1. Structural modeling of the pro-ocytocin-neurophysin precursor
- Author
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Velikson, B, Cohen, P, Rholam, M, Rose, JP, Wang, B-C, and Smith, JC
- Abstract
The hormonal precursor pro-ocytocin-neurophysin is activated by selective cleavage at Arg12-Ala13, producing mature ocytocin and neurophysin. To understand the cleavage mechanism better, and in particular the recognition of the cleavage site, it is necessary to characterize the three-dimensional structure of the precursor molecule. Here we combine a variety of experimental data with molecular modeling and dynamics calculations to derive possible precursor conformations. In the models obtained, the N-terminus of the precursor, corresponding to the ocytocin segment, is hydrogen bonded in a pocket of the neurophysin moiety in a similar manner to a crystallographically obtained non-covalent complex between the two molecules. The calculations suggest that although the ocytocin segment is relatively flexible, it adopts a stable, broad loop structure in the vicinity of the cleavage region, which may constitute the structural element recognized by the cleaving enzyme. The calculations also suggest a possible widening of the distance between the two neurophysin domains in the precursor relative to that in the non-covalent neurophysin-ocytocin complex.Key words: molecular modeling/precursor activation/protein structure
- Published
- 1998