Enantiomer-selective solvolysis catalysed by a histidine-containing cyclic dipeptide carrying chiral side chain

Tripeptides with cyclic dipeptide backbones, cyclo[l-Glu(l-Leu-O Bzl)-t-His] and cyclo[l-Glu(l-Leu-OH)-Ir His, and the corresponding tripeptides with linear backbones, Me₃COCO-l-Glu(l-Leu-OBzl)-l-His-OMe and Me₃COCO-l-Glu(l-Leu-OH)-l-His-OMe, were synthesized and used as catalysts for the hydrolysis of carboxylic acid active esters of various types. The experimental results are summarized as follows. (I) In the hydrolysis of a neutral and hydrophobic substate, p-nitrophenyl laurate, in 20% dioxane/H₂O mixture of pH 7.8, a hydrophobic and flexible peptide, Me₃COCO-l-Glu(l-Leu-OH)-l-His-OMe, was more reactive than imidazole. On the other hand, cyclo[l-Glu(l-Leu-OBzl)-l-His] and cyclo[l-Leu-OH)-l-His], which have rigid backbone chain and fixed sidechain conformation, were not particularly reactive. (2) in the solcolysis of a positively charged substrate, p-nitrophenyl glycinate hydrochloride, in 42% i-PrOH/H₂O mixture at pH 6.95, a positively charged substrate, p-nitrophenyl glycinate hydrochloride, in 42% i-PrOH/H₂O mixture at pH 6.95, a negatively charged and flexible peptide, Me₃COCO-l-Glu(l-Leu-OH)-l-His-OMe, was more reactive than imidazole. However, cyclo [l-Glu(l-Leu-OH)-l-His] was not particularly reactive in the same reaction. In the hydrolysis of p-nitrophenyl glycinate hydrochloride in aqueous solution at pH 7.8 a hydrophobic and rigid peptide, cyclo[(l-Glu(l-Leu-OBzl)-l-His], was more reactive than imidazole. However, in the hydrolysis of p-nitrophenyl CO-AMINODODECANOATE hydrochloride, which has a positive charge and a rective site separated by a long hydrophobic chain, peptide catalysts did not show efficient catalysis. (3) In the hydrolysis of a positively charged, hydrophobic and chiral substrate, p-nitrophenyl leucinate hydrochloride, in aqueous solution at pH 6.95, the d-enantiomer was hydrolysed more quickly that the t-enantiomer with cyclo[l-Glu(l-Leu-OBzl)l-His] or cyclo[t-Glu(l-Leu-OH)-l-His] as catalyst. On the other hand, the tripeptides with linear backbone did not effect an enantiomer-selective catalysis. The solvolytic reaction catalysed by the tripeptides with cyclic dipeptide backbone in 42% i-PrOH/water mixture was also enantiomer-selective.     

Solvolysis of charged active esters of carboxylic acids with cyclo (l- or d-Glu-l-His)

Cyclic dipeptide cyclo(l- or d-Glu-l-His) carrying an anionic site and a nucleophilic site has been synthesized and used as a catalyst for the solvolysis of cationic esters in aqueous alcohols. In the solvolysis of 3-acyloxy-N-trimethylanilinium iodide (S⁺_n, n = 2 and 10) and Cl^?H₃N⁺(CH₂)₁₁COOPh(NO₂), no efficient nucleophilic catalysis was observed. On the other hand, in the solvolysis of Gly-OPh(NO₂)·HCl, Val-OPh(NO₂)·HCl and Leu-OPh(NO₂)·HCl a very efficient general base-type catalysis by cyclo(l-Glu-l-His) was observed. In particular, with the latter two substrates the catalysis by cyclo(l-Glul-His) was more efficient than that by imidazole, although the catalysis was not enantiomer-selective. The diastereomeric cyclic dipeptide cyclo(d-Glu-l-His) was almost inactive under the same conditions. Confomation of cyclo(l- or d-Glu-l-His) in aqueous solution was investigated and the structure/catalysis relationship is discussed.     

