Geoffrey W. Platt scite author profile

Molecular recognition reagents are key tools for understanding biological processes and are used universally by scientists to study protein expression, localisation and interactions. Antibodies remain the most widely used of such reagents and many show excellent performance, although some are poorly characterised or have stability or batch variability issues, supporting the use of alternative binding proteins as complementary reagents for many applications. Here we report on the use of Affimer proteins as research reagents. We selected 12 diverse molecular targets for Affimer selection to exemplify their use in common molecular and cellular applications including the (a) selection against various target molecules; (b) modulation of protein function in vitro and in vivo; (c) labelling of tumour antigens in mouse models; and (d) use in affinity fluorescence and super-resolution microscopy. This work shows that Affimer proteins, as is the case for other alternative binding scaffolds, represent complementary affinity reagents to antibodies for various molecular and cell biology applications.DOI: http://dx.doi.org/10.7554/eLife.24903.001

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Fibril Growth Kinetics Reveal a Region of β2-microglobulin Important for Nucleation and Elongation of Aggregation

Platt

Routledge

Homans

et al. 2008

Journal of Molecular Biology

126

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Amyloid is a highly ordered form of aggregate comprising long, straight and unbranched proteinaceous fibrils that are formed with characteristic nucleation-dependent kinetics in vitro. Currently, the structural molecular mechanism of fibril nucleation and elongation is poorly understood. Here, we investigate the role of the sequence and structure of the initial monomeric precursor in determining the rates of nucleation and elongation of human β2-microglobulin (β2m). We describe the kinetics of seeded and spontaneous (unseeded) fibril growth of wild-type β2m and 12 variants at pH 2.5, targeting specifically an aromatic-rich region of the polypeptide chain (residues 62–70) that has been predicted to be highly amyloidogenic. The results reveal the importance of aromatic residues in this part of the β2m sequence in fibril formation under the conditions explored and show that this region of the polypeptide chain is involved in both the nucleation and the elongation phases of fibril formation. Structural analysis of the conformational properties of the unfolded monomer for each variant using NMR relaxation methods revealed that all variants contain significant non-random structure involving two hydrophobic clusters comprising regions 29–51 and 58–79, the extent of which is critically dependent on the sequence. No direct correlation was observed, however, between the extent of non-random structure in the unfolded state and the rates of fibril nucleation and elongation, suggesting that the early stages of aggregation involve significant conformational changes from the initial unfolded state. Together, the data suggest a model for β2m amyloid formation in which structurally specific interactions involving the highly hydrophobic and aromatic-rich region comprising residues 62–70 provide a complementary interface that is key to the generation of amyloid fibrils for this protein at acidic pH.

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Dynamics in the Unfolded State of β2-microglobulin Studied by NMR

Platt

McParland

Kalverda

et al. 2005

Journal of Molecular Biology

117

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Magic Angle Spinning NMR Analysis of β₂-Microglobulin Amyloid Fibrils in Two Distinct Morphologies

et al. 2010

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Abstractβ 2 -Microglobulin (β 2 m) is the major structural component of amyloid fibrils deposited in a condition known as dialysis-related amyloidosis. Despite numerous studies that have elucidated important aspects of the fibril formation process in vitro, and a magic angle spinning (MAS) NMR study of the fibrils formed by a small peptide fragment, structural details of β 2 m fibrils formed by the full-length 99-residue protein are largely unknown. Here, we present a site-specific MAS NMR analysis of fibrils formed by the full-length β 2 m protein, and compare spectra of fibrils prepared under two different conditions. Specifically, long straight (LS) fibrils are formed at pH 2.5, while a very different morphology denoted as worm-like (WL) fibrils is observed in preparations at pH 3.6. High-resolution MAS NMR spectra have allowed us to obtain 13 C and 15 N resonance assignments for 64 residues of β 2 m in LS fibrils, including part of the highly mobile Nterminus. Approximately 25 residues did not yield observable signals. Chemical shift analysis of the sequentially assigned residues indicates that these fibrils contain an extensive β-sheet core organized in a non-native manner, with a trans-P32 conformation. In contrast, WL fibrils exhibit more extensive dynamics and appear to have a smaller β-sheet core than LS fibrils, although both cores seem to share some common elements. Our results suggest that the distinct macroscopic morphological features observed for the two types of fibrils result from variations in structure and dynamics at the molecular level.

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Geoffrey W. Platt

Affimer proteins are versatile and renewable affinity reagents

Fibril Growth Kinetics Reveal a Region of β2-microglobulin Important for Nucleation and Elongation of Aggregation

Dynamics in the Unfolded State of β2-microglobulin Studied by NMR

Magic Angle Spinning NMR Analysis of β₂-Microglobulin Amyloid Fibrils in Two Distinct Morphologies

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About

Geoffrey W. Platt

Affimer proteins are versatile and renewable affinity reagents

Fibril Growth Kinetics Reveal a Region of β2-microglobulin Important for Nucleation and Elongation of Aggregation

Dynamics in the Unfolded State of β2-microglobulin Studied by NMR

Magic Angle Spinning NMR Analysis of β2-Microglobulin Amyloid Fibrils in Two Distinct Morphologies

Contact Info

Product

Resources

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Magic Angle Spinning NMR Analysis of β₂-Microglobulin Amyloid Fibrils in Two Distinct Morphologies