Fmoc-(R,S)-1,3-dihydro-2H-isoindole carboxylic acid
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Fmoc-(R,S)-1,3-dihydro-2H-isoindole carboxylic acid

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Category
Fmoc-Amino Acids
Catalog number
BAT-007284
CAS number
204320-59-2
Molecular Formula
C24H19NO4
Molecular Weight
385.41
Fmoc-(R,S)-1,3-dihydro-2H-isoindole carboxylic acid
IUPAC Name
2-(9H-fluoren-9-ylmethoxycarbonyl)-1,3-dihydroisoindole-1-carboxylic acid
Synonyms
Fmoc-DL-Disc-OH; Fmoc DL Disc OH
Appearance
White solid
Purity
≥ 97.5% (HPLC)
Density
1.3±0.1 g/cm3
Boiling Point
600.4±55.0 °C at 760 mmHg
Storage
Store at 2-8 °C
InChI
InChI=1S/C24H19NO4/c26-23(27)22-16-8-2-1-7-15(16)13-25(22)24(28)29-14-21-19-11-5-3-9-17(19)18-10-4-6-12-20(18)21/h1-12,21-22H,13-14H2,(H,26,27)
InChI Key
YDLDAMFCNLVPGY-UHFFFAOYSA-N
Canonical SMILES
C1C2=CC=CC=C2C(N1C(=O)OCC3C4=CC=CC=C4C5=CC=CC=C35)C(=O)O
1. Nitroxyl peptides as catalysts of enantioselective oxidations
Fernando Formaggio, et al. Chemistry. 2002 Jan 4;8(1):84-93. doi: 10.1002/1521-3765(20020104)8:13.0.co;2-n.
The achiral, nitroxyl-containing alpha-amino acid TOAC (TOAC = 2,2,6,6-tetramethylpiperidine-1-oxyl-4-amino-4-carboxylic acid), in combination with the chiral alpha-amino acid C(alpha)-methyl valine [(alphaMe)Val], was used to prepare short peptides (from di- to hexa-) that induced the enantioselective oxidation of racemic 1-phenylethanol to acetophenone. The best catalyst was an N(alpha)-acylated dipeptide alkylamide with the -TOAC-(alphaMe)Val- sequence folded in a stable, intramolecularly hydrogen-bonded beta-turn conformation with large, lipophilic (hydrophobic) N- and C-terminal blocking groups. We rationalized our findings by proposing models for the diastereomeric intermediates between (R)-[and (S)]-1-phenylethanol and the catalyst Fmoc-TOAC-L-(alphaMe)Val-NHiPr, based on the X-ray diffraction structure of the latter.
2. Solid phase synthesis of a functionalized bis-peptide using "safety catch" methodology
Conrad T Pfeiffer, Christian E Schafmeister J Vis Exp. 2012 May 15;(63):e4112. doi: 10.3791/4112.
In 1962, R.B. Merrifield published the first procedure using solid-phase peptide synthesis as a novel route to efficiently synthesize peptides. This technique quickly proved advantageous over its solution-phase predecessor in both time and labor. Improvements concerning the nature of solid support, the protecting groups employed and the coupling methods employed over the last five decades have only increased the usefulness of Merrifield's original system. Today, use of a Boc-based protection and base/nucleophile cleavable resin strategy or Fmoc-based protection and acidic cleavable resin strategy, pioneered by R.C. Sheppard, are most commonly used for the synthesis of peptides(1). Inspired by Merrifield's solid supported strategy, we have developed a Boc/tert-butyl solid-phase synthesis strategy for the assembly of functionalized bis-peptides(2), which is described herein. The use of solid-phase synthesis compared to solution-phase methodology is not only advantageous in both time and labor as described by Merrifield(1), but also allows greater ease in the synthesis of bis-peptide libraries. The synthesis that we demonstrate here incorporates a final cleavage stage that uses a two-step "safety catch" mechanism to release the functionalized bis-peptide from the resin by diketopiperazine formation. Bis-peptides are rigid, spiro-ladder oligomers of bis-amino acids that are able to position functionality in a predictable and designable way, controlled by the type and stereochemistry of the monomeric units and the connectivity between each monomer. Each bis-amino acid is a stereochemically pure, cyclic scaffold that contains two amino acids (a carboxylic acid with an α-amine)(3,4). Our laboratory is currently investigating the potential of functional bis-peptides across a wide variety of fields including catalysis, protein-protein interactions and nanomaterials.
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