Histidine-containing cyclic dipeptides as catalysts in the hydrolysis of carbonic acid p-nitrophenyl esters

A histidine-containing cyclic dipeptide, cyclo(D -Leu-L -His), was almost 20 times as efficient a catalyst as imidazole in the hydrolysis of p-nitrophenyl laurate. The effect of dioxane on the hydrolysis showed that hydrophobic interaction between the cyclic dipeptide and the ester is very important. This reaction obeyed the Michaelis-Menten kinetics, and the Michaelis constant K_m was as low as 9.98 × 10^?5M. Since the linear dipeptide having D -Leu-L -His sequence was nearly inactive in the hydrolysis, the functional groups of cyclo(D -Leu-L -His) in a specific arrangement held by the rigid backbone must have cooperated in the fast hydrolysis. Very weak catalysis by the diasteremeric cyclic dipeptide, cyclo(L -Leu-L -His), in the hydrolysis supported the above view.     

Conformational behaviour of A cyclolinopeptide a analogue: Two-dimensional NMR study of cyclo(Pro1-Pro-Phe-Phe-Ac6c-IIe-ala-Val8)

The cyclic octapeptide cyclo[-Pro¹-Pro-Phe-Phe-Ac₆c-Ile-ala-Val⁸-] [C₈-Ac₆c], containing the Pro¹-Pro-Phe-Phe sequence, followed by a bulky helicogenic C^α,α-dialkylated glycine residue Ac₆c (1-aminocyclohexane-1-carboxylic acid), and a _D-Ala residue at position 7 has been synthesized. This cyclic peptide is a deletion analogue of the naturally occurring cyclic nonapeptide cyclolinopeptide A (CLA). It has been designed with the aim of studying the role that the Ac₆c and _D-Ala residues play on the conformational behaviour of the whole molecule and their influence on the conformation of the Pro¹-Pro-Phe-Phe sequence when compared with cyclolinopeptide A. C₈Ac₆c has been investigated in chloroform and acetonitrile solutions by 2D NMR techniques. Only one set of sharp signals is observed in both solvents. This evidence strongly supports the hypothesis that only one conformational state exists in the chosen solvents. The interpretation of the experimental data points to the existence for C₈-Ac₆c of a very rigid structure stabilized by intramolecular hydrogen bonds. The measured NOE effects allow the calculation of internuclear distances, which have been used as restraints in molecular dynamic calculations. The proposed conformation of the molecule shows that the Pro-Pro-Phe segment retains the conformation observed in natural CLA both in solution and in the solid state and that the Ac₆c residue indeed reinforces the ring rigidity not permitting the formation of any appropriate cavity in which inorganic cations could be complexed.     

Complex formation with alkali and alkaline earth metal ions of cyclic octapeptides,cyclo(Phe-Pro)4, cyclo(Leu-Pro)4, and cyclo[Lys(Z)-Pro]4

Complex formation with alkali and alkaline earth metal ions of cyclic octapeptides, cyclo(Phe-Pro)₄, cyclo(Leu-Pro)₄, and cyclo[Lys(Z)-Pro]₄ was investigated in relation to conformation. In an alcohol solution, cyclo(Phe-Pro)₄ did not form complexes. However, cyclo(Leu-Pro)₄ and cyclo[Lys(Z)-Pro]₄ formed complexes selectively with Ba²⁺ and Ca²⁺ ions. Changing the solvent from alcohol to acetonitrile, the complexation behavior was very different. In acetonitrile, cyclo(Phe-Pro)₄ was found to form a complex with Ba²⁺, and CD spectra of cyclo(Leu-Pro)₄ and cyclo[Lys(Z)-Pro]₄ changed sharply on complexation with K⁺. Rate constants of the complex formation between the cyclic octapeptides and metal salts were in the range of 0.7–12 L mol^?1 min^?1 in an alcohol solution. One of the two types of complex formation in acetonitrile was much faster than that in an alcohol solution.     

Solution conformation and hydrolytic activity of cyclo(D-leu-L-His)

It has been reported previously that a cyclic dipeptide, cyclo(D -Leu-L -His), showed a high hydrolytic activity toward a hydrophobic ester, p-nitrophenyl laurate. In order to determine the reason for the high catalytic activity, the conformation of cyclo(D -Leu-L -His) in aqueous solution was investigated by nuclear magnetic resonance and circular dichroism spectroscopy and compared with the conformation of cyclo(L -Leu-L -His), which was nearly inactive in otherwise the same conditions for the hydrolysis. It was demonstrated that the spatial arrangement of the hydrophobic isobutyl group of the D -leucyl residue and of the nucleophilic imidazolyl group of the L -histidyl residue in cyclo(D -Leu-L -His) matches very well with the long acyl chain and the active ester function of p-nitrophenyl laurate. On the other hand, in cyclo(L -Leu-L -His) the hydrophobic and the nucleophilic pendant groups are too close with each other to cooperate intramolecularly for the hydrolysis. It was concluded that the different steric structures of the diastereomers can explain the large difference of the catalytic activities.     

