Loving work: drawing attention to pleasure and pain in the body of the cultural worker

In this article, we present our current research into the body and mind at work, with a particular focus on experiences and implications of enjoyment and love of work within the culture sector. This research is developed through the project Manual Labours that explores the historical conditioning between the body and mind in the so-called immaterial labour conditions. The project aims to identify positive and negative affective labour and the role that physical relationships to work can have in helping conceptualise current working conditions. The enjoyment of work leads to complex differentiations between work and life. This article explores the implications of exploitative labour conditions as self-employed or salaried passionate workers are internalising and developing a sense of ‘un-alienated’ ownership over their wage labour

Insertion vectors for construction of recombinant conjugative transposons in Bacillus subtilis and Enterococcus faecalis

The broad-host range of conjugal transfer and the chromosomal location make conjugative transposons (CT) attractive candidates as tools for genetic manipulation of a large variety of bacteria. In this paper we describe insertion vectors capable of integrating into Tn916, the prototype of CT in Gram-positive bacteria. The integration of vectors into a single chromosomal copy of Tn916 was studied both after natural transformation of Bacillus subtilis, and after electroporation in Enterococcus faecalis. Integration occurred either by double or by single crossover, and the integrated DNA segment was shown to be highly stable. All recombinant CT (rCT) were still able to excise from the chromosome to form circular intermediates, the first step of both transposition and conjugal transfer. All classes of rCT generated by insertion vector pSMB47 were capable of conjugal transfer, while using pVMB11 it was possible to generate non-conjugative rCT

Insertion vectors for construction of recombinant conjugative transposons in Bacillus subtilis and Enterococcus faecalis.

The broad-host range of conjugal transfer and the chromosomal location make conjugative transposons (CT) attractive candidates as tools for genetic manipulation of a large variety of bacteria. In this paper we describe insertion vectors capable of integrating into Tn916, the prototype of CT in Gram-positive bacteria. The integration of vectors into a single chromosomal copy of Tn916 was studied both after natural transformation of Bacillus subtilis, and after electroporation in Enterococcus faecalis. Integration occurred either by double or by single crossover, and the integrated DNA segment was shown to be highly stable. All recombinant CT (rCT) were still able to excise from the chromosome to form circular intermediates, the first step of both transposition and conjugal transfer. All classes of rCT generated by insertion vector pSMB47 were capable of conjugal transfer, while using pVMB11 it was possible to generate non-conjugative rCT

Electrotransformation of Streptococcus agalactiae with plasmid DNA

A protocol for efficient electrotransformation of Streptococcus agalactiae (group B streptococcus) Lancefield's strain O90R (NTCT 9993) (an unencapsulated derivative of type Ia strain O90) was developed. The Escherichia coli-Streptococcus shuttle vector pDP28 (7.8 kb) carrying the ermB gene for resistance to erythromycin was used as donor DNA. Frozen 'electrocompetent' cells were prepared by repeated washes in 10% glycerol. A 50-microliters aliquot containing about 5 x 10(9) colony forming units of bacteria was subjected to the electric pulse. Optimal conditions for electrotransformation were determined using different media, harvesting cells at different points of the growth curve, and using different field strengths. The dose-response curve for transformation of S. agalactiae with pDP28 showed one-hit kinetics as donor DNA varied between 0.01 and 3 micrograms. The efficiency of electrotransformation for this range of amounts of donor DNA was 1.2 x 10(4) cfu micrograms-1. The transformation frequencies obtained with this electroporation protocol are high enough to allow both subcloning and shotgun cloning of streptococcal DNA in S. agalactiae

Electrotransformation of Streptococcus agalactiae with plasmid DNA.

A protocol for efficient electrotransformation of Streptococcus agalactiae (group B streptococcus) Lancefield's strain O90R (NTCT 9993) (an unencapsulated derivative of type Ia strain O90) was developed. The Escherichia coli-Streptococcus shuttle vector pDP28 (7.8 kb) carrying the ermB gene for resistance to erythromycin was used as donor DNA. Frozen 'electrocompetent' cells were prepared by repeated washes in 10% glycerol. A 50-microliters aliquot containing about 5 x 10(9) colony forming units of bacteria was subjected to the electric pulse. Optimal conditions for electrotransformation were determined using different media, harvesting cells at different points of the growth curve, and using different field strengths. The dose-response curve for transformation of S. agalactiae with pDP28 showed one-hit kinetics as donor DNA varied between 0.01 and 3 micrograms. The efficiency of electrotransformation for this range of amounts of donor DNA was 1.2 x 10(4) cfu micrograms-1. The transformation frequencies obtained with this electroporation protocol are high enough to allow both subcloning and shotgun cloning of streptococcal DNA in S. agalactiae