Signal transduction in bacterial chemotaxis

Gram-negative bacteria are able to respond chemotactically to carbohydrates which are substrates of the bacterial phosphoeno1pyruvate:sugar phosphotransferase system (PTS). The mechanism of signal transduction in PTS-mediated chemotaxis is different from the well-studied mechanism involving methyl-a

The signal transduction system that mediates bacterial chemotaxis allows cells to moduate their swimming behavior in response to fluctuations in chemical stimuli. Receptors at the cell surface receive information from the surroundings. Signals are then passed from the receptors to cytoplasmic chemot

The members of the neurotrophin family play key biological roles in the development of the nervous system. Based on studies initially in cell lines (e.g., the rat pheochromocytoma PC12 cells), neurotrophins have been found to be important mediators of proliferation, differentiation, and survival in

Background. Favorable neuroblastomas frequently express high levels of the TrkA receptor, and these tumors have a propensity to either differentiate or regress, but the mechanisms responsible for these two fates are unclear. Procedure. To study TrkA signal transduction in neuroblastoma (nb), we stab

A signi®cant number of human diseases can be attributed to defects in cellular signal transduction pathways. Large-scale proteomics projects now in progress seek to better de®ne critical components of signal transduction networks, to enable more intelligent design of therapeutic agents that can spec