Overproduction, purification and characterization of M·HinfI methyltransferase and its deletion mutant

Craig H. Bassing, Yang Gyun Kim, Lin Li, Srinivasan Chandrasegaran

Research output: Contribution to journalArticlepeer-review

Abstract

We have used the polymerase chain reaction to alter transcriptional and translational signals surrounding the hinfIM gene [encoding M·HinfI methyltransferase (MTase)] so as to achieve overexpression in Escherichia coli. The PCR-generated hinfIM gene was subcloned in a high-expression vector under control of the hybrid trp-lac promoter. In addition, the positive retroregulator stem-loop sequence derived from the crystal protein-encoding gene of Bacillus thuringiensis was inserted downstream from hinfIM. Using a similar approach, we have also constructed overproducer clones of a deletion mutant of M·HinfI MTase that has 97 amino acids from the C terminus deleted. The plasmid from the mutant clones is fully protected from HinfI restriction endonuclease digestion. It appears that the functional properties (the recognition and catalytic functions) are encoded within this mutant gene. The overproducer clones yield the wild type (wt) and the mutant enzymes to about 10% of total cellular protein upon induction with 1 mM IPTG. The wt M·HinfI and the mutant MTase were purified to near electrophoretic homogeneity by phosphocellulose, DEAE and gel chromatography. Their monomer sizes by SDS/polyacrylamide-gel electrophoresis are 43 kDa and 31 kDa, respectively, in good agreement with that predicted from the nucleotide sequence. DNA methylation experiments with purified enzymes using single-strand and double-strand M13mp18 DNA substrates indicate that while wt enzyme methylates both forms of DNA substrates, the mutant enzyme appears to preferentially methylate ss DNA substrate.

Original languageEnglish (US)
Pages (from-to)83-88
Number of pages6
JournalGene
Volume113
Issue number1
DOIs
StatePublished - Apr 1 1992

Keywords

  • Escherichia coli
  • Haemophilus influenzae
  • overexpression
  • recombinant DNA
  • retroregulator stem-loop
  • tac promoter

ASJC Scopus subject areas

  • Genetics

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