Conformation of CD4-derived cyclic hexapeptides by nmr and molecular dynamics

Two cyclic hexapeptides, cyclo[Ala¹-D -Ala²-Ser³-Phe⁴-Gly⁵-Ser⁶] and cyclo[Ala¹-Gly²-Ser³-Phe⁴-Gly⁵-Ser⁶], derived from the loop portion of the C′C″ ridge of CD4, were characterized by high-resolution nmr spectroscopy and simulated annealing studies. In DMSO-d₆ both of these peptides display a single conformer on the nmr time scale with two intramolecular H-bond (1 ← 4) stabilized β-turns at positions 2–3 and 5–6. The nmr derived distance constraints were used in simulated annealing calculations to generate the solution structures. These structures adopt energetically comparable conformational substates that are not resolvable on the nmr time scale. In aqueous solution, the H-bond stabilized β-turn conformation for cyclo [Ala-D -Ala-Ser-Phe-Gly-Ser] is no longer the predominant structural form. Structures generated using molecular dynamics simulations with no experimental constraints were compared with those from nmr analysis. The correlation between these two sets of structures allows the use of molecular simulations as a predictive tool for the conformational analysis of small peptides. © 1994 John Wiley & Sons, Inc.     

Mutation of the surface valine residues 8 and 44 in the rubredoxin from Clostridium pasteurianum : solvent access versus structural changes as determinants of reversible potential

 The Prⁱ sidechains of two adjacent valine residues, V8 and V44, define the surface of the rubredoxin from Clostridium pasteurianum and control access to its Fe(S-Cys)₄ active site. To assess the effect of systematic change of the steric bulk of the alkyl sidechains, eight single and three double mutant proteins have been isolated which vary G (H), A (Me), V (Prⁱ), L (Buⁱ) and I (Bu^s) at those positions. X-ray crystal structures of the Fe^III forms of the V44A and V44I proteins are reported. Positive shifts in reversible potential of up to 116 mV are observed and attributed to increased polarity around the Fe(S-Cys)₄ site induced by (1) changes in protein backbone conformation driven by variation of the steric demands of the sidechain substituents and (2) changes in solvent access to the sidechains of ligands C9 and C42. Data for the V44A mutant show that a minor change in the steric requirements of a surface residue can introduce a NH···Sγ hydrogen bond at the active site and lead to a shift in potentialof +50 mV. Received: 20 Juli 1999 / Accepted: 27 October 1999     

Is all cyclo(His-Pro) derived from thyrotropin-releasing hormone?

Cyclo(His-Pro), or histidyl-proline diketopiperazine, is an endogenous cyclic dipeptide that is ubiquitously distributed in tissues and body fluids of both man and animals. This cyclic dipeptide is not only structurally related to thyrotropin-releasing hormone (TRH, pGlu-His-ProNH₂), but it can also arise from TRH by the action of the enzyme pyroglutamate amino-peptidase (pGlu-peptidase). The data on the distribution of TRH, cyclo(His-Pro), and pGlu-peptidase under normal and abnormal conditions are summarized and potential relationships analyzed. We conclude that all of the cyclo(His-Pro) cannot be derived from TRH. Two additional sources of cyclo(His-Pro) are suggested. It is proposed that 29,247 molecular weight TRH prohormone, prepro TRH, which contains 5 copies of TRH sequence, can be processed to yield cyclo(His-Pro). Thus, both TRH and cyclo(His-Pro) share a common precursor, prepro[TRH/Cyclo(His-Pro)].     

