Abstract
AbstractProton magnetic resonance studies at 220 MHz were carried out on the hypothalamic thyrotropin releasing factor (TRF) and a variety of synthetic analogs designed to yield specific information about side chain–side chain and side chain–backbone interactions. The results show that the very low field resonance position of one of the carboxamide protons observed for TRF dissolved in dimethylsulfoxide is neither caused by a seven‐membered nor by a ten‐membered hydrogen bonded ring, but rather is due to a short range interaction between the unprotonated histidyl side chain and the carboxamide residue. A systematic study of the preferred histidyl side chain conformation in various TRF analogs is in good agreement with this interpretation. It was demonstrated that this interaction is not strong enough to cause significant changes in the preferred back bone conformation of the hormone. The possibilities for typical dipole–dipole interaction are discussed. No such interaction has been detected in TRF dissolved in water. We conclude that the tertiary structure of TRF in polar solvents is determined primarily by the steric characteristics of the bulky side chains which maintain the molecule preferentially in an extended conformation.
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