Human Guanylyl Cyclase B (hGC-B) is a single-transmembrane receptor protein which upon binding C-type natriuretic peptide (CNP) to its extracellular domain catalyzes the intracellular conversion of GTP to the second messenger cGMP. cGMP in turn affects various physiological processes such as smooth muscle contraction, cell proliferation, phototransduction, and salt as well as fluid homeostasis. The 3-dimensional binding site of the peptide hormone is unknown, and the binding mechanism is not yet understood. Therefore, a model of the C-terminal moiety of the extracellular domain of human GC-B containing the potential binding site was derived from the crystal structure of (GC-A). The selected protein sequence was provided with an N-terminal TEV-cleavage site and fused with a 109 aa thioredoxin-tag and a hexahistidine-tag. The identity of the purified 25 kDa protein was confirmed by protein mass fingerprint and its secondary structure was determined by CD- and NMR-spectroscopy. The protein proved to be properly folded with the observed secondary structure matching the predicted secondary structure and the homologous structure in the extracellular domain of GC-A. Size exclusion chromatography confirmed the monomeric state of P-hGC-B.

Key words: Guanylate cyclase; Natriuretic peptide; cGMP; ANP; GCB; Peptide hormone; Receptor; Transmembrane; Extracellular domain; Second messenger.