Conformation dynamics of cyclic disulfides and selenosulfides in CXXC(U) (X = Gly,Ala) tetrapeptide redox motifs

Thioredoxin fold proteins often contain a Cys‐(Xxx)_n‐Cys(Sec) or CX_nC(U) motif, where the active cysteine (C) or selenocysteine (U) is bridged by X residues, which vary with protein function. The effect of the X residues on the conformation space of the oxidized disulfide and selenosulfide forms of the CXXC(U) motif has been investigated using molecular dynamics (MD) and density functional theory. Multi‐microsecond‐length MD simulations of the CGGC, CGAC, and CAGC cyclic peptides show that CGGC rings readily exchange between several conformations over the course of the simulation, but steric interactions with the methyl group of Ala limit the conformation space available to the cyclic peptide, especially for CGAC. The potential for the motif to be reduced, as measured by the energy of the lowest unoccupied molecular orbitals, is dependent upon the ring conformation. These results suggest that control of available conformations by the bridging residues and the protein tertiary structure may be important for defining the function of the CXXC motif. Theoretical ⁷⁷Se chemical shifts of the selenosulfide moiety are dependent upon the conformation and/or intramolecular Se···O interactions with the backbone carbonyl group of the C‐terminal U residue.     

Synthesis,conformational study,and spectroscopic characterization of the cyclic Cα,α‐disubstituted glycine 9‐amino‐9‐fluorenecarboxylic acid

A series of terminally blocked peptides (to the pentamer level) from l ‐Ala and the cyclic C^α,α‐disubstituted Gly residue Afc and one Gly/Afc dipeptide have been synthesized by solution method and fully characterized. The molecular structure of the amino acid derivative Boc‐Afc‐OMe and the dipeptide Boc‐Afc‐Gly‐OMe were determined in the crystal state by X‐ray diffraction. In addition, the preferred conformation of all of the model peptides was assessed in deuterochloroform solution by FT‐IR absorption and ¹H‐NMR. The experimental data favour the conclusion that the Afc residue tends to adopt either the fully‐extended (C₅) or a folded/helical structure. In particular, the former conformation is highly populated in solution and is also that found in the crystal state in the two compounds investigated. A comparison with the structural propensities of the strictly related C^α,α‐disubstituted Gly residues Ac₅c and Dϕg is made and the implications for the use of the Afc residue in conformationally constrained analogues of bioactive peptides are briefly examined. A spectroscopic (UV absorption, fluorescence, CD) characterization of this novel aromatic C^α,α‐disubstituted Gly residue is also reported. Copyright © 1999 European Peptide Society and John Wiley & Sons, Ltd.     

Cation binding cyclic peptides composed of imino acid residues

Cyclo(L -Pro-Sar)_n (n = 2–4) with moderate flexibility and hydrophobicity of molecular structure was synthesized, and the characteristics of these cyclic peptides and their metal complexes in acetonitrile were investigated in connection with the residual properties using ¹³C-nmr measurements. The cyclic tetrapeptide cyclo(L -Pro-Sar)₂ showed a sterically hindered phenomenon in acetonitrile in which the amide backbone adopted a cis-trans-cis-trans sequence. The cyclic hexapeptide cyclo(L -Pro-Sar)₃ existed as a mixture of several conformers whose interconversion is slow on the nmr time scale, including cis-cis-trans and/or cis-trans-trans arrangement of the Sar-Pro bond. Finally, it was demonstrated that the cyclic octapeptide cyclo(L -Pro-Sar)₄ behaved as a mixture of multiple conformers which allowed for cis-trans isomerism about the Pro-Sar peptide bond, of which 20–30% had the all-cis Sar-Pro bond isomer and the remaining 70–80% had one (or more) cis Sar-Pro bond isomer. ¹³C-nmr spectra also demonstrated that cyclo(L -Pro-Sar)_n (n = 3,4) formed a 1:1 ion complex whose conformation was characterized by an all-trans peptide bond in the presence of excess metal salt. Cation binding studies, using CD measurements, established that the ion selectivity of cyclo(L -Pro-Sar)₄ in acetonitrile decreased in the order, Ba²⁺ > Ca²⁺ > Na⁺ > Mg²⁺ > Li⁺.     

Conformational mobility in cyclic oligopeptides

Analysis of two isomeric cyclic hexapeptides of composition (Asp, Arg, Gly₂, Pro, D -Pro) by a nuclear Overhauser effect constrained distance geometry conformation search yielded a narrowly defined backbone conformation for one and considerable ambiguity about the conformation in part of the other. Preliminary ¹³C relaxation studies of these peptides suggest that it is possible that this difference may correspond to a physical difference in internal mobility. In connection with this observation, other experimental evidence bearing on the backbone conformational mobility of cyclic oligopeptides with 4–10 residues, frequently considered to have well-defined backbones, is reviewed. Conformational heterogeneity involving rotation of a peptide bond plane relative to the overall ring plane is identified as a common phenomenon. Nuclear magnetic resonance line-shape studies at temperatures down to 200 K can detect backbone motions with activation free energy barriers down to about 10 kcal/mole, but conformational exchange with lower barriers, though detectable in other ways, will not be obvious from nmr spectra alone. © 1993 John Wiley & Sons, Inc.     

