The conformation of neurotensin bound to its G protein-coupled receptor.

G protein-coupled receptors (GPCRs) mediate the perception of smell, light, taste, and pain. They are involved in signal recognition and cell communication and are some of the most important targets for drug development. Because currently no direct structural information on high-affinity ligands bound to GPCRs is available, rational drug design is limited to computational prediction combined with mutagenesis experiments.

Arabidopsis ICX1 is a negative regulator of several pathways regulating flavonoid biosynthesis genes.

Flavonoid biosynthesis gene expression is controlled by a range of endogenous and environmental signals. The Arabidopsis icx1 (increased chalcone synthase expression 1) mutant has elevated induction of CHS (CHALCONE SYNTHASE) and other flavonoid biosynthesis genes in response to several stimuli. We show that ICX1 is a negative regulator of the cryptochrome 1, phytochrome A, ultraviolet (UV)-B, low temperature, sucrose, and cytokinin induction of CHS expression and/or anthocyanin accumulation, demonstrating that these pathways are regulated either directly or indirectly by at least one common component.

Generation of RNA aptamers to the G-protein-coupled receptor for neurotensin, NTS-1.

G-protein-coupled receptors (GPCRs) are integral membrane proteins involved in signal transduction and constitute major drug targets for disease therapy. Aptamers, which are globular RNA or DNA molecules evolved to specifically bind a target, could represent a valuable tool with which to probe the role of such receptors in normal tissue and disease pathology and for cocrystallization with receptors for structure determination by X-ray crystallography. Using the bacterially expressed rat neurotensin receptor NTS-1 as an example, we describe a strategy for the generation of GPCR-specific RNA aptamers.

Characterization of an antibody Fv fragment that binds to the human, but not to the rat neurotensin receptor NTS-1.

The cDNAs coding for the heavy and light chain variable domains of an antibody, recognizing the human G-protein-coupled receptor for neurotensin, NTS-1, were obtained from a hybridoma cell line, B-N6. The Fv B-N6 fragment was expressed in Escherichia coli and purified. To characterize the properties of the antibody fragment, human and rat high-affinity neurotensin receptors were expressed in E.