Circular dichroism studies of isoleucine oligopeptides in solution

A conformational analysis was carried out on a series of L -isoleucine oligomers having the general formula BOC-(Ileu)_n-OMe (n = 2–8). These oligopeptides were examined in trifluoroethanol, trifluoroethanol-acid and mixed organic-water media. The results indicate that these oligomers form β-conformations beginning at the heptamer. The stability of the β-conformations was found to be greater than those formed by oligopeptides derived from L -alanine.     

Vibrational circular dichroism of polypeptides. IV. Film studies of L-alanine homo-oligopeptides

Vibrational CD (VCD) and ir absorption data are reported for a series of films of Boc-(L -Ala)_n-OMe homo-oligopeptides (n = 3–7) in the amide I and A regions. The data evidenced a sharp change between n = 3 and n = 4, which parallels the onset of β-structure formation, and another between n = 5 and n = 6, which parallels the full development of β-structure. This represents the first report of the application of VCD to oligopeptide conformation. The data resembled earlier reported film VCD studies of higher-molecular-weight polypeptides of known β-structure.     

Synthesis and optical studies of L-methionine oligopeptides in solution

A series of L -methionine oligomers [BOC-(Met)_n-OMe] (n = 2–7) and the corresponding diastereomeric di- and tripeptides were synthesized using the mixed anhydride method. Oligomers prepared in this manner were optically pure and were obtained in reasonable yield. Preliminary optical examination of the peptides suggests that secondary structures may begin forming in the pentamer or hexamer in trifluoroethanol. BOC-(Met)₄-OMe and BOC-(Met)₅-OMe were also synthesized using an insoluble resin containing BOC-L -methionine as the nitrophenol active ester.     

The crystal state conformation of Aib-rich segments of peptaibol antibiotics

Ac-(Aib-Ala)₃-OH (a protected segment of the peptaibols gliodeliquescin and paracelsin), Z-Leu-Aib-Val-Aib-Gly-OtBu (a segment of [Leu]⁷-gliodeliquescin), Z-Val-Aib-Aib-Gln-OtBu (a common segment of alamethicin, paracelsin, and hypelcin), and Ac-Aib-Pro-(Aib-Ala)₂-OMe and Z-Aib-Pro-(Aib-Ala)₂-OMe, which represent differently N^α-protected 1–6 segments of alamethicin and hypelcin, have been synthesized by solution methods. The crystal-state conformations of these five Aib-containing peptides have been determined by X-ray diffraction analysis. We have confirmed that the 3₁₀-helical structure is preferentially adopted by Aib-rich short peptides. An experimentally unambiguous proof for the 3₁₀→α-helix conversion has been provided by the two differently N-blocked -Aib-Pro-(Aib-Ala)₂-OMe hexapeptides. The β-bend ribbon conformation, commonly observed in the (Aib-Pro)_n sequential oligopeptides, is not found in the -Aib-Pro-Aib-Ala-Aib-Ala- sequence. As expected on the basis of the l -configuration of the C^α-monoalkylated residues, a right-handed helix screw sense was found in all peptides investigated. © 1998 European Peptide Society and John Wiley & Sons, Ltd.     

Influence of the peptide chain length on the stability of double-stranded β-helical species of D,L-alternating oligovalines in chloroform solution

The type and distribution of the β-helixes occurring in chloroform solutions of Boc-(L-Val-D-Val)₆-OMe and Boc-(L-Val-D-Val)₈-OMe have been studied by using ¹H-nmr techniques. Right- and left-handed ↑↓β^4.4-helices and left-handed β^5.6-helices occur with the dodecapeptide. β^4.4-Helices of opposite handedness occur also with the hexadecapeptide, but ↑↓β^5.6-helices could not be detected with this oligomer. At equilibrium, at 25°C, the double helix of the dodecapeptide is only moderately populated. These results indicate that increasing the chain length has a destabilizing effect on the ↑↓β^5.6-helices of D ,L -alternating oligovalines in chloroform solution.     

