Open AccessRapid Generation of Nested Deletions by Differential Restriction Digestion
Author(s) -
Jonathan J. Dennis,
Gerben J. Zylstra
Publication year - 2002
Publication title -
biotechniques
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.617
H-Index - 131
eISSN - 1940-9818
pISSN - 0736-6205
DOI - 10.2144/02332st02
Subject(s) - restriction enzyme , biology , multiple cloning site , genetics , restriction site , plasmid , restriction digest , restriction map , insert (composites) , molecular cloning , cloning (programming) , cloning vector , restriction fragment , dna , microbiology and biotechnology , complementary dna , vector (molecular biology) , gene , recombinant dna , computer science , engineering , mechanical engineering , programming language
A method was devised for generating nested deletions in DNA that exploits the difference in frequency of restriction sites recognized by compatible restriction endonucleases. A cloning vector was constructed that contains no common blunt-end or RsaI restriction sites and two 8-bp blunt-end restriction sites flanking a commodious multiple cloning site. DNA fragments are cloned into the multiple cloning site using blue-white selection, and nested deletions are generated by digesting the resulting plasmid with either SwaI or PmeI and partially digesting the insert DNA with RsaI. The DNAs are ligated and transformed, producing a family of plasmids with different-sized deletions. The DNA sequence of these inserts can be rapidly determined, and the overlapping sequences can be assembled in silico to produce a large DNA contig. Nested deletions generated in this manner can also be used for the structure-function analysis of proteins.
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