Glucosinolates, a natural chemical arsenal: More to tell than the myrosinase story.

Glucosinolates are a group of thioglucosides that belong to the class of plant nitrogen-containing natural products. So far, very little biological activity has been associated with intact glucosinolates. The hydrolysis of glucosinolates has, for long, attracted attention because of the potent biological activity of the hydrolysis products.

UbK is Involved in the Resistance of Bacillus Subtilis to Oxidative Stress.

The objective of this study was to assess the role of UbK, a novel protein kinase, in the growth of Bacillus subtilis, especially under oxidative stress conditions. Growth profiles of wild-type and ΔubK mutant strains were assessed in the presence of paraquat, an in vivo inducer of oxidative stress. Wild-type B.

Expanding the Kinome World: A New Protein Kinase Family Widely Conserved in Bacteria.

Fine tuning of signaling pathways is essential for cells to cope with sudden environmental variations. This delicate balance is maintained in particular by protein kinases that control the activity of target proteins by reversible phosphorylation. In addition to homologous eukaryotic enzymes, bacteria have evolved some specific Ser/Thr/Tyr protein kinases without any structural resemblance to their eukaryotic counterparts.

Water-stress-induced inhibition of α-tubulin gene expression during growth, and its implications for reproductive success in rice.

A drought-suppressed cDNA (RiP-3), encoding a putative α-tubulin protein was isolated from rice panicle at pollen-mother-cell meiosis stage. Analysis of its deduced amino acid sequence showed all the typical structural motifs for plant α-tubulins. The expression of α-tubulin transcripts was observed in all the reproductive organs of rice panicle, and in 5- or 15-day old seedlings, but not in mature leaves.

Cloning and functional expression of two plant thiol methyltransferases: a new class of enzymes involved in the biosynthesis of sulfur volatiles.

Glucosinolates are defensive compounds found in several plant families. We recently described five distinct isoforms of a novel plant enzyme, thiol methyltransferase (TMT), which methylate the hydrolysis products of glucosinolates to volatile sulfur compounds that have putative anti-insect and anti-pathogen roles. In the work presented here, two cDNAs encoding these enzymes (cTMT1 and cTMT2) were isolated by screening a cabbage cDNA library with an Arabidopsis EST showing high sequence homology to one TMT isoform.