Characterization of β-bend ribbon spiral forming peptides using electronic and vibrational CD

Terminally blocked (L-Pro-Aib)_n and Aib-(L-Pro-Aib)_n sequential oligopeptides are known to form right-handed β-bend ribbon spirals under a variety of experimental conditions. Here we describe the results of a complete CD and ir characterization of this subtype of 3₁₀-helical structure. The electronic CD spectra were obtained in solvents of different polarity in the 260-180 nm region. The vibrational CD and Fourier transform ir (FTIR) spectra were measured in deuterochloroform solution in the amide I and amide II (1750-1500 cm^?1) regions. The critical chain length for full development of the β-bend ribbon spiral structure is found to be five to six residues. Spectral effects related to concentration-induced stabilization of the structures of the longer peptides were seen in the resolution-enhanced FTIR spectra. Comparison to previous studies of (Aib)_n and (Pro)_n oligomers indicate that the low frequency of the amide I mode is due to the interaction of secondary and tertiary amide bonds and not to a strong difference in conformation from a regular 3₁₀-helix. © 1995 John Wiley & Sons, Inc.     

Relationship between conformation and physicochemical properties of polypeptides. I. Synthesis of homo- and co-oligopeptides by the liquid-phase method

The synthesis of the following oligo- and co-oligopeptides by the liquid-phase method is described: (L -Met)₁₅ (I), [L -Glu(OBzl)]₂₀ (II), (L -Val)₈-Gly (IV), (L -Ile)₈-Gly (V), (L -Ile)₄-Gly-(L -Ile)₄ (VI), (L -Ile)₄-Pro-(L -Ile)₄ (VII), (L -Met)₅-L -Pro-(L -Met)₅ (VIII), [L -Glu(OBzl)]₇-L -Pro-[L -Glu(OBzl)]₇ (IX). The oligomers are covalently bound to bifunctional polyethylene glycol (PEG) and monofunctional PEG-M of M_r 5 × 10³?2 × 10⁴. Analytical controls were carried out after each step of synthesis in order to ensure quantitative coupling yields. All products could be obtained in high purity as indicated by amino acid analysis, thin-layer chromatography and chiroptical methods. The solubility of the oligomers was strongly enhanced by the presence of the C-terminal PEG group, enabling conformational investigations in a variety of solvents. A significant relationship between conformation and physicochemical properties of the oligopeptides was observed. Oligomers with tendencies to adopt α-helical (I, II) or unordered structures (VI–IX) showed no pronounced change in solubility or coupling kinetics during chain elongation, whereas the onset of a β-structure (IV, V) was paralleled by a drastic decrease in solubility and reactivity of the terminal amino groups. Most notably, the insertion of a proline or glycine in the middle of a β-forming peptide chain (VI, VII) resulted in a considerable increase in solubility compared to the corresponding homo-oligomers. The impact of the conformational properties of a peptide chain on strategic considerations of peptide synthesis in solution is delineated.     

1H-nmr studies of polyoxyethylene-bound homo-oligo-L-methionines

The use of ¹H-nmr spectroscopy is demonstrated to be a useful analytical method to characterize the structure of synthetic peptides attached to soluble, macromolecular polyoxyethylene (POE) supports in the liquid-phase method (LPM) of peptide synthesis. We report an extensive 360-MHz ¹H-nmr study of POE-bound homo-oligo-L -methionine peptides. A combination of high field and selective saturation or Redfield pulse methods allows resolution of individual backbone NH and α-CH resonances of dilute peptides in the presence of strong resonances from macromolecular POE and/or protonated solvents. The nmr spectra for the POE-bound peptides in CDCl₃ are qualitatively similar to those of the low-molecular-weight Boc-L -Met_n-OMe peptide esters. This corroborates other observations that POE has little effect on peptide stucture. The backbone α-CH region of peptides is overlapped by signals from the terminal oxyethylene group of POE, but the peptide side-chain and low-field backbone NH resonances are well resolved. In trifluoroethanol the Boc-(L -Met)_n-NH-POE heptamer and octamer adopt the right-handed α-helical structure, and the present nmr studies provide evidence for two strong intramolecular hydrogen bonds to stabilize the helices. In water, the N-deblocked derivatives, (L -Met)_n-NH-POE oligomers adopt β-sheet structure and manifest well-resolved nonequivalent NH resonances with 6–7 Hz ³J_NH-CH coupling constants.     

