Two Helical Conformations from a Single Foldamer Backbone: “Split Personality” in Short α/β‐Peptides

Hayen, Ahlke; Schmitt, Margaret A.; Ngassa, Felix N.; Thomasson, Kathryn A.; Gellman, Samuel H.

doi:10.1002/anie.200352125

Cited by 211 publications

(139 citation statements)

References 34 publications

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“…2,3 In particular, Fleet et al 4,5 have reported a number of peptidomimetics and unnatural biopolymers adopting interesting secondary structures because of the carbohydrate-derived tetrahydrofuran systems they contain. On their hand, the SeebachÕs 6,7 and GellmanÕs [8][9][10][11] groups have found that b-peptides are able to adopt defined three-dimensional structures similar to those of natural peptides. The unnatural b-peptide backbone is resistant to proteolysis, 2 in contrast to a-amino acid backbone.…”

Section: Introductionmentioning

confidence: 96%

Efficient synthesis of multifunctional furanoid C-glycoamino acid precursors

Vera-Ayoso

Borrachero

Cabrera‐Escribano

et al. 2005

Tetrahedron: Asymmetry

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Section: Introductionmentioning

confidence: 96%

Efficient synthesis of multifunctional furanoid C-glycoamino acid precursors

Vera-Ayoso

Borrachero

Cabrera‐Escribano

et al. 2005

Tetrahedron: Asymmetry

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“…1 Em algumas áreas, os compostos heterocí-clicos são indispensáveis tanto para o funcionamento como para a eficiência de vários processos como, por exemplo, a obtenção de novas moléculas com atividade farmacológica, 2 desenvolvimento de polímeros, 3 além da produção de matérias primas industriais, como as ligas metálicas amorfas. 4 Com relação aos compostos formados por anéis de três membros, 5,6 em particular a aziridina (C 2 H 5 N), a elevada capacidade deste heterocíclico em reagir com nucleófilos é bem conhecida pelos químicos orgânicos, [7][8][9][10] podendo ser citado a esse respeito o mecanismo de síntese de Wenker.…”

Section: Introductionunclassified

Metodologia AGOA: a modelagem de clusters de hidratação no complexo aziridina···ácido fluorídrico

Oliveira¹,

Araújo²,

Carvalho³

et al. 2009

Quím. Nova

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Recebido em 19/5/08; aceito em 14/1/09; publicado na web em 11/5/09 AGOA METHODOLOGY: MODELING THE HYDRATION CLUSTERS FOR THE AZIRIDINE⋅⋅⋅HYDROFLUORIC COMPLEX. We present a theoretical study of solvent effect on C 2 H 5 N⋅⋅⋅HF hydrogen-bonded complex through the application of the AGOA methodology. By using the TIP4P model to orientate the configuration of water molecules, the hydration clusters generated by AGOA were obtained through the analysis of the molecular electrostatic potential (MEP) of solute (C 2 H 5 N⋅⋅⋅HF). Thereby, it was calculated the hydration energies on positive and negative MEP fields, which are maxima (PEMmax) and minima (PEMmin) when represent the -CH 2 -methylene groups and hydrofluoric acid, respectively. By taking into account the higher and lower hydration energy values of -370.6 kJ mol -1 and -74.3 kJ mol -1 for PEMmax and PEMmin of the C 2 H 5 N⋅⋅⋅HF, our analysis shows that these results corroborate the open ring reaction of aziridine, in which the preferential attack of water molecules occurs at the methylene groups of this heterocyclic.Keywords: hydrogen complexes; aziridine; AGOA. INTRODUÇÃONo meio da biodiversidade química existente na natureza, é incontestável que os compostos heterocíclicos compõem um grupo de absoluto destaque. 1 Em algumas áreas, os compostos heterocí-clicos são indispensáveis tanto para o funcionamento como para a eficiência de vários processos como, por exemplo, a obtenção de novas moléculas com atividade farmacológica, 2 desenvolvimento de polímeros, 3 além da produção de matérias primas industriais, como as ligas metálicas amorfas. 4 Com relação aos compostos formados por anéis de três membros, 5,6 em particular a aziridina (C 2 H 5 N), a elevada capacidade deste heterocíclico em reagir com nucleófilos é bem conhecida pelos químicos orgânicos, 7-10 podendo ser citado a esse respeito o mecanismo de síntese de Wenker. 11,12 Conforme documentado por Hu 6 em um recente artigo sobre a funcionalidade da aziridina, em meio aquoso observa-se que a intensidade da interação de moléculas de água com os carbonos dos grupos metileno (-CH 2 -) provoca uma reação de abertura de anel. 13 De acordo com estudos físico-químicos, 14 esta reação ocorre preferencialmente em pH ácido, condição que favorece a cinética deste processo, ou seja, a espécie ácida atua como um catalisador e provoca a protonação da aziridina, conforme ilustrado na Figura 1. Nesta situação, ocorre um enfraquecimento da ligação (C-N), o que induz a ruptura do anel através de um mecanismo de substituição nucleofílica de segunda ordem (SN 2 ), em que o cátion aziridina (2) é considerado um intermediário subsequente à formação do complexo C 2 H 5 N⋅⋅⋅HF (1). Nesta fase do mecanismo, a influência do solvente no complexo (1) é primordial para a estabilização deste sistema e por isso merece ser estudada.Desde sua protonação até a ruptura da estrutura heterocíclica, o mecanismo SN 2 de abertura do anel aziridina é bem conhecido, entretanto recentes estudos teóricos validaram a formação de um novo intermediário...

