Elizabeth A. Anderson scite author profile

A nanoparticle magnetic resonance imaging (MRI) contrast agent was developed by conjugation of more than 500 gadolinium chelate groups onto a viral capsid. The high density of paramagnetic centers and slow tumbling rate of modified MS2 capsids provided enhanced T1 relaxivities up to 7200 mM-1s-1 per particle. A bimodal imaging agent was generated by sequential conjugation of fluorescein and Gd3+ chelate. These results illustrate the potential for engineering natural protein assemblies to address bionanotechnology applications.

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Probing aromatic, hydrophobic, and steric effects on the self-assembly of an amyloid-β fragment peptide

Senguen

Lee

et al. 2011

Mol. BioSyst.

120

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Aromatic amino acids have been shown to promote self-assembly of amyloid peptides, although the basis for this amyloid-inducing behavior is not understood. We adopted the amyloid-β 16-22 peptide (Aβ(16-22), Ac-KLVFFAE-NH(2)) as a model to study the role of aromatic amino acids in peptide self-assembly. Aβ(16-22) contains two consecutive Phe residues (19 and 20) in which Phe 19 side chains form interstrand contacts in fibrils while Phe 20 side chains interact with the side chain of Va l18. The kinetic and thermodynamic effect of varying the hydrophobicity and aromaticity at positions 19 and 20 by mutation with Ala, Tyr, cyclohexylalanine (Cha), and pentafluorophenylalanine (F(5)-Phe) (order of hydrophobicity is Ala < Tyr < Phe < F(5)-Phe < Cha) was characterized. Ala and Tyr position 19 variants failed to undergo fibril formation at the peptide concentrations studied, but Cha and F(5)-Phe variants self-assembled at dramatically enhanced rates relative to wild-type. Cha mutation was thermodynamically stabilizing at position 20 (ΔΔG = -0.2 kcal mol(-1) relative to wild-type) and destabilizing at position 19 (ΔΔG = +0.2 kcal mol(-1)). Conversely, F(5)-Phe mutations were strongly stabilizing at both positions (ΔΔG = -1.3 kcal mol(-1) at 19, ΔΔG = -0.9 kcal mol(-1) at 20). The double Cha and F(5)-Phe mutants showed that the thermodynamic effects were additive (ΔΔG = 0 kcal mol(-1) for Cha 19,20 and -2.1 kcal mol(-1) for F(5)-Phe 19,20). These results indicate that sequence hydrophobicity alone does not dictate amyloid potential, but that aromatic, hydrophobic, and steric considerations collectively influence fibril formation.

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Three-State Thermodynamic Analysis of the Denaturation of Staphylococcal Nuclease Mutants

Carra¹,

Anderson²,

Privalov³

1994

Biochemistry

104

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Using microcalorimetry, we found an equilibrium intermediate state during the denaturation of the wild-type and five mutant staphylococcal nuclease proteins: V66L, V66W, G88V, D77A, and E75V. The presence of two distinct heat absorption peaks allowed direct measurement of the enthalpy differences between the native, intermediate, and denatured states. Conditions of low pH and high NaCl concentration facilitated observation of the intermediate, or I-state. We propose to consider the nuclease protein as composed of two subdomains, divided along the active-site cleft. The structure of the I-state apparently consists mainly of the folded beta-barrel subdomain, as does that of a nuclease fragment protein [Shortle, D., & Abeygunawardana, C. (1993) Structure 1, 121-134]. The cooperativity of folding of the subdomains is maintained by electrostatic bonds across the active-site cleft. Removal of these bonds by the mutation D77A or E75V results in decooperation of the protein's structure and a three-state mechanism of denaturation at pH 7.0. The origins of differences in the enthalpy change of denaturation and in the m value of guanidinium chloride-induced denaturation with mutant nucleases are discussed in terms of this three-state mechanism.

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Clarifying the influence of core amino acid hydrophobicity, secondary structure propensity, and molecular volume on amyloid-β 16–22 self-assembly

et al. 2011

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The self-assembly of amyloid peptides is influenced by hydrophobicity, charge, secondary structure propensity, and sterics. Previous experiments have shown that increasing hydrophobicity at the aromatic positions of the amyloid-β 16-22 fragment (Aβ(16-22)) without introducing steric restraints greatly increases the rate of self-assembly and thermodynamically stabilizes the resulting fibrils [Senguen et al., Mol. BioSyst., 2011, DOI: 10.1039/c0mb00080a]. Conversely, when increasing side chain hydrophobicity coincides with an increase in side chain volume, the increase in the rate of self-assembly is offset by a thermodynamic destabilization of the resulting amyloid fibrils when direct cross-strand side chain interactions occur. These findings indicate that steric effects also influence the self-assembly of amyloidogenic peptides. Herein, the aromatic Phe residues at positions 19, 20, and 19,20 of Aβ(16-22) have been systematically replaced by Val, Leu, Ile, or hexafluoroleucine (Hfl) and amyloid formation has been characterized. The Val variants, despite the high β-sheet propensity of Val, were thermodynamically destabilized (ΔΔG = +0.1-0.4 kcal mol(-1)) relative to the wild-type with the double mutant failing to self-assemble at the concentrations studied. Conversely, the Leu and Ile variants formed fibrils at enhanced rates relative to wild-type and exhibited similar, or in some cases enhanced thermodynamic stabilities relative to the wild-type (ΔΔG = 0-0.6 kcal mol(-1)). The more hydrophobic Hfl variants were greatly stabilized (ΔΔG = -0.3-2.1 kcal mol(-1)) relative to the wild-type. These data indicate that hydrophobicity and steric effects both influence peptide self-assembly processes, including nucleation and fibrillization rates and the thermodynamic stability of the resulting fibrils.

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