J. Nešvera

Transfection ofBrevibacterium flavum with bacteriophage BFB10 DNA

The virulent bacteriophageBFB10 is infective toBrevibacterium flavum Its DNA (about 48 kilobase pairs) was used for optimization of the DNA transfer intoB. flavum cells treated with lysozyme. Efficiencies of transfection up to 60 transfectants per ng DNA were obtained The described procedure can also be used for transformation ofB. flavum with plasmid DNA.

Glutamicin CBII, a bacteriocin-like substance produced by

Corynebacterium glutamicum CBII, in the stationary phase of growth, was found to produce spontaneously a substance resembling bacteriocins by its bactericidal properties. This substance designated glutamicin CBII was observed to exhibit bactericidal activity against coryneform bacteria (12 species tested) but not against unrelated gram-positive (3) and gram-negative (3) bacteria, while its action on bacteria with no quite known relatedness to the coryneform group (14) was found to be variable. Glutamicin CBII was partially purified by precipitation with ammonium sulphate (70% saturation), selective heat precipitation and gel chromatography on Sepadex G-50. The antibacterial substance diffused through cellophane membrane with an approximate cut-off of 10000 dalton and its sedimentation coefficient was determined to be 1.1. S by ultracentrifugation. Heating at 100°C for 30 min had no effect on its activity. Glutamicin CBII was proved to be resistant to chloroform, trypsin, chymotrypsin, pronase, and subtilisin. According to its staining behaviour and 1H NMR spectra it probably represents a glycoprotein containing only a minor protein component.

Plasmid cloning vectors replicating in Escherichia coli, amino acid-producing coryneform bacteria and Methylobacillus sp.

SummaryFour hybrid plasmids were constructed from the cryptic plasmid pAM330 (from Brevibacterium lactofermentum; 4.5 kb) and the broadhost-range plasmid pGV1106 (9.0 kb; Kmr Smr) isolated from Escherichia coli. All of them were mobilized from E. coli into the Gram-negative methylotrophic bacterium Methylobacillus sp. and two of these constructs (pCEM300 and pCEM400) were transferred by transformation into B. flavum and Corynebacterium glutamicum. Their kanamycin-resistance determinant coming from Gram-negative hosts was expressed in these Gram-positive bacteria. Both pCEM300 and pCEM400 are very stably maintained in B. flavum and represent suitable vectors for gene cloning in coryneform producers of amino acids.

New bacteriophage-like particles in Corynebacterium glutamicum.

Three new phage-like particles (CG1, CG2, and CGK1) were isolated from Corynebacterium glutamicum CBII. Particles CG1 and CG2 are DNA phages with long, noncontractile tails, CGK1 is a killer particle according to electron microscopy. A heat-stable low-molecular-weight bacteriocidal substance affecting various coryneform bacteria was observed to be joined to the killer particle CGK1.

A rapid and economic method for estimation of the number of plasmid copies inEscherichia coli cells

An economic method for a rapid estimation of the number of copies of plasmid R6KΔ1 inE. coli cells using lysis of the cells directly on the agarose gel and electrophoretic separation of radioactively labelled plasmid and chromosomal DNA’s is described. The method, particularly useful for screening purposes, permits detection of both the CCC and OC forms of plasmids of molar mass 2–150Mg/mol and it can be applied to other bacterial systems.

Transformation of a new Gram-positive methylotroph, Brevibacterium methylicum, by plasmid DNA

SummaryBrevibacterium methylicum is a newly isolated Gram-positive facultatively methylotrophic bacterium that uses the NAD+-dependent methanol dehydrogenase for methanol oxidation and assimilates its carbon via the ribulose monophosphate cycle. Protoplasts prepared by lysozyme treatment of B. methylicum cells grown in the presence of glycine were transformed by plasmid shuttle vectors pCEM500 (16.5 kb; Smr/Spr, Kmr/Gmr) and pEC71 (7.1 kb; Kmr/Nmr) constructed on the basis of B. lactofermentum plasmid pAM330 and replicating in Escherichia coli and in amino-acid-producing coryneform bacteria. The resistance markers were found to be expressed in B. methylicum and autonomous plasmid DNAs of various size were isolated from the transformants. The presence of the pAM330 replicon in these plasmids was demonstrated by DNA-DNA hybridization experiments.

Expression of the threonine operon fromEscherichia coli inBrevibacterium flavum andCorynebacterium glutamicum

SummaryThe threonine operon fromEscherichia coli was cloned in plasmid pBR322, subcloned into the shuttle vector pCEM300 and the resulting recombinant plasmid was transferred intoBrevibacterium flavum andCorynebacterium glutamicum. The expression ofE. coli threonine genes in these coryneform bacteria was demonstrated by complementing thethrA andthrB mutations and by assaying homoserine dehydrogenase activity.

New replication mutant pNH602 and its relationship to plasmid pAS3, another deletion derivative of plasmid R6K

A stable deletion derivative pNH602 was obtained when the recently described higher-copy-number point mutant pNH601 of plasmid R6K was introduced to a minicells-producing strain ofEscherichia coli. The size of plasmid pNH602 is 18.8 Mg/mol as determined by electron microscopy. The 7.2 Mg/mol fragment of R6K genome missing in pNH602 carries the Smr-determinant and the regionfinO and, according to the results of restriction analysis, it includes one EcoRI site. With its radioisotopically determined 33 copies of pNH602 perE. coli K-12 chromosome (npc), representing a 23 % increase of the point mutant pNH601 and 150 % enhancement of R6K npc, plasmid pNH602 differs from another closely related R6K deletion derivative pAS3 of the same size which exhibits only 20 npc. Both pNH602 and pAS3 plasmids are conjugative.

Transforming activity of plasmid and chromosomal DNA inEscherichia coli

An auxotrophic strain ofEscherichia coli with therecB recC sbcB genotype was transformed by chromosomal DNA of the prototrophic strain and by plasmid DNA carrying genes for antibiotic resistance (R1drd 19). The donor plasmid DNA obtained by cell lysis in the presence of Triton X-100 and subsequent centrifugation in a caesium chloride-ethidium bromide gradient was shown to have a circulaf molecule and to retain its completeness after penetration into the recipient. Experiments with mixtures or plasmid and chromosomal DNA indicate a competition between these two DNA types during the transformation reaction in the given system.

Application of R-plasmid DNA’s fromEscherichia coli minicells in genetic transformation

Components of minicell lyzatesof Escherichia coli P678-54 (Rldrd19) andEscherichia col P678-54 (R6K) were visualized in an electron microscope and used for the transformation ofEscherichia coli JC7623. The frequency of the resulting transformants (of the order of 10−6 %) was not appreciably influenced by the manner of lyzate preparation. The presence of covalently closed circular DNA was detected in two different transformants using radioisotopes, thus demonstrating an autonomous existence of Rldrd19 or R6K plasmids in tested transformants. This finding corresponds with the results of their genetic analysis.