Uses of plant lectins in bioscience and biomedicine.

New research directions in the last decade have led to major developments in the uses of plant lectins in bioscience and biomedicine. Major advances have been made in our understanding how lectins in the diet can act on the gastrointestinal tract and the physiological consequences of their actions, and how they can modulate body- and organ metabolism, the immune system and the gut microflora. Particularly striking progress has been made in unravelling the effects, often beneficial, of both orally- and parenterally administered lectins, including lectins of Viscum album-, Phaseolus vulgaris-, Robinia pseudoacacia, Agaricus bisporus, etc on tumours and in cancer therapy.

Lack of detectable DNA uptake by bacterial gut isolates grown in vitro and by Acinetobacter baylyi colonizing rodents in vivo.

Biological risk assessment of food containing recombinant DNA has exposed knowledge gaps related to the general fate of DNA in the gastrointestinal tract (GIT). Here, a series of experiments is presented that were designed to determine if genetic transformation of the naturally competent bacterium Acinetobacter baylyi BD413 occurs in the GIT of mice and rats, with feed-introduced bacterial DNA containing a kanamycin resistance gene (nptII). Strain BD413 was found in various gut locations in germ-free mice at 10(3)-10(5) CFU per gram GIT content 24-48 h after administration.

Modified vaccinia virus Ankara multiplies in rat IEC-6 cells and limited production of mature virions occurs in other mammalian cell lines.

Recombinant viruses based on modified vaccinia virus Ankara (MVA) are vaccine candidates against infectious diseases and cancers. Presently, multiplication of MVA has been demonstrated in chicken embryo fibroblast and baby hamster kidney (BHK-21) cells only. The multiplication and morphogenesis of a recombinant (MVA-HANP) and non-recombinant MVA strain in BHK-21 and 12 other mammalian cell lines have now been compared.

Stretched peer-review on unexpected results (GMOs).

Science is the basis for governance of risk from genetically modified organisms (GMO), and it is also a primary source of legitimacy for policy decision. However, recently the publication of unexpected results has caused controversies and challenged the way in which science should be performed, be published in scientific journals, and how preliminary results should be communicated. These studies have subsequently, after being accepted for publication within the peer-review process of leading scientific journals, been thoroughly re-examined by many actors active within the GMO debate and thereby drawn extensive media coverage.

Nucleic acid isolation from ecological samples--vertebrate gut flora.

The utility of DNA molecules in identifying and characterizing intestinal microorganisms depends on methods that facilitate access to DNA of sufficient purity, quantity, and integrity. An efficient and unbiased extraction of DNA is thus critical to the validity of the subsequent analysis of the prevalence and diversity of the DNA sources in the sample. The highly heterogeneous composition of the diet of vertebrates makes DNA isolation challenging for this environment.

Nonconjugative transposition of the vanB-containing Tn5382-like element in Enterococcus faecium.

The vanB2 operon encoding glycopeptide resistance is an integral part of the putative conjugative transposon Tn5382. Characterization of clinical glycopeptide resistant derivatives from an epidemic ampicillin-resistant Enterococcus faecium strain showed precise chromosomal or plasmid insertions of a vanB2-containing Tn5382-like element. Conjugative transposition of the Tn5382-like element was not demonstrated in retransfer studies.