Karine Willemot

Cloning and expression of a Bacillus coagulans amylase gene in Escherichia coli.

SummaryA partial EcoRI fragment of Bacillus coagulans DNA cloned in an Escherichia coli K12 bacteriophage λ host-vector system was shown to direct the synthesis of a thermostable α-amylase whose activity could be detected in situ on petri plates using the iodine staining method. A 3.31 kb EcoRI fragment containing the active gene with its own promoter was subcloned in pBR322; in the new clone, called pAMY2, the amylase was shown to accumulate in the periplasmic space. The molecular weight of the enzyme, confirmed by in vivo labelling of plasmid products in minicells, was estimated to be 60000.The restriction map of the plasmid was determined for five restriction enzymes and two new plasmids with smaller DNA inserts were constructed, both directing the synthesis of amylase; one of them with a 2.2 kb PstI insert was shown to be responsible for the synthesis of a fused β-lactamase-α-amylase protein with amylase activity.

Growth Defects of Escherichia-coli-cells Which Contain the Gene of An Alpha-amylase From Bacillus-coagulans On a Multicopy Plasmid

An alpha-amylase gene from Bacillus coagulans has previously been cloned in Escherichia coli and shown to direct the synthesis of an enzymically active protein of 60,000 Dal (Cornelis et al., 1982). In one particular E. coli host, strain HB101, amylase was found to accumulate in the periplasmic space. To study the processing and the location of the amylase, plasmid pAMY2 was introduced into E. coli 188 which is a strain constitutive for alkaline phosphatase, a periplasmic marker, and for beta-galactosidase, a cytoplasmic marker. Abnormally large amounts of both alpha-amylase and beta-galactosidase were found in the culture fluid of cells grown in rich medium. Furthermore a severe growth defect was found when cells containing pAMY2 were grown in maltose and glycerol media, while the ability to grow on glucose remained normal. This defect could be reversed by two types of spontaneous mutations. Mutations in the first class are located on the plasmid and correspond to the insertional inactivation of the amylase gene by IS1. Mutations in the second class are located on the host chromosome. These results suggest that the synthesis and export of B. coagulans alpha-amylase is deleterious to E. coli, especially in media containing maltose or glycerol as sole carbon source.

A Locus Involved in Kanamycin, Chloramphenicol and L-serine Resistance Is Located in the Bgly-galu Region of the Escherichia-coli K12-chromosome

SummarySpontaneous mutants of Escherichia coli K12 displaying an increased level of the kanamycin resistance conferred by plasmid pGR71 were selected. Several mutants obtained in this way apparently carry large chromosomal deletions extending into galU and/or bglY (27 min). This positive selection of deletions allowed detection of a new locus located between galU and bglY. Deletions of this locus are responsible for increased resistance to kanamycin (Irk), decreased resistance to l-serine in minimal medium (Drs) and decreased resistance to chloramphenicol (Drc) when a cat gene is present in the bacteria.

Purification of Escherichia coli amplifiable plasmids by high-salt Sepharose chromatography

Abstract This new method allows an easy and rapid purification of amplifiable Escherichia coli plasmids such as pBR 322 without the use of cesium chloride centrifugation. After gentle lysis, centrifugation, and phenol extraction, the material is reextracted with acid phenol to remove the bacterial DNA. The high-molecular-weight ribosomal RNA is removed by precipitation with 2 m ammonium sulfate and the tRNA by passage through a small column of Sepharose CL 4B in the presence of 2 m ammonium sulfate.