Characterization of Apical and Basolateral Plasma Membrane Domains Derived from Cultured Rat Cholangiocytes

Canalicular bile is formed by the osmotic filtration of water in response to osmotic gradients generated by active transport at the apical and basolateral plasma membrane domains of hepatocytes. We recently demonstrated that mixed plasma membrane fractions isolated from rat hepatocyte couplets conta

apical surface forms the bile canaliculi and is specialized for We have identified B10, a plasma membrane protein bile secretion. A variety of apical and basolateral domainpreviously defined by a monoclonal antibody, as an alkaspecific proteins have been identified, which carry out the line phosphod

The properties of neuronal plasma membranes are highly specialized, since they include the receptors by which many hormones, neurotransmitters, drugs, and toxins initiate their actions, as well as the components necessary for receiving synaptic input from a variety of sources and for generating the

## Abstract A membrane microdomain enriched in cholesterol and sphingolipids or so called “raft” region was found to contain many signal transducing proteins such as GPI‐anchored proteins, trimeric G proteins and protein tyrosine kinases. Because brain‐derived raft contains two calmodulin‐binding p