De Michael Chung scite author profile

Unnatural amino acid 2 (5-HO2CCONH-2-MeO-C6H3-CONHNH2) duplicates the hydrogen-bonding functionality of one edge of a tripeptide β-strand. It is composed of hydrazine, 5-amino-2-methoxybenzoic acid, and oxalic acid groups and is designated by the three-letter abbreviation “Hao” to reflect these three components. The 2,7-di-tert-butylfluorenylmethyloxycarbonyl (Fmoc*)- and tert-butyloxycarbonyl (Boc)-protected derivatives of Hao are prepared efficiently and in high yield by the condensation of suitably protected derivatives of hydrazine, 5-amino-2-methoxybenzoic acid, and oxalic acid. Fmoc*-Hao and Boc-Hao behave like typical Fmoc- and Boc-protected amino acids and can be incorporated into peptides by standard solid- and solution-phase peptide synthesis techniques using carbodiimide coupling agents. Hao-containing peptide 9 (i-PrCO-Phe-Hao-Val-NHBu) forms a β-sheetlike hydrogen-bonded dimer in CDCl3 and CD3OD−CDCl3 solutions. Peptides containing Hao and natural amino acids display hydrogen-bonding surfaces that are complementary to the hydrogen-bonding edges of protein β-sheets.

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The Absence of Favorable Aromatic Interactions between β-Sheet Peptides

Chung

Dou

Baldi

et al. 2005

J. Am. Chem. Soc.

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This paper asks whether interactions between phenylalanine (Phe) residues of the non-hydrogen-bonded cross-strand pairs of antiparallel beta-sheets are important and finds that they are not. Peptides 1a-d [o-BuO-C6H4CO-AA1-Orn(i-PrCO-Hao)-Phe-Ile-AA5-NHMe: 1a AA1, AA5 = Phe; 1b AA1, AA5 = Cha (cyclohexylalanine); 1c AA1 = Phe, AA5 = Cha; 1d AA1 = Cha, AA5 = Phe] provide a sensitive system for probing interactions between phenylalanine residues. These peptides form beta-sheet homodimers in organic solvents. When the homodimers of different peptides are mixed, they equilibrate to form heterodimers, as well as homodimers. The position of the equilibrium reflects the propensity of the first (AA1) and fifth (AA5) amino acids to interact within the non-hydrogen-bonded cross-strand pairs of beta-sheets. Mixing peptides 1a-d in all six possible binary combinations provides a measure of the relative propensities of Phe and Cha to pair. Analysis by 1H NMR spectroscopy of the equilibrium constants in CDCl3 solution reveals no significant preference for the formation of Phe-Phe pairs. The equilibria in all six experiments are essentially statistical (K approximately 4), and no (<0.1 kcal/mol) preference is seen for any pairing combination. A survey of Phe-Phe pairs in the Interchain beta-Sheet Database (http://www.igb.uci.edu/servers/icbs/) corroborates that little significant contact occurs between the aromatic rings in the non-hydrogen-bonded cross-strand pairs of antiparallel beta-sheets at the interface between polypeptide chains. Even though contacts between aromatic rings are favorable when they are of suitable geometry, the energetic price of achieving suitable geometries appears to offset the energetic benefits of such contacts in the current model system, as well as in proteins.

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Enantioselective Molecular Recognition between β-Sheets

Chung

Nowick

2004

J. Am. Chem. Soc.

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This communication asks whether homochiral or heterochiral interaction is preferred between enantiomeric beta-sheets and finds that homochiral pairing is strongly preferred. Interactions between beta-sheets occur widely among proteins through pairing of the hydrogen-bonding edges. Although the hydrogen-bonding edges of both l- and d-beta-sheets put forth the same pattern of hydrogen-bond donor and acceptor groups, the side chains point in opposite directions. Homochiral pairing of beta-sheets generates structures in which the pleats and side chains of adjacent beta-strands are parallel to each other, while heterochiral pairing of beta-sheets generates structures in which the pleats and side chains are antiparallel. To test which pairing is preferred, we have prepared and studied the interactions of beta-sheets 1a-d, which comprise all l-amino acids, and beta-sheets 2a-c, which comprise all d-amino acids. Previous studies in our laboratory have established that these compounds form well-defined dimers in organic solvents. In the current study, 1H NMR experiments establish that when the l-beta-sheets (1) are mixed with the enantiomeric d-beta-sheets (2), homochiral beta-sheet dimers predominate, and only small quantities of heterochiral beta-sheet dimers form. Ratios of homochiral and heterochiral dimers ranging from 95.8:4.2 to 98.5:1.5 are measured in CDCl3 at 253 K, which correspond to statistically corrected free-energy differences of 3.1-4.2 kcal/mol (0.6-0.8 kcal/mol per interacting residue). Possible explanations for the high enantioselectivity of molecular recognition between beta-sheets include favorable nonbonded contacts between the adjacent beta-strands of the homochiral beta-sheets and poor fit of the heterochiral beta-strands, which should twist in opposite directions.

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Sequence‐Selective Molecular Recognition between β Sheets

Nowick

Chung

2003

Angew Chem Int Ed

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Fmoc*: A More Soluble Analogue of the 9-Fluorenylmethoxycarbonyl Protecting Group

et al. 2000

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De Michael Chung

An Unnatural Amino Acid that Mimics a Tripeptide β-Strand and Forms β-Sheetlike Hydrogen-Bonded Dimers

The Absence of Favorable Aromatic Interactions between β-Sheet Peptides

Enantioselective Molecular Recognition between β-Sheets

Sequence‐Selective Molecular Recognition between β Sheets

Fmoc*: A More Soluble Analogue of the 9-Fluorenylmethoxycarbonyl Protecting Group

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