The conformations of derivatives of 3(S)-hydroxy-4(s)-amino-6-methylheptanoic acid (statine) and its analogs have been studied by n.m.r. in chloroform and in dimethyl sulfoxide, and by molecular mechanics calculations. The data obtained from these studies indicate that: 1) the coupling constant between NH and C4H is large, suggesting that the dihedral angle (theta) is near 165 degrees or 0 degree; 2) the coupling constant between C4H-C3H is small, indicating a vicinal bond angle of approximately 90 degrees; 3) the hydrogen deuterium exchange rate of statine amide protons is slow; however, the rate is dependent upon the electron withdrawing substituents adjacent to the amide NH's; 4) intramolecular hydrogen bonds involving the NH of the statine amide group do not stabilize conformations of single amino acid derivatives. Based on the n.m.r. results, four possible conformations of Boc-statine-OMe in solution are possible. MM1 calculations indicate one conformation is especially likely.