1H-nmr study of protected methionine homo-oligopeptides in helix-supporting environment

¹H-nmr spectra for a series of Boc-L -(Met)_n-OMe (n = 2–9) homo-oligopeptides have been observed in the helix-supporting solvent trifluoroethanol (TFE) at millimolar concentrations. Interfering solvent peaks were eliminated using two decoupling frequencies to selectively remove the methylene and hydroxyl protons of the solvent. Comparisons with specifically α-deuterated homo-oligopeptides gave complete assignments of the NH region of the Boc-Met_n-OMe oligomers up to the heptapeptide. Analysis of chemical shifts, coupling constants, and temperature dependence of chemical shifts suggests that up to the hexapeptide, similar structures exist in deuterochloroform and TFE. In contrast, nmr parameters at the heptapeptide for several internal residues differ in these solvents. These results suggest that a C₇ to α-helix transition may occur in TFE as the chain length of the methionine oligopeptides increases.     

Critical chain length for helix formation in L-methionine oligopeptides

The circular dichroism of a series of L -methionine oligopeptides [BOC-(Met)_n-OMe] was examined in trifluoroethanol and hexafluoroacetone sesquihydrate. The results indicate that the trimer through the hexamer exists predominantly in disordered conformations in these solvents. An abrupt change in the CD pattern at the heptamer in trifluoroethanol suggests that L -methionine oligopeptides begin forming helices at this chain length.     

High-resolution solid-state 13C-NMR of peptides: a study of chain-length dependence for 3(10)-helix formation

High-resolution solid-state ¹³C-nmr spectra of two series of fully protected oligopeptides, Z-(Aib)_n-OMe (n = 3?8) and Z-(Aib)_n-L-Leu-(Aib)₂-OMe (n = 0?5), were recorded to gain insight into main-chain length dependence for 3₁₀-helix formation. We found that all the oligopeptides examined adopt an incipient or a fully developed 3₁₀-helical structure, as judged from the characteristic splitting of the C_β signals as well as the conformation-dependent displacements of the C_α and C?O peaks.     

Chain length dependent transition of 310- to α-helix of Boc-(Ala-Aib)n-OMe

An apolar synthetic octapeptide, Boc-(Ala-Aib)₄-OMe, was crystallized in the triclinic space group P1 with cell dimensions a = 11.558 Å, b = 11.643 Å, c = 9.650 Å, α = 120.220°, β = 107.000°, γ = 90.430°, V = 1055.889 ų, Z = 1, C₃₄H₆₀O₁₁N₈·H₂O. The calculated crystal density was 1.217 g/cm³ and the absorption coefficient ? was 6.1. All the intrahelical hydrogen bonds are of the 3₁₀ type, but the torsion angles, ? and ψ, of Ala(5) and Ala(7) deviate from the standard values. The distortion of the 3₁₀-helix at the C-terminal half is due to accommodation of the bulky Boc group of an adjacent peptide in the nacking. A water molecule is held between the N-terminal of one peptide and the C-terminal of the other. The oxygen atom of water forms hydrogen bonds with N (1) -H and N (2) -H, which are not involved in the intrahelical hydrogen bonds. The hydrogen atoms of water also formed hydrogen bonds with carbonyl oxygens of the adjacent peptide molecule. On the other hand, ¹H-nmr analysis revealed that the octapeptide took an α-helical structure in a CD₃CN solution. The longer peptides, Boc-(Ala-Aib)₆-OMe and Boc-(Ala-Aib)₈-OMe, were also shown to take an α-helical structure in a CD₃CN solution. An α-helical conformation of the hexadecapeptide in the solid state was suggested by x-ray analysis of the crystalline structure. Thus, the critical length for transition from the 3₁₀- to α-helix of Boc-(Ala-Aib)_n-OMe is 8. © 1993 John Wiley & Sons, Inc.     

