Chirality and Template‐Mediated Induction of Helical Preferences in Achiral β‐Peptides

Sharma, G. V. M.; Kodeti, Srinivas Reddy; Dutta, Subhabrata; Subash, Velaparthi; Narsimulu, K.; Anjaiah, Gonuguntla; Basha, Shaik Johny; Kunwar, A. C.

doi:10.1002/chem.201201892

Chemistry A European J

2012

DOI: 10.1002/chem.201201892

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Chirality and Template‐Mediated Induction of Helical Preferences in Achiral β‐Peptides

G. V. M. Sharma

Srinivas Reddy Kodeti

Subhabrata Dutta

et al.

Abstract: This study describes chirality- or template-mediated helical induction in achiral β-peptides for the first time. A strategy of end capping β-peptides derived from β-hGly (the smallest achiral β-amino acid) with a chiral β-amino acid that possesses a carbohydrate side chain (β-Caa; C-linked carbo β-amino acid) or a small, robust helical template derived from β-Caas, was adopted to investigate folding propensity. A single chiral (R)-β-Caa residue at the C- or N-terminus in these oligomers led to a preponderance … Show more

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Cited by 4 publications

References 94 publications

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Three‐Residue Turn in β‐Peptides Nucleated by a 12/10 Helix

Sharma¹,

Yadav²,

Marumudi³

et al. 2014

Chemistry An Asian Journal

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A new three-residue turn in β peptides nucleated by a 12/10-mixed helix is presented. In this design, β peptides were derived from the 1:1 alternation of C-linked carbo-β-amino acid ester [BocNH-(R)-β-Caa(r)-OMe] (Boc=tert-butyloxycarbonyl), which consisted of a D-ribo furanoside side chain, and β-hGly residues. The hexapeptide with (R)-β-Caa(r) at the N terminus showed the 'turn' stabilized by a 14-membered NH(4)⋅⋅⋅CO(6) hydrogen bond at the C terminus nucleated by a robust 12/10-mixed helix, thus providing a 'helix-turn' (HT) motif. The turn and the helix were additionally stabilized by intraresidue electrostatic interaction between the furan oxygen in the carbohydrate side chain and NH in the backbone. However, the hexapeptide with a β-hGly residue at the N terminus demonstrated the presence of a 10/12 helix through its entire length, which again showed the intraresidue interaction between NH and furan oxygen. The intraresidue NH⋅⋅⋅O-Me electrostatic interactions observed in the monomer, however, were absent in the peptides.

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Three‐Residue Turn in β‐Peptides Nucleated by a 12/10 Helix

Sharma¹,

Yadav²,

Marumudi³

et al. 2014

Chemistry An Asian Journal

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show abstract

New Helical Folds in α‐Peptides with Alternating Chirality

Sharma

Venkateshwarlu

Reddy

et al. 2014

Chemistry A European J

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In α-peptides, the 8/10 helix is theoretically predicted to be energetically unstable and has not been experimentally observed so far. Based on our earlier studies on 'helical induction' and 'hybrid helices', we have adopted the 'end-capping' strategy to induce the 8/10 helix in α-peptides by using short α/β-peptides. Thus, α-peptides containing a regular string of α-amino acids with alternating chirality were end capped by α/β-peptides with 11/9-helical motifs at the termini. Extensive NMR spectroscopy studies of these peptides revealed the presence of a hitherto unknown 8/10-helical pattern; the H-bonds in the shorter pseudorings were rather weak. The approach of using short helical motifs to induce new mixed helices in α-peptides could provide avenues for more versatile design strategies.

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Solvent-Directed Switch of a Left-Handed 10/12-Helix into a Right-Handed 12/10-Helix in Mixed β-Peptides

et al. 2017

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Present study describes the synthesis and conformational analysis of β-peptides from C-linked carbo-β-amino acids [β-Caa] with a d-lyxo furanoside side chain and β-hGly in 1:1 alternation. NMR and CD investigations on peptides with an (S)-β-Caa monomer at the N-terminus revealed a right-handed 10/12-mixed helix. An unprecedented solvent-directed "switch" both in helical pattern and handedness was observed when the sequence begins with a β-hGly residue instead of a (S)-β-Caa constituent. NMR studies on these peptides in chloroform indicated a left-handed 10/12-helix, while the CD spectrum in methanol inferred a right-handed secondary structure. The NMR data for these peptides in CDOH showed the presence of a right-handed 12/10-helix. NMR investigations in acetonitrile indicated the coexistence of both helix types. Quantum chemical studies predicted a small energy difference of 0.3 kcal/mol between the two helix types, which may explain the possibility of solvent influence. Examples for a solvent-directed switch of both the H-bonding pattern and the handedness of foldamer helices are rare so far. A comparable solvent effect was not found in the corresponding peptides with (R)-β-Caa residues, where right-handed 12/10-helices are predominating.

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Chirality and Template‐Mediated Induction of Helical Preferences in Achiral β‐Peptides

Cited by 4 publications

References 94 publications

Three‐Residue Turn in β‐Peptides Nucleated by a 12/10 Helix

Three‐Residue Turn in β‐Peptides Nucleated by a 12/10 Helix

New Helical Folds in α‐Peptides with Alternating Chirality

Solvent-Directed Switch of a Left-Handed 10/12-Helix into a Right-Handed 12/10-Helix in Mixed β-Peptides

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