Bioactive and model peptides characterized by the helicogenic (αMe)Phe residue (original) (raw)
Structural Types of Relevant �-Amino Acid Targets
Eusebio Juaristi
Cheminform, 2006
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Analogue and Conformational Studies on Peptides, Hormones and Other Biologically Active Peptides
Botond Penke
ChemInform, 2007
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Biochemistry of peptide molecules and drugs
Dhanunjay D
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Preparation and Structure ofβ-Peptides Consisting of Geminally Disubstitutedβ2,2- andβ3,3-Amino Acids: A Turn Motif forβ-Peptides
Stefan Abele
Helvetica Chimica Acta, 1998
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Amino Acids in Peptide Design. Crystal Structures and Solution Conformations of Peptide Helices Containing a β-Alanyl-γ-Aminobutyryl Segment
Animesh Pramanik
Journal of The American Chemical Society, 1997
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CRYSTALLOGRAPHIC CHARACTERIZATION OF THE CONFORMATION OF THE 1-AMINO-CYCLOHEXANE-1-CARBOXYLIC ACID RESIDUE IN SIMPLE DERIVATIVES AND PEPTIDES
Marco Crisma
Journal of the Chemical Society-Perkin Transactions 2, 1988
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Structural Types of Relevant β-Amino Acid Targets
Eusebio Juaristi
ChemInform, 2006
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Influence of C-terminal amidation on the antimicrobial and hemolytic activities of cationic α-helical peptides
Erik Strandberg
Pure and Applied Chemistry, 2000
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Abstracts presented at the 14th International Congress on Amino Acids, Peptides and Proteins
Fernando Sialana
Amino Acids, 2015
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Linear oligopeptides. 273. Structural versatility of peptides from C.alpha.,.alpha.-disubstituted glycines. Synthesis, characterization, and solution conformational analysis of homopeptides from C.alpha.-methyl-C.alpha.-benzylglycine, and [(.alpha.Me)Phe]n1
Marco Crisma
Macromolecules, 1993
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Conformational characterization of peptides rich in the cycloaliphatic C,-disubstituted glycine 1-amino‐cyclononane-1-carboxylic acid
Rosa Iacovino
Journal of Peptide Science, 1997
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C-alpha-methyl, C-alpha-phenylglycine peptides: A structural study
Marco Crisma
Letters in Peptide Science, 1998
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Structural and biological effects of a ��2- or ��3-amino acid insertion in a peptide
Olivier Tasseau
European Journal of Biochemistry, 2003
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3,4-Disubstituted .gamma.-lactam rings as conformationally constrained mimics of peptide derivatives containing aspartic acid or norleucine
David Garvey
The Journal of Organic Chemistry, 1990
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Conformations of β-amino acid residues in peptides: X-ray diffraction studies of peptides containing the achiral residue 1-aminocyclohexaneacetic acid, β3,3Ac6c
Rajkishor Rai
Biopolymers, 2008
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Synthesis and conformation of dipeptide taste ligands containinghomo-β-amino acid residues
Enrico Bucci, C. Isernia, Rosa Iacovino, Daniela Montesarchio
Journal of Physical Organic Chemistry, 1999
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Synthesis of peptides with α,β-dehydroamino acids, VI. Synthesis ofN-benzyloxycarbonyl andN-trifluoroacetyl dipeptides of α,β-dehydro-butyrine, -valine, -leucine, and -isoleucine
Piotr Wieczorek
Liebigs Annalen der Chemie, 1988
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Synthesis and conformational studies of peptides from new C-linked carbo-β-amino acids (β-Caas) with anomeric methylamino- and difluorophenyl moieties
ravi rapolu
Organic & Biomolecular Chemistry, 2008
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Peptides: Chemistry, structure and biology
Pravin Kaumaya
FEBS Letters, 1977
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Studies on amino acids and peptides—I
Michael Thorsen
Tetrahedron, 1981
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Destabilization of the 3 10 -Helix in Peptides Based on C α -Tetrasubstituted α-Amino Acids by Main-Chain to Side-Chain Hydrogen Bonds
Marco Crisma
Journal of the American Chemical Society, 1998
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Looking for the peptide 2.0 5 -helix: A solvent- and main-chain length-dependent conformational switch probed by electron transfer across c α,α -diethylglycine homo-oligomers
Marco Crisma
Biopolymers, 2013
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Factors governing 310-helix vs ?-helix formation in peptides: Percentage of C?-tetrasubstituted ?-amino acid residues and sequence dependence
Marco Crisma
Biopolymers, 2002
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Structural versatility of peptides from Cα,α-dialkylated glycines: a conformational energy calculation and X-ray diffraction study of homopeptides from 1-aminocyclopentane-1-carboxylic acid
Francesco Lelj, Marco Crisma
International Journal of Biological Macromolecules, 1988
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Structural versatility of peptides from C.alpha.,.alpha.-dialkylated glycines. A conformational energy computation and x-ray diffraction study of homopeptides from 1-aminocyclohexane-1-carboxylic acid1
Marco Crisma
Macromolecules, 1988
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Facile transition between 3 10 - and α-helix: Structures of 8-, 9-, and 10-residue peptides containing the -(Leu-Aib-Ala) 2 -Phe-Aib-fragment
gurunath ramanathan
Protein Science, 1994
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Peptides Frontiers of Peptide Science
Pravin Kaumaya
Springer eBooks, 2002
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Preferred conformation of peptides rich in Ac8c, a medium-ring alicyclic Cα,α-disubstituted glycine
Marco Crisma
Journal of Peptide Science, 1996
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A hairpin-shaped peptide conformation stabilized by multiple intramolecular H-bonds for a linear alternating D,L hexapeptide
Alfonso Bavoso
Biochemical and Biophysical Research Communications, 1982
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Linear oligopeptides. 277. Structural versatility of peptides from C.alpha.,.alpha.-disubstituted glycines. Synthesis, characterization, and solution and crystal-state conformational analysis of homopeptides from C.alpha.-methyl-C.alpha.-isopropylglycine, [(.alpha.Me)Val]
Marco Crisma
Macromolecules, 1993
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Conformation of di-n-propylglycine residues (Dpg) in peptides: crystal structures of a type I′β-turn forming tetrapeptide and an α-helical tetradecapeptide
Rajkishor Rai
Journal of Peptide Science, 2008
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Structural versatility of peptides from C?,?-disubstituted glycines: Preferred conformation of the C?,?-diphenylglycine residue
Francesco Lelj, Marco Crisma
Biopolymers, 1990
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Evidence for the 310-helical structure of peptides based on antAib, a fluorophoric, anthracene-fused, 1-aminocyclopentane-1-carboxylic acid
Cristina Peggion
Biopolymers, 2007
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Structural studies on peptides, alkaloids and their complexes
Steven Bud Glover
1984
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Novel insights on cationic peptides
Domenica Musumeci
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