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“…The only crystallographically characterized examples are the structures of 8-and 11-aa peptides, in which a ␤␥ segment has been inserted into a peptide helix, with concomitant expansion of the hydrogen bonded rings at the site of insertion (6). Regular helical structures with mixed hydrogen bonds have been proposed from the NMR studies of alternating ␣͞␤ sequences, containing the stereochemically restricted ␤ residue trans-2-aminocyclopentanecarboxylic acid (ACPC) (7). As part of a program to insert segments containing multiple ␤ residues into ␣-peptide helices, we obtained the 11-aa peptide t-butoxycarbonyl (Boc)-Val-Ala-Phe-aminoisobutyric acid (Aib)-(R)-␤ 3 -homovaline (␤Val)-␤Phe-Aib-Val-Ala-Phe-Aib-OMe 1.…”

mentioning

confidence: 99%

α,β hybrid peptides: A polypeptide helix with a central segment containing two consecutive β-amino acid residues

Roy

Karle

Raghothama

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

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Conformational studies on the synthetic 11-aa peptide t-butoxycarbonyl (Boc)-Val-Ala-Phe-␣-aminoisobutyric acid (Aib)-(R)-␤ 3 -homovaline (␤Val)-(S)-␤ 3 -homophenylalanine (␤Phe)-Aib-Val-AlaPhe-Aib-methyl ester (OMe) (peptide 1; ␤Val and ␤Phe are ␤ amino acids generated by homologation of the corresponding L-residues) establish that insertion of two consecutive ␤ residues into a polypeptide helix can be accomplished without significant structural distortion. Crystal-structure analysis reveals a continuous helical conformation encompassing the segment of residues 2-10 of peptide 1. At the site of insertion of the ␤␤ segment, helical hydrogen-bonded rings are expanded. A C15 hydrogen bond for the ␣␤␤ segment and two C14 hydrogen bonds for the ␣␣␤ or ␤␣␣ segments have been characterized. The following conformational angles were determined from the crystal structure for the ␤ residues: ␤Val-5 ( ‫؍‬ ؊126°, ‫؍‬ 76°, and ‫؍‬ ؊124) and ␤Phe-6 ( ‫؍‬ ؊88°, ‫؍‬ 80°, and ‫؍‬ ؊118). The N terminus of the peptide is partially unfolded in crystals. The 500-MHz 1 H-NMR studies establish a continuous helix over the entire length of the peptide in CDCl 3 solution, as evidenced by diagnostic nuclear Overhauser effects. The presence of seven intramolecular hydrogen bonds is also established by using solvent dependence of NH chemical shifts.␣͞␤-helix ͉ C14 hydrogen bond ͉ C15 hydrogen bond ͉ ␣␤␤ segment ͉ ␤␤␣ segment T he rapid advances made in elucidating the conformational properties of ␤ amino acid residues (1-4) permit attempts to rationally design hybrid ␣͞␤ peptides, in which guest residues can be incorporated into regular host secondary structures (5). The ␤ residues have been incorporated into both the turn and strand positions of designed ␤-hairpin peptides. There are few examples of the insertion of ␤ residues into well defined ␣-peptide helices. The only crystallographically characterized examples are the structures of 8-and 11-aa peptides, in which a ␤␥ segment has been inserted into a peptide helix, with concomitant expansion of the hydrogen bonded rings at the site of insertion (6). Regular helical structures with mixed hydrogen bonds have been proposed from the NMR studies of alternating ␣͞␤ sequences, containing the stereochemically restricted ␤ residue trans-2-aminocyclopentanecarboxylic acid (ACPC) (7). As part of a program to insert segments containing multiple ␤ residues into ␣-peptide helices, we obtained the 11-aa peptide t-butoxycarbonyl (Boc)-Val-Ala-Phe-aminoisobutyric acid (Aib)-(R)-␤ 3 -homovaline (␤Val)-␤Phe-Aib-Val-Ala-Phe-Aib-OMe 1. This sequence was based on the parent ␣ peptide Boc-Val-Ala-PheAib-Val-Ala-Phe-Aib-Val-Ala-Phe-Aib-OMe 2, which adopted a complete helical conformation in crystals (8). Peptide 1 differs from the parent all-␣ sequence in having the central Val-AlaPhe-Aib segment replaced by a ␤Val-␤Phe-Aib segment, which formally corresponds to replacing a segment of 12 backbone atoms by a unit containing 11 backbone atoms. In this article, we establish the continuous helical conformation of...

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Two Helical Conformations from a Single Foldamer Backbone: “Split Personality” in Short α/β‐Peptides

Cited by 211 publications

References 34 publications

Efficient synthesis of multifunctional furanoid C-glycoamino acid precursors

Efficient synthesis of multifunctional furanoid C-glycoamino acid precursors

Metodologia AGOA: a modelagem de clusters de hidratação no complexo aziridina···ácido fluorídrico

α,β hybrid peptides: A polypeptide helix with a central segment containing two consecutive β-amino acid residues

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