The effect of homologous amino acid replacement on the conformation of oligopeptides. II. Synthesis of co-oligopeptides containing methionine and glycine

The synthess of 18 co-oligopeptides of L -methionine and glycine is reported. A series of oligomers, Boc-Gly-Met_n-OMe (n = 1–6), and six hexamers-containing five methionyl and one glycyl residue were synthesized using the mixed anhydride procedure. Polarimetric studies give evidence that oligomers in the Boc-Gly-Met_n-Ome series are essentially disordered in hexafluoroacetone sesquihydrate but begin forming secondry structures at n > 4 in trifluorethanol. Difference in the molar rotation values found for the six hexamers in hexafluoroacetone sesquihydrate may indicate that these compounds, while primirily disordered, are present in slightly different conformations.     

Conformation of oligopeptides with L-leucyl-L-leucyl-L-alanyl and L-methionyl-L-methionyl-L-leucyl repeating units

The conformation of oligopeptides with hydrophobic side chains, Nps-(L -Leu-L -Leu-L -Ala)_n-OEt and Nps-(L -Met-L -Met-L -Leu)_n-OEt(n = 1–6), in the solid state, obtained either by evaporation of the solvent or by precipitation with diethyl ether from a 1,1,1,3,3,3-hexafluoropropan-2-ol (HFIP) solution, has been studied with ir spectroscopy and x-ray powder-diffraction measurements. The conformation of these peptides in the HFIP solution has been studied by CD spectroscopy. Due to a strong preference of the amino acids to form an α helix, the peptides begin forming α helices at the dodecapeptide in the HFIP solution, and in the solid state by evaporation. In the solid state, with precipitation, the α-helical conformation is first observed at the octadecapeptide and the lower peptides assume a β structure. The conformational change, from the α helix to the β structure of the peptides with 12 to 15 amino acid residues, during the precipitation process, is due to a strong tendency of the amino acids to form the β-structure in rather short peptide lengths.     

The effect of homologous amino acid replacement on the conformation of oligopeptides. I. Synthesis of co-oligopeptides containing methionine and valine

The preparation of a series of co-oligopeptides Boc-Val-Met_n-OMe(n = 1–6), as sell as Boc-Met₃-Val-et₂-OMe and Boc-Met₃-Val-Met₃-Ome, is described. The synthesis was carried out by a classic method employing the mixed anhydride procedure (isobutylchloroformate) for all coupling reactions. All oligopeptides after purification were homogenous on silica thin layers and gave correct elemental analysis. They were judged to be optically pure using molar rotation studies at the sodium D line.     

Phenylalanine oligopeptides: Circular dichroism studies in solution

The conformations of a series of l-phenylalanine oligomers having the general formula BOC-(Phe)_n-OMe (n = 1–9) were investigated by circular dichroism in a number of solvent systems. These studies indicate that in trifluoroethanol and in hexafluoroisopropanol these oligomers probably form β-associated conformations beginning at the hexamer.     

