Application of BRED technology to construct recombinant D29 reporter phage expressing EGFP

Silva, Joás Lucas da; Piuri, Mariana; Broussard, Gregory W.; Marinelli, Laura J.; Bastos, Gisele Medeiros; Hirata, Rosário Dominguez Crespo; Hatfull, Graham F.; Hirata, Mario H.

doi:10.1111/1574-6968.12171

Cited by 24 publications

(15 citation statements)

References 18 publications

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“…The Bacteriophage Recombineering of Electroporated DNA (BRED) technique was recently developed to generate specific mutations, insertions, deletions and gene replacement in lytic mycobacteriophage (4,6). BRED exploits a phage recombinase to induce homologous recombination (5,7–10) between a phage genome and a template, which must be electroporated into the cell (5).…”

Section: Introductionmentioning

confidence: 99%

CRISPR-Cas: an efficient tool for genome engineering of virulent bacteriophages

Martel¹,

Moineau²

2014

Nucleic Acids Res

144

138

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Bacteriophages are now widely recognized as major players in a wide variety of ecosystems. Novel genes are often identified in newly isolated phages as well as in environmental metavirome studies. Most of these novel viral genes have unknown functions but appear to be coding for small, non-structural proteins. To understand their biological role, very efficient genetic tools are required to modify them, especially in the genome of virulent phages. We first show that specific point mutations and large deletions can be engineered in the genome of the virulent phage 2972 using the Streptococcus thermophilus CRISPR-Cas Type II-A system as a selective pressure to increase recombination efficiencies. Of significance, all the plaques tested contained recombinant phages with the desired mutation. Furthermore, we show that the CRISPR-Cas engineering system can be used to efficiently introduce a functional methyltransferase gene into a virulent phage genome. Finally, synthetic CRISPR bacteriophage insensitive mutants were constructed by cloning a spacer-repeat unit in a low-copy vector illustrating the possibility to target multiple regions of the phage genome. Taken together, this data shows that the CRISPR-Cas system is an efficient and adaptable tool for editing the otherwise intractable genomes of virulent phages and to better understand phage-host interactions.

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Section: Introductionmentioning

confidence: 99%

CRISPR-Cas: an efficient tool for genome engineering of virulent bacteriophages

Martel¹,

Moineau²

2014

Nucleic Acids Res

144

138

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“…First, a derivative of phage L5 that carries the firefly luciferase gene was constructed by crossing over from a plasmid and identifying the recombinants by hybridization (165); these infect both fast- and slow-growing mycobacteria (195). Second, a reporter phage derivative of D29 has been constructed carrying green fluorescent protein (GFP) using recombineering (196). These approaches are more directed than using shuttle phasmids but contribute toward a suite of strategies for using phages to deliver DNA efficiently to mycobacterial hosts.…”

Section: Applications For Mycobacterial Geneticsmentioning

confidence: 99%

“…Reporter phages have been built using a variety of phage genomes including TM4, D29, and L5, all of which can infect both M. smegmatis and M. tuberculosis (165, 188, 196, 226); the TM4 platform may offer some advantages because of its ability to infect stationary-phase cells, a phenomenon that is dependent on the peptidoglycan hydrolytic motif embedded within the phage Tapemeasure protein (106). The main difference in the choice of the reporter is the detection method used.…”

Section: Applications For Mycobacterial Geneticsmentioning

confidence: 99%

Molecular Genetics of Mycobacteriophages

Hatfull

2014

Microbiol Spectr

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Mycobacteriophages have provided numerous essential tools for mycobacterial genetics, including delivery systems for transposons, reporter genes, and allelic exchange substrates, and components for plasmid vectors and mutagenesis. Their genetically diverse genomes also reveal insights into the broader nature of the phage population and the evolutionary mechanisms that give rise to it. The substantial advances in our understanding of the biology of mycobacteriophages including a large collection of completely sequenced genomes indicates a rich potential for further contributions in tuberculosis genetics and beyond.

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“…81 The hsp60 promoter and EGFP cassette also showed detectable uorescence levels when transferred to mycobacteriophage D29 and used to infect M. smegmatis. 82 Another study showed that addition of a Strep-tag II fusion to the phAE87:hsp60-EGFP gp9 C-terminus enabled affinity purication of host bacterial complexes. 83 One study involved the development of a uorescent mycobacteriophage assay with a 100 fold increase in uorescence per cell over phAE87:hsp60-EGFP.…”

Section: Fluorescent Protein Expressionmentioning

confidence: 99%

Phage-based detection of bacterial pathogens

Merwe

Helden

Warren

et al. 2014

Analyst

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Bacterial pathogens cause significant morbidity and mortality annually to both humans and animals. With the rampant spread of drug resistance and the diminishing effectiveness of current antibiotics, there is a pressing need for effective diagnostics for detection of bacterial pathogens and their drug resistances. Bacteriophages offer several unique opportunities for bacterial detection. This review highlights the means by which bacteriophages have been utilized to achieve and facilitate specific bacterial detection.

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Application of BRED technology to construct recombinant D29 reporter phage expressing EGFP

Cited by 24 publications

References 18 publications

CRISPR-Cas: an efficient tool for genome engineering of virulent bacteriophages

CRISPR-Cas: an efficient tool for genome engineering of virulent bacteriophages

Molecular Genetics of Mycobacteriophages

Phage-based detection of bacterial pathogens

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