Excisive recombination of the SLP1 element in Streptomyces lividans is mediated by Int and enhanced by Xis

Brasch, Michael A.; Cohen, Stanley N.

doi:10.1128/jb.175.10.3075-3082.1993

Cited by 13 publications

(17 citation statements)

References 26 publications

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“…An excision-ase homologue appears to be absent on pSE222. Conceivably, its integrase can carry out both integration and excision, as shown for the integrase of SLP1 (Brasch and Cohen, 1993). The integrases of SLP1 and pSE222 only show 23% (84/352) identity to each other.…”

Section: Site-specific Integration and Excisionmentioning

confidence: 99%

Actinomycete integrative and conjugative pMEA-like elements of Amycolatopsis and Saccharopolyspora decoded

Poele

Samborskyy

Oliynyk

et al. 2008

Plasmid

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Section: Site-specific Integration and Excisionmentioning

confidence: 99%

Actinomycete integrative and conjugative pMEA-like elements of Amycolatopsis and Saccharopolyspora decoded

Poele

Samborskyy

Oliynyk

et al. 2008

Plasmid

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“…Additional high-molecular-weight bands in lanes 1 and 5 result from incomplete digestion. functional analysis of these genes as well as similarity of the derived amino acid sequences to those of known recombinases, we believe that the putative 455-amino-acid product of the int gene is an integrase while the product of the orf6l gene, a putative 61-amino-acid peptide, is an excisionase (9).…”

Section: Discussionmentioning

confidence: 99%

“…A summary of this region is presented in Fig. 3a [2] and extending to Scal [9]. orf6l initiates at nt 132 and terminates at nt 315. orf455 (also designated int) initiates at nt 378 and terminates at nt 1743.…”

Section: Methodsmentioning

confidence: 99%

“…The nucleotide sequence (Fig. 3b) of a 2.2-kb region of SLP1 DNA beginning just upstream of the BstBI site [2] and extending to the ScaI site [9] was determined. Two likely ORFs provisionally designated orf6l and orf455 were identified with the Codon Preference program of the University of Wisconsin Genetics Computer Group software package.…”

Section: Methodsmentioning

confidence: 99%

“…To confirm that the product of the int gene is responsible for the ability of the 2-kb HindIII [3]-ScaI [9] fragment to promote integration and to support the assignment of ATG-378 as the start of this gene, we constructed a derivative of pSUM154 that contains a nonsense codon at a position corresponding to amino acid 4 of the putative Int protein. This was accomplished by inserting a 14-bp linker that contains nonsense codons in each of the three reading frames (Materials and Methods) at the Spll site (position 388, Fig.…”

Section: Gtccttatgatcttcgccacgccgccgtgtccacgtggctcagttccggggtggaaccgcmentioning

confidence: 99%

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Localization and nucleotide sequences of genes mediating site-specific recombination of the SLP1 element in Streptomyces lividans

