Andrew S. Lipton scite author profile

α-Synuclein (AS) fibrils are the major component of Lewy bodies, the pathological hallmark of Parkinson’s disease (PD). Here, we use results from an extensive investigation employing solid-state NMR to present a detailed structural characterization and conformational dynamics quantification of full-length AS fibrils. Our results show that the core extends with a repeated structural motif. This result disagrees with the previously proposed fold of AS fibrils obtained with limited solid-state NMR data. Additionally, our results demonstrate that the three single point mutations associated with early-onset PD—A30P, E46K and A53T—are located in structured regions. We find that E46K and A53T mutations, located in rigid β-strands of the wild-type fibrils, are associated with major and minor structural perturbations, respectively.

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Magic Angle Spinning NMR Reveals Sequence-Dependent Structural Plasticity, Dynamics, and the Spacer Peptide 1 Conformation in HIV-1 Capsid Protein Assemblies

Han

et al. 2013

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A key stage in HIV-1 maturation towards an infectious virion requires sequential proteolytic cleavage of the Gag polyprotein leading to the formation of a conical capsid core that encloses the viral RNA genome and a small complement of proteins. The final step of this process involves severing the SP1 peptide from the CA-SP1 maturation intermediate, which triggers the condensation of the CA protein into the capsid shell. The details of the overall mechanism, including the conformation of the SP1 peptide in CA-SP1, are still under intense debate. In this report, we examine tubular assemblies of CA and the CA-SP1 maturation intermediates using Magic Angle Spinning NMR spectroscopy. At magnetic fields of 19.9 T and above, outstanding-quality 2D and 3D MAS NMR spectra were obtained for tubular CA and CA-SP1 assemblies yield, permitting resonance assignments for subsequent detailed structural characterization. Dipolar- and scalar-based correlation experiments unequivocally indicate that SP1 peptide is in a random coil conformation and mobile in the assembled CA-SP1. Analysis of two CA protein sequence variants reveals that, unexpectedly, the conformations of the SP1 tail, the functionally important CypA loop, and the loop preceding helix 8 are modulated by residue variations at distal sites. These findings provide support for the role of SP1 as a trigger of the disassembly of the immature CA capsid for its subsequent de novo reassembly into mature cores, and establish the importance of sequence-dependent conformational plasticity in CA assembly.

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A Common Intermediate for N₂ Formation in Enzymes and Zeolites: Side‐On Cu–Nitrosyl Complexes

et al. 2013

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Andrew S. Lipton

Structured Regions of α-Synuclein Fibrils Include the Early-Onset Parkinson's Disease Mutation Sites

Magic Angle Spinning NMR Reveals Sequence-Dependent Structural Plasticity, Dynamics, and the Spacer Peptide 1 Conformation in HIV-1 Capsid Protein Assemblies

A Common Intermediate for N₂ Formation in Enzymes and Zeolites: Side‐On Cu–Nitrosyl Complexes

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Andrew S. Lipton

Structured Regions of α-Synuclein Fibrils Include the Early-Onset Parkinson's Disease Mutation Sites

Magic Angle Spinning NMR Reveals Sequence-Dependent Structural Plasticity, Dynamics, and the Spacer Peptide 1 Conformation in HIV-1 Capsid Protein Assemblies

A Common Intermediate for N2 Formation in Enzymes and Zeolites: Side‐On Cu–Nitrosyl Complexes

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A Common Intermediate for N₂ Formation in Enzymes and Zeolites: Side‐On Cu–Nitrosyl Complexes