Circular dichroism studies of α-aminoisobutyric acid-containing peptides: Chain length and solvent effects in alternating Aib-L-Ala and Aib-L-Val sequences

The CD spectra of the peptides Boc-X-(Aib-X)_n-OMe (n = 1, 2, 3) and Boc-(Aib-X)₅-OMe, where X = L -Ala or L -Val have been examined in several solvents. The X = Ala and Val peptides behave similarly in all solvents, suggesting that the Aib residues dominate the folding preferences of these peptides. The decapeptides adopt helical conformations in methanol and trifluoroethanol, with characteristic negative CD bands at 222 and 205 nm. In the heptapeptides, similar spectra with reduced intensities are observed. Comparison with nmr studies suggest that estimates of helical content in oligopeptides by CD methods may lead to erroneous conclusions. The pentapeptides yield solvent-dependent spectra indicative of conformational perturbations. Peptide association in dioxane results in an unusual spectrum with a single negative band at 210 nm for the decapeptides. Disaggregation is induced by the addition of methanol or water to dioxane solutions. Aggregation of the heptapeptides is less pronounced in dioxane, suggesting that a critical helix length may be necessary to promote association stabilized by helix dipole–dipole interactions.     

Formation of the collagen-like triple-helical structure in oligopeptides during elongation of the molecular chain

Oligotripeptides Z-(Gly-Pro-Pro)_n-OMe (n = 1,2,…,8), Z-Gly-Pro_Pro-Gly-Pro-Gly-OMe, Z-Gly-Pro-Pro-Gly-Pro-Gly-Gly-Pro-Pro-OMe, Z-Gly-Pro-Pro-(Gly-Pro-Gly)₂-Gly-Pro-Pro-OMe, and Z-(Gly-Pro-Ala)_n-OMe (n = 1,2,…,4) were synthesized step-by-step and then studied by means of x-ray diffraction, ir spectroscopy, the kinetics of hydrogen-deuterium exchange of peptide groups, and circular dichroism,. Different stages in the formation of a triple helix in Z-(Gly-Pro-Pro)_n-OMe were revealed during the chain elongation. In the solid state, at the first stage a conformation of the polyproline II-type is formed in the tripeptide and in the second stage a triple helical complex appears in the hexapeptide. Interpeptide hydrogen bonds in this complex are still of low order. At further stages an ordered set of interpeptide hydrogen bonds is gradually formed. It is shown that the degree of order of interpeptide H bonds depends on the length of the molecular chain, the amino acid composition, and residue sequence in the triplets.     

Synthesis and conformational study of peptides possessing helically arranged ΔZPhe side chains

Z-Dehydrophenylalanine (Δ^zPhe) possessing four oligopeptides, Boc-(L -Ala-Δ^zPhe-Aib)_n-OCH₃ (n = 1–4: Boc, t-butoxycarbonyl; Aib, α-aminoisobutyric acid), were synthesized, and their solution conformations were investigated by ¹H-nmr, ir, uv, and CD spectroscopy and theoretical CD calculation. ¹H-nmr (the solvent accessibility of NH groups) and ir studies indicated that all the NH groups except for those belonging to the N-terminal L -Ala-Δ^zPhe moiety participate in intramolecular hydrogen bonding in chloroform. This suggests that the peptides n = 2–4 have a 4 → 1 hydrogen-bonding pattern characteristic of 3₁₀-helical structures. The uv spectra of all these peptides recorded in chloroform and in trimethyl phosphate showed an intense maximum around 276 nm assigned to the Δ^zPhe chromophores. The corresponding CD spectra of the peptides n = 2–4 showed exciton couplets with a negative peak at longer wavelengths, whereas that of the peptide n = 1 showed only weak signals. Theoretical CD spectra were calculated for the peptides n = 2–4 of several helical conformations, on the basis of exciton chirality method. This calculation indicated that the three peptides form a helical conformation deviating from the perfect 3₁₀-helix that contains three residues per turn, and that their side chains of Δ^z Phe residues are arranged regularly along the helix. The center-to-center distance between the nearest phenyl pair(s) was estimated to be ～ 5.5 Å. The chemical shifts of the Δ^zPhe side-chain protons (H^β and aromatic H) for the peptides n = 2–4 indicated anisotropic shielding effect of neighboring phenyl group(s); the effect also supports a regular arrangement of the Δ^z Phe side chains along the helical axis. © 1993 John Wiley & Sons, Inc.