et al. 1993

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SLP1 is a 17.2-kbp genetic element indigenous to the Streptomyces coelicolor chromosome. During conjugation, SLP1 can undergo excision and subsequent site-specific integration into the chromosomes of recipient cells. We report here the localization, nucleotide sequences, and initial characterization of the genes mediating these recombination events. A region of SLP1 adjacent to the previously identified site of integration, attP, was found to be sufficient to promote site-specific integration of an unrelated Streptomyces plasmid. Nucleotide sequence analysis of a 2.2-kb segment of this region reveals two open reading frames that are adjacent to and transcribed toward the attP site. One of these, the 1,365-bp int gene of SLP1, encodes a predicted 50.6-kDa basic protein having substantial amino acid sequence similarity to a family of site-specific recombinases that includes the Escherichia coli bacteriophage A integrase. A linker insertion in the 5' end of the cloned int gene prevents integration, indicating that Int is essential for promoting integration. An open reading frame (orf6M) lying immediately 5' to int encodes a predicted 7.1-kDa basic peptide showing limited sequence similarity to the excisionase (xis) genes of other site-specific recombination systems.Streptomyces are gram-positive filamentous soil bacteria notable for their complex morphology as well as the production of a variety of antibiotics and other secondary metabolites, many of which have medical or agricultural importance. Numerous extrachromosomal elements have been identified for these organisms, including a novel family of chromosomally integrated self-transmissible plasmidogenic genetic elements (reviewed in reference 35). SLP1, indigenous to the chromosome of Streptomyces coelicolor (6), was the first of this group to be identified. A model in which the integrated SLP1 element (i.e., SLPlr') can excise from the S. coelicolor chromosome during conjugation with a strain lacking SLP1, transfer to the recipient strain as a transiently existing circular molecule, and either integrate into the recipient chromosome at a site identical to that occupied in the donor strain or undergo deletion of sequences that suppress autonomous replication and consequently be maintained as an autonomously replicating plasmid (33) has been proposed.The recombination reactions mediated by SLP1 are sitespecific and involve 112-bp regions of homology on SLP1 (attP) and the host chromosome (attB) that have only a single-base-pair difference (34). The integration event generates sites at the left (attL) and right (attR) of the integrated element that retain the homologies between attP and attB. Characterization of these sequences (29) integrants. A derivative of SLP1 containing an insertion at a KpnI site 1.3 kb from attP ( Fig. 1), within a locus designated intB, fails to integrate. In addition, integration of SLP1-derived plasmids deleted for a second locus (i.e., intA, Fig. 1) situated at some distance from attP and intB was not observed. This defect could be c...

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Actinomycete integrative and conjugative elements

Poele

Bolhuis

Dijkhuizen

2008

Antonie van Leeuwenhoek

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This paper reviews current knowledge on actinomycete integrative and conjugative elements (AICEs). The best characterised AICEs, pSAM2 of Streptomyces ambofaciens (10.9 kb), SLP1 (17.3 kb) of Streptomyces coelicolor and pMEA300 of Amycolatopsis methanolica (13.3 kb), are present as integrative elements in specific tRNA genes, and are capable of conjugative transfer. These AICEs have a highly conserved structural organisation, with functional modules for excision/integration, replication, conjugative transfer, and regulation. Recently, it has been shown that pMEA300 and the related elements pMEA100 of Amycolatopsis mediterranei and pSE211 of Saccharopolyspora erythraea form a novel group of AICEs, the pMEA-elements, based on the unique characteristics of their replication initiator protein RepAM. Evaluation of a large collection of Amycolatopsis isolates has allowed identification of multiple pMEA-like elements. Our data show that, as AICEs, they mainly coevolved with their natural host in an integrated form, rather than being dispersed via horizontal gene transfer. The pMEA-like elements could be separated into two distinct populations from different geographical origins. One group was most closely related to pMEA300 and was found in isolates from Australia and Asia and pMEA100-related sequences were present in European isolates. Genome sequence data have enormously contributed to the recent insight that AICEs are present in many actinomycete genera. The sequence data also provide more insight into their evolutionary relationships, revealing their modular composition and their likely combined descent from bacterial plasmids and bacteriophages. Evidence is accumulating that AICEs act as modulators of host genome diversity and are also involved in the acquisition of secondary metabolite clusters and foreign DNA via horizontal gene transfer. Although still speculative, these AICEs may play a role in the spread of antibiotic resistance factors into pathogenic bacteria. The novel insights on AICE characteristics presented in this review may be used for the effective construction of new vectors that allows us to engineer and optimise strains for the production of commercially and medically interesting secondary metabolites, and bioactive proteins.

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Excisive recombination of the SLP1 element in Streptomyces lividans is mediated by Int and enhanced by Xis

Cited by 13 publications

References 26 publications

Actinomycete integrative and conjugative pMEA-like elements of Amycolatopsis and Saccharopolyspora decoded

Actinomycete integrative and conjugative pMEA-like elements of Amycolatopsis and Saccharopolyspora decoded

Localization and nucleotide sequences of genes mediating site-specific recombination of the SLP1 element in Streptomyces lividans

Actinomycete integrative and conjugative elements

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