The optical properties of tyrosine-containing cyclic dipeptides

The chiroptical properties of the cyclic dipeptides cyclo (L -alanyl-L -tyrosine) and cyclo(L -tyrosyl-L -tyrosine) have been investigated as a function of molecular conformation. Theoretical optical calculations and conformational energy calculations have been carried out as a function of the side-chain dihedral angles χ¹ and χ², and as a function of the angle of fold of the cyclic dipeptide backbone. The results of these theoretical calculations have been compared with experimental circular dichroism (CD) data. Theoretical predictions are in very good agreement with experiment for c(L -Tyr-L -Tyr). Agreement was not quite as good for c(L -Ala-L -Tyr), although the signs of all of the Cotton effects were apparently predicted correctly except for that associated with the lowest energy tyrosine absorption band.     

Conformational behaviour of Cα,α-diphenylglycine: folded vs. extended structures in DϕG-containing tripeptides

The crystal structures of three fully protected tripeptides containing the Dϕg residue (C^α,α-diphenylglycine) in the central position are reported, namely Z-Gly-Dϕg-Gly-OMe ( a ), Z-Gly-Dϕg-Aib-OMe ( b ) and Z-Aib-Dϕg-Aib-OMe ( c ). The molecular conformations are quite unusual because the Dϕg residue adopts a folded conformation in the 3₁₀-helical region when the following residue adopts a folded conformation of opposite handedness (peptides b and c ). In contrast, the Dϕg residue adopts the more frequently observed fully extended conformation when the following residue adopts a semi-extended conformation (peptide a ). These findings are in agreement with the theoretical calculations on Ac-Dϕg-Aib-NHCH₃ and Ac-Aib-Dϕg-NHCH₃ also reported in this work. © 1998 European Peptide Society and John Wiley & Sons, Ltd.     

Motional timescale predictions by molecular dynamics simulations: Case study using proline and hydroxyproline sidechain dynamics

We propose a new approach for force field optimizations which aims at reproducing dynamics characteristics using biomolecular MD simulations, in addition to improved prediction of motionally averaged structural properties available from experiment. As the source of experimental data for dynamics fittings, we use ¹³C NMR spin‐lattice relaxation times T₁ of backbone and sidechain carbons, which allow to determine correlation times of both overall molecular and intramolecular motions. For structural fittings, we use motionally averaged experimental values of NMR J couplings. The proline residue and its derivative 4‐hydroxyproline with relatively simple cyclic structure and sidechain dynamics were chosen for the assessment of the new approach in this work. Initially, grid search and simplexed MD simulations identified large number of parameter sets which fit equally well experimental J couplings. Using the Arrhenius‐type relationship between the force constant and the correlation time, the available MD data for a series of parameter sets were analyzed to predict the value of the force constant that best reproduces experimental timescale of the sidechain dynamics. Verification of the new force‐field (termed as AMBER99SB‐ILDNP) against NMR J couplings and correlation times showed consistent and significant improvements compared to the original force field in reproducing both structural and dynamics properties. The results suggest that matching experimental timescales of motions together with motionally averaged characteristics is the valid approach for force field parameter optimization. Such a comprehensive approach is not restricted to cyclic residues and can be extended to other amino acid residues, as well as to the backbone. Proteins 2014; 82:195–215. © 2013 Wiley Periodicals, Inc.     

Ion transport through liquid membrane by cyclic octapeptides

Cation transport through a chloroform liquid membrane by cyclic octapeptides—cyclo(Leu-Pro)₄, cyclo(Phe-Pro)₄, and cyclo[Lys(Z)-Pro]₄—was investigated. All of these cyclic octapeptides transported K⁺ and Ba²⁺, and the rate of cation transport was correlated with the ability to extract cations from the aqueous phase to the chloroform phase. Among them, cyclo (Leu-Pro)₄ was the most efficient and transported K⁺ and Ba²⁺ selectively from other alkali and alkaline earth cations, respectively. The rate of K⁺ transport by cyclo(Leu-Pro)₄ was about one-third as fast as that by dicyclohexyl 18-crown-6. Picrate anion transport against its concentration gradient was observed by cyclo(Leu-Pro)₄, which is conjugated with the selective transport of K⁺. Complex formation in a liposome between cyclo(Leu-Pro)₄ and Ba²⁺ was observed, but the binding constant was low.     

