Efficient integration of artificial transposons into plasmid targets in vitro: a useful tool for DNA mapping, sequencing and genetic analysis

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Nucleic Acids Research, 1994, Vol. 22, No. 18 3765-3772
© 1994

METHODS

Efficient integration of artificial transposons into plasmid targets in vitro: a useful tool for DNA mapping, sequencing and genetic analysis

Scott E. Devine and Jef D. Boeke^*

Department of Molecular Biology and Genetics, Johns Hopkins University School of Medicine Baltimore, MD 21205, USA

^*To whom correspondence should be addressed

Received May 9, 1994. Revised July 21, 1994. Accepted July 21, 1994.

We have developed efficient methods for creating artificialtransposons and inserting these transposons into plasmid targetsin vitro, primarily for the purpose of DNA mapping and sequencing.A novel plasmid has been engineered to convert virtually anyDNA sequence, or combination of sequences, into an artificialtransposon; hence, custom transposons containing any desiredfeature can be easily designed and constructed. Such transposonsare then efficiently inserted into plasmid targets, in vitro,using the integrase activity present in yeast Ty1 virus-likeparticles. A single in vitro integration reaction, which resemblesa simple restriction digestion in the complexity of the reaction,gives rise to thousands of recoverable insertion events withinDNA target molecules; this frequency approaches one insertionper phosphodiester bond in typical plasmids. Importantly, transposoninsertions are recovered from all regions of DNA inserts carriedon plasmid targets, indicating that integration is a randomor nearly-random process. Because of its versatility, this technologyoffers a generalized method of generating recombinant DNA moleculesof a desired structure. We have adapted this system for DNAsequencing by developing a customized artificial transposonto insert new primer binding sites into internal regions ofDNA inserts carried on cloning vectors. Transposon insertionshave been generated throughout several different yeast and humanDNA inserts carried on plasmids, allowing the efficient recoveryof sequence information from these inserts. Our results demonstratethe overall utility of this method for both small and large-scaleDNA sequencing, as well as general DNA restructuring, and indicatethat it could be adapted for use with a number of additionalapplications including functional genetic analysis.

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