Cloning and expression of the Acinetobacter calcoaceticus mutarotase gene in Escherichia coli.

AUTOR(ES)

Gatz, C

RESUMO

This article describes the cloning of the mutarotase gene from Acinetobacter calcoaceticus and its expression in Escherichia coli. Purification of mutarotase (EC 5.1.3.3) led to a single polypeptide of 40 kilodaltons. The sequences of 27 N-terminal and 76 C-terminal amino acids were determined. From six amino acids of the N-terminal and seven amino acids of the C-terminal portion of the protein, the sequences of two oligonucleotides were deduced. These were synthesized and used as gene probes. Completely restricted chromosomal DNA from A. calcoaceticus was size fractioned, and only fractions hybridizing with the gene probes were used to construct gene banks enriched for the mutarotase determinant. With the N-terminal gene probe, a bank of 6- to 7-kilobase-pair BclI fragments in pBR327 was obtained. A total of 1,200 candidates were screened by colony hybridization followed by dot-blot analysis of purified plasmids from positive candidates and subsequent Southern blot analysis of the respective restricted plasmids, and 500 base pairs (bp) from the 5' end of the mutarotase gene were isolated by this procedure. The 3' portion of the gene was isolated from a gene bank containing 1,500-bp-long HindIII fragments inserted in M13mp11. This bank was screened by dot-blot analysis of single-stranded phage DNA with the C-terminal gene probe. The isolated gene fragments were fused at a common restriction site in their overlapping region to yield the complete mutarotase gene. High-level expression of mutarotase in E. coli was achieved when the gene was placed under transcriptional control of the phage lambda promoter pL. More than 90% of mutarotase activity was found in the culture medium. The E. coli-derived mutarotase was purified and shown to be identical to the A. calcoaceticus-derived product with respect to the molecular weight and N-terminal amino acid sequence. The expression of mutarotase in E. coli was increased 200-fold in comparison to that the wild-type A. calcoaceticus.

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