Escherichia coli Frameshift Mutation Rate Depends on the Chromosomal Context but Not on the GATC Content Near the Mutation Site

Different studies have suggested that mutation rate varies at different positions in the genome. In this work we analyzed if the chromosomal context and/or the presence of GATC sites can affect the frameshift mutation rate in the Escherichia coli genome. We show that in a mismatch repair deficient background, a condition where the mutation rate reflects the fidelity of the DNA polymerization process, the frameshift mutation rate could vary up to four times among different chromosomal contexts. Furthermore, the mismatch repair efficiency could vary up to eight times when compared at different chromosomal locations, indicating that detection and/or repair of frameshift events also depends on the chromosomal context. Also, GATC sequences have been proved to be essential for the correct functioning of the E. coli mismatch repair system. Using bacteriophage heteroduplexes molecules it has been shown that GATC influence the mismatch repair efficiency in a distance- and number-dependent manner, being almost nonfunctional when GATC sequences are located at 1 kb or more from the mutation site. Interestingly, we found that in E. coli genomic DNA the mismatch repair system can efficiently function even if the nearest GATC sequence is located more than 2 kb away from the mutation site. The results presented in this work show that even though frameshift mutations can be efficiently generated and/or repaired anywhere in the genome, these processes can be modulated by the chromosomal context that surrounds the mutation site

Transferrin-polycation-mediated introduction of DNA into human leukemic cells: stimulation by agents that affect the survival of transfected DNA or modulate transferrin receptor levels.

We have subverted a receptor-mediated endocytosis event to transport genes into human leukemic cells. By coupling the natural iron-delivery protein transferrin to the DNA-binding polycations polylysine or protamine, we have created protein conjugates that bind nucleic acids and carry them into the cell during the normal transferrin cycle [Wagner, E., Zenke, M., Cotten, M., Beug, H. & Birnstiel, M. L. (1990) Proc. Natl. Acad. Sci. USA 87, 3410-3414]. We demonstrate here that this procedure is useful for a human leukemic cell line. We enhanced the rate of gene delivery by (i) increasing the transferrin receptor density through treatment of the cells with the cell-permeable iron chelator desferrioxamine, (ii) interfering with the synthesis of heme with succinyl acetone treatment, or (iii) stimulating the degradation of heme with cobalt chloride treatment. Consistent with gene delivery as an endocytosis event, we show that the subsequent expression in K-562 cells of a gene included in the transported DNA depends upon the cellular presence of the lysosomotropic agent chloroquine. By contrast, monensin blocks "transferrinfection," as does incubation of the cells at 18 degrees C

Reducing haziness in white wine by overexpression of Saccharomyces cerevisiae genes YOL155c and YDR055w

© Springer The original publication can be found at www.springerlink.comGrape proteins aggregate in white wine to form haze. A novel method to prevent haze in wine is the use of haze protective factors (Hpfs), specific mannoproteins from Saccharomyces cerevisiae, which reduce the particle size of the aggregated proteins. Hpf1p was isolated from white wine and Hpf2p from a synthetic grape juice fermentation. Putative structural genes, YOL155c and YDR055w, for these proteins were identified from partial amino acid sequences of Hpf1p and Hpf2p, respectively. YOL155c also has a homologue, YIL169c, in S. cerevisiae. Comparison of the partial amino acid sequence of deglycosylated-Hpf2p with the deduced protein sequence of YDR055w, confirmed five of the 15 potential N-linked glycosylation sites in this sequence were occupied. Methylation analysis of the carbohydrate moieties of Hpf2p indicated that this protein contained both N- and O-linked mannose chains. Material from fermentation supernatant of deletion strains had significantly less activity than the wild type. Moreover, YOL155c and YIL169c overexpressing strains and a strain overexpressing 6xHis-tagged Hpf2p produced greater haze protective activity than the wild type strains. A storage trial demonstrated the short to midterm stability of 6xHis-tagged Hpf2p in wine.Shauna L. Brown, Vanessa J. Stockdale, Filomena Pettolino, Kenneth F. Pocock, Miguel de Barros Lopes, Patrick J. Williams, Antony Bacic, Geoffrey B. Fincher, Peter B. Høj and Elizabeth J. Water