Nuclear‐Magnetic‐Resonance Study of Aggregations and Conformations of Melanostatin and Related Peptides

Abstract: The H and 13C nuclear magnetic resonance spectra of melanostatin (Pro-Leu-Gly-NH2) and related peptides (Pro-Leu-Gly, Z-Pro-Leu-Gly, Z-Pro-Leu-Gly-NH2 and Z-Pro-Leu-Gly-OCH3, where Z = benzyloxycarbonyl) were analysed in a variety of solvents. At physiological pH, the melanostatin molecule is N-protonated in aqueous solution. The concentration dependences of the chemical shifts of amide-proton and carbonyl-carbon resonances and of proton spin-lattice relaxation times were observed in relation to molecular aggr… Show more

“…These observations appear to suggest that the amide protons of the Gly-2 and Gly-3 residues are involved in intermolecular hydrogen bonding in (C2H3)2S0 solution. If this is the case, the temperature coefficients of the chemical shifts of these amide protons will be decreased as the concentration is raised, as observed previously for melanostatin [24] and related peptides [25].…”

“…In our previous studies on melanostatin (Pro-Leu-Gly-NH2) [24,25], the cationic form prepared with HCl has been found to form molecular aggregate in (C2H3)2S0 solution. The chemical shifts of the leucine amide proton and the glycine carboxamide carbon resonances exhibit significant concentration dependences.…”

“…Our previous studies on melanostatin and related peptides indicate the importance of taking the molecular association and ionization into account before analyzing molecular conformations of linear oligopeptides [24,25]. In fact, large concentration dependences of the amide proton and carbonyl carbon resonances of Met-enkephalin and Leu-enkephalin have been observed, indicating that intermolecular association is significant in (C2H3)2SO solution [17].…”

“…The temperature coefficients of amide proton chemical shifts are shown in Table 2, for Met-enkephalin and related peptides. In contrast to the amide proton chemical shifts, the chemical shifts of C-a proton resonances of gramicidine S [27], melanostatin [24] and related peptides [25] are independent of temperature. In the present study, however, significant temperature dependences were found for the first time for the C-a proton chemical shifts of the dipolar form of Metenkephalin in (C2H3)2S0 solution and in C2HC13/ (C2H3)2S0 (2/1) solution, as shown in Table 3.…”

Nuclear‐Magnetic‐Resonance Study on Met‐enkephalin and Met‐enkephalin

“…These observations appear to suggest that the amide protons of the Gly-2 and Gly-3 residues are involved in intermolecular hydrogen bonding in (C2H3)2S0 solution. If this is the case, the temperature coefficients of the chemical shifts of these amide protons will be decreased as the concentration is raised, as observed previously for melanostatin [24] and related peptides [25].…”

“…In our previous studies on melanostatin (Pro-Leu-Gly-NH2) [24,25], the cationic form prepared with HCl has been found to form molecular aggregate in (C2H3)2S0 solution. The chemical shifts of the leucine amide proton and the glycine carboxamide carbon resonances exhibit significant concentration dependences.…”

“…Our previous studies on melanostatin and related peptides indicate the importance of taking the molecular association and ionization into account before analyzing molecular conformations of linear oligopeptides [24,25]. In fact, large concentration dependences of the amide proton and carbonyl carbon resonances of Met-enkephalin and Leu-enkephalin have been observed, indicating that intermolecular association is significant in (C2H3)2SO solution [17].…”

“…The temperature coefficients of amide proton chemical shifts are shown in Table 2, for Met-enkephalin and related peptides. In contrast to the amide proton chemical shifts, the chemical shifts of C-a proton resonances of gramicidine S [27], melanostatin [24] and related peptides [25] are independent of temperature. In the present study, however, significant temperature dependences were found for the first time for the C-a proton chemical shifts of the dipolar form of Metenkephalin in (C2H3)2S0 solution and in C2HC13/ (C2H3)2S0 (2/1) solution, as shown in Table 3.…”

Nuclear‐Magnetic‐Resonance Study on Met‐enkephalin and Met‐enkephalin

“…We reported evidence suggesting that Pro-Leu-Gly-NH,, but not Pro-Leu-Gly-N(CHa)z, can aggregate in dimethylsulfoxide [7] ~ an observation further expanded upon in [8,9].…”

Aggregation of pro‐leu‐gly‐NH₂ in aqueous solution

Nmr analyses of conformations of linear peptides in solution