Structural versatility of peptides from Cα,α-disubstituted glycines: Preferred conformation of the chiral isovaline residue

The molecular structures of four protected isovaline- (Iva-) containing peptides to the pentamer level have been determined by x-ray diffraction. The peptides are t-Boc-Ala-(S)-Iva-Ala-OMe (t-Boc : tert-butyloxycarbonyl; OMe : methoxy) and its (R)-Iva diastereomer, and t-Boc-[Ala-(R)-Iva]₂-Ala-OH and its (S)-Iva diastereomeric methyl ester analogue. The two tripeptides are folded in an open type II β-bend conformation. The fully developed right-handed 3₁₀-helix formed by the (R)-Iva pentapeptide, which includes an unusual intramolecular (acid) O? H ?O?C(peptide) H bond, is partially unfolded (near the C-terminus) in the (S) -Iva pentapeptide. ¹H-nmr and Fourier transform ir absorption studies suggest that in CDCl₃ solution (a) the two tripeptides maintain a type II β-bend conformation of comparable stability and (b) both diastereomeric pentapeptide sequences adopt a fully developed 3₁₀-helix. A comparison with the preferred conformation of other extensively investigated C^α,α-disubstituted glycines is made and the implications for the use of the Iva residue in designing conformationally constrained analogues of bioactive peptides are briefly discussed.     

Conformational characterization of peptides rich in the cycloaliphatic Cα,α-disubstituted glycine 1-amino-cyclononane-1-carboxylic acid

A series of N- and C-protected, monodispersed homo-oligopeptides (to the pentamer level) from the cycloaliphatic C^α,α,-dialkylated glycine 1-aminocyclononane-1-carboxylic acid (Ac₉c) and two Ala/Ac₉c tripeptides have been synthesized by solution methods and fully characterized. The conformational preferences of all the model peptides were determined in deuterochloroform solution by FT-IR absorption and ¹H-NMR. The molecular structures of the amino acid derivatives mClAc-Ac₉c-OH and Z-Ac₉c-OtBu, the dipeptide pBrBz-(Ac₉c)₂-OtBu, the tetrapeptide Z-(Ac₉c)₄-OtBu, and the pentapeptide Z-( Ac₉c)₅-OtBu were determined in the crystal state by X-ray diffraction. Based on this information, the average geometry and the preferred conformation for the cyclononyl moiety of the Ac₉c residue have been assessed. The backbone conformational data are strongly in favour of the conclusion that the Ac₉c residue is a strong β-turn and helix former. A comparison with the structural propensity of α-aminoisobutyric acid, the prototype of C^α,α-dialkylated glycines, and the other extensively investigated members of the family of 1-aminocycloalkane-1-carboxylic acids (Ac_nc, with n=3−8) is made and the implications for the use of the Ac₉c residue in conformationally constrained analogues of bioactive peptides are briefly examined. © 1997 European Peptide Society and John Wiley & Sons, Ltd. J. Pep. Sci. 3: 367–382 No. of Figures: 10. No. of Tables: 6. No. of References: 62     

Conformational study of cyclo[D-Trp-D-Asp-Pro-D-Val-Leu], an endothelin-A receptor-selective antagonist.

The conformation of cyclo[D-Trp-D-Asp-Pro-D-Val-Leu], (BQ123), an endothelin-A receptor-selective antagonist, has been studied in 20% acetonitrile in water by CD and NMR spectroscopy. CD studies showed the peptide adopted a similar, constrained conformation in both water alone and 20% acetonitrile in water. NMR spectra showed the proline residue to be in the trans conformation and 2 of the NH protons to exchange slowly with the solvent, indicating hydrogen bonding. Structural constraints derived from the NMR spectra were used to define the conformation in molecular dynamics simulations. A single backbone conformation is observed for the cycle, comprising a beta type II turn and a gamma' turn.