov G et al. (1995). Characterization of pra, a gene for replication control in pSAM2, the integrating element of Streptomyces ambofaciens. Mol Microbiol. 17(3):533-44. [PudMed:8559072] experimental
(62) Brasch MA et al. (1993). Localization and nucleotide sequences of genes mediating site-specific recombination of the SLP1 element in Streptomyces lividans. J Bacteriol. 175(10):3067-74. [PudMed:8387993] experimental
(63) Hagege J et al. (1993). Transfer functions of the conjugative integrating element pSAM2 from Streptomyces ambofaciens: characterization of a kil-kor system associated with transfer. J Bacteriol. 175(17):5529-38. [PudMed:8366038] experimental
(64) Rauch PJ et al. (1994). Identification and characterization of genes involved in excision of the Lactococcus lactis conjugative transposon Tn5276. J Bacteriol. 176(8):2165-71. [PudMed:8157585] experimental
(65) Hagege J et al. (1994). Identification of a gene encoding the replication initiator protein of the Streptomyces integrating element, pSAM2. Plasmid. 31(2):166-83. [PudMed:8029324] experimental
(66) Vrijbloed JW et al. (1994). A plasmid from the methylotrophic actinomycete Amycolatopsis methanolica capable of site-specific integration. J Bacteriol. 176(22):7087-90. [PudMed:7961475] experimental
(67) Nikolich MP et al. (1994). Characterization of a new type of Bacteroides conjugative transposon, Tcr Emr 7853. J Bacteriol. 176(21):6606-12. [PudMed:7961412] experimental
(68) Hagege J et al. (1993). Mode and origin of replication of pSAM2, a conjugative integrating element of Streptomyces ambofaciens. Mol Microbiol. 10(4):799-812. [PudMed:7934842] experimental
(69) Mills DA et al. (1994). Genetic analysis of regions of the Lactococcus lactis subsp. lactis plasmid pRS01 involved in conjugative transfer. Appl Environ Microbiol. 60(12):4413-20. [PudMed:7811081] experimental
(70) Bibb MJ et al. (1981). Excision of chromosomal DNA sequences from Streptomyces coelicolor forms a novel family of plasmids detectable in Streptomyces lividans. Mol Gen Genet. 184(2):230-40. [PudMed:6948998] experimental
(71) Pernodet JL et al. (1984). Plasmids in different strains of Streptomyces ambofaciens: free and integrated form of plasmid pSAM2. Mol Gen Genet. 198(1):35-41. [PudMed:6596483] experimental
(72) Hopwood DA et al. (1984). Integrated DNA sequences in three streptomycetes form related autonomous plasmids after transfer to Streptomyces lividans. Plasmid. 11(1):1-16. [PudMed:6369354] experimental
(73) Omer CA et al. (1984). Plasmid formation in Streptomyces: excision and integration of the SLP1 replicon at a specific chromosomal site. Mol Gen Genet. 196(3):429-38. [PudMed:6094971] experimental
(74) Miyoshi YK et al. (1986). Multicopy derivative of pock-forming plasmid pSA1 in Streptomyces azureus. J Bacteriol. 168(1):452-4. [PudMed:3759910] experimental
(75) Lee SC et al. (1988). Analysis of recombination occurring at SLP1 att sites. J Bacteriol. 170(12):5806-13. [PudMed:3056916] experimental
(76) Moretti P et al. (1985). Isolation and characterization of an extrachromosomal element from Nocardia mediterranei. Plasmid. 14(2):126-33. [PudMed:2999850] experimental
(77) Cohen A et al. (1985). The integrated and free states of Streptomyces griseus plasmid pSG1. Plasmid. 13(1):41-50. [PudMed:2986187] experimental
(78) Madon J et al. (1987). Site-specific integration and excision of pMEA100 in Nocardia mediterranei. Mol Gen Genet. 209(2):257-64. [PudMed:2823074] experimental
(79) Sosio M et al. (1989). Excision of pIJ408 from the chromosome of Streptomyces glaucescens and its transfer into Streptomyces lividans. Mol Gen Genet. 218(1):169-76. [PudMed:2779515] experimental
(80) Boccard F et al. (1989). The integrated conjugative plasmid pSAM2 of Streptomyces ambofaciens is related to temperate bacteriophages. EMBO J. 8(3):973-80. [PudMed:2721504] experimental
(81) Boccard F et al. (1989). Structural analysis of loci involved in pSAM2 site-specific integration in Streptomyces. Plasmid. 21(1):59-70. [PudMed:2657820] experimental
(82) Kuhstoss S et al. (1989). Site-specific integration in Streptomyces ambofaciens: localization of integration functions in S. ambofaciens plasmid pSAM2. J Bacteriol. 171(1):16-23. [PudMed:2536654] experimental
(83) Brown DP et al. (1990). Characterization of the genetic elements required for site-specific integration of plasmid pSE211 in Saccharopolyspora erythraea. J Bacteriol. 172(4):1877-88. [PudMed:2180909] experimental
(84) Halula M et al. (1990). Tn5030: a conjugative transposon conferring clindamycin resistance in Bacteroides species. Rev Infect Dis. 12 Suppl 2:S235-42. [PudMed:2154843] experimental
(85) Katz L et al. (1991). Site-specific recombination in Escherichia coli between the att sites of plasmid pSE211 from Saccharopolyspora erythraea. Mol Gen Genet. 227(1):155-9. [PudMed:2046656] experimental
(86) Horn N et al. (1991). Nisin biosynthesis genes are encoded by a novel conjugative transposon. Mol Gen Genet. 228(1-2):129-35. [PudMed:1679523] experimental
(87) Vogtli M et al. (1992). The chromosomal integration site for the Streptomyces plasmid SLP1 is a functional tRNA(Tyr) gene essential for cell viability. Mol Microbiol. 6(20):3041-50. [PudMed:1479893] experimental
(88) Bar-Nir D et al. (1992). tDNA(ser) sequences are involved in the excision of Streptomyces griseus plasmid pSG1. Gene. 122(1):71-6. [PudMed:1452039] experimental
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