Cupin: A candidate molecular structure for the Nep1-like protein family

Background  

NEP1-like proteins (NLPs) are a novel family of microbial elicitors of plant necrosis. Some NLPs induce a hypersensitive-like response in dicot plants though the basis for this response remains unclear. In addition, the spatial structure and the role of these highly conserved proteins are not known.     

Determination of abscisic acid in Eucalyptus haemastoma leaves using gas chromatography/mass spectrometry and deuterated internal standards

Abscisic acid and 2-trans-abscisic acid each with three deuterium atoms in the C-3 methyl group, have been synthesized chemically and used as internal standards in selected ion monitoring experiments to establish the endogeneous concentrations of these compounds and their conjugates in turgid and wilted Eucalyptus haemastoma leaves. The analytical procedure used GC/CIMS(methane) to detect the methyl esters of abscisic acid, 2-trans-abscisic acid and their deuterated internal standards. A three-fold increase in the concentration of abscisic acid occurred on wilting and the amounts of 2-trans-abscisic acid and conjugates of both compounds were determined.     

Book Reviewes

Interest and Emotion: Essays on the Study of Family and Kinship . Hans Medick and David Warren Sabean , eds.
Kinship in the Past: An Anthropology of European Family Life, 1500–1900 . Andrejs Plakans.     

Biosynthesis of isoprenoids, polyunsaturated fatty acids and flavonoids in Saccharomyces cerevisiae

Industrial biotechnology employs the controlled use of microorganisms for the production of synthetic chemicals or simple biomass that can further be used in a diverse array of applications that span the pharmaceutical, chemical and nutraceutical industries. Recent advances in metagenomics and in the incorporation of entire biosynthetic pathways into Saccharomyces cerevisiae have greatly expanded both the fitness and the repertoire of biochemicals that can be synthesized from this popular microorganism. Further, the availability of the S. cerevisiae entire genome sequence allows the application of systems biology approaches for improving its enormous biosynthetic potential. In this review, we will describe some of the efforts on using S. cerevisiae as a cell factory for the biosynthesis of high-value natural products that belong to the families of isoprenoids, flavonoids and long chain polyunsaturated fatty acids. As natural products are increasingly becoming the center of attention of the pharmaceutical and nutraceutical industries, the use of S. cerevisiae for their production is only expected to expand in the future, further allowing the biosynthesis of novel molecular structures with unique properties.