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Over the past decade, the ''protein engineering method'' has been used to investigate the folding pathways of more than 20 different proteins. This method involves measuring the folding and unfolding rates of mutant proteins with single amino acid substitutions spread across the sequence. Comparison of folding rates of the mutant proteins to that of the wild-type protein allows the calculation of...
Partially folded and denatured proteins can give important insights into protein folding, misfolding, and aggregation. Such non-native states of proteins are however very difficult to characterise in detail as they are dynamic, heterogeneous systems comprising of ensembles of interconverting conformers. This article describes methods that produce models for non-native proteins in atomic detail. A...
The measurement of amino acid-resolved hydrogen exchange (HX) has provided the most detailed information so far available on the structure and properties of protein folding intermediates. Direct HX measurements can define the structure of tenuous molten globule forms that are generally inaccessible to the usual crystallographic and NMR methods (C. Redfield review in this issue). HX pulse labeling...
Amyloid fibrils are ordered aggregates of peptides or proteins that are fibrillar in structure and contribute to the complications of many diseases (e.g., type 2 diabetes mellitus, Alzheimer's disease, and primary systemic amyloidosis). These fibrils can also be prepared in vitro and there are three criteria that define a protein aggregate as an amyloid fibril: green birefringence upon staining with...
Stopped-flow mixing coupled with time-resolved Fourier transform infrared (FT-IR) spectroscopy represents a new experimental approach to explore protein folding events, which has become possible only recently with the development of appropriate techniques. Here, we discuss experimental apparatus that are capable of initiating and monitoring protein folding processes on the millisecond to minute timescale...
All atom molecular dynamics simulations have become a standard method for mapping equilibrium protein dynamics and non-equilibrium events like folding and unfolding. Here, we present detailed methods for performing such simulations. Generic protocols for minimization, solvation, simulation, and analysis derived from previous studies are also presented. As a measure of validation, our water model is...
Newly synthesised proteins need to fold, often to intricate and close-packed structures, in order to function. The underlying mechanism by which this complex process takes place both in vitro and in vivo is now becoming understood, at least in general terms, as a result of the application of a wide range of biophysical and computational methods used in combination with the techniques of biochemistry...
Nuclear magnetic resonance (NMR) spectroscopy is a powerful technique for the study of the structure, dynamics, and folding of proteins in solution. It is particularly powerful when applied to dynamic or flexible systems, such as partially folded molten globule states of proteins, which are not usually amenable to X-ray crystallography. In this article, NMR methods suitable for the detailed characterisation...
It is clear that merely knowing the structure of a protein alone is not sufficient to fully understand its behavior: knowledge also of the dynamic events that occur within proteins is vital to elucidate their function and folding. In recent years, mass spectrometry has come to the forefront as a powerful biophysical method, which can shed light both on the structure and dynamics of proteins. Hydrogen...
Chemically induced dynamic nuclear polarization (CIDNP) is a nuclear magnetic resonance phenomenon that can be used to probe the solvent-accessibility of tryptophan, tyrosine, and histidine residues in proteins by means of laser-induced photochemical reactions, resulting in significant enhancement of NMR signals. CIDNP offers good sensitivity as a surface probe of protein structure and is particularly...
Information on the time-dependence of molecular species is critical for elucidating reaction mechanisms in chemistry and biology. Rapid flow experiments involving turbulent mixing of two or more solutions continue to be the main source of kinetic information on protein folding and other biochemical processes, such as ligand binding and enzymatic reactions. Recent advances in mixer design and detection...
Real-time NMR spectroscopy developed to a generally applicable method to follow protein folding reactions. It combines the access to high resolution data with kinetic experiments allowing very detailed insights into the development of the protein structure during different steps of folding. The present review concentrates mainly on the progress of real-time NMR during the last 5 years. Starting from...
Mechanical unfolding of proteins using atomic force microscopy is becoming a routine biophysical technique. Mechanistic investigations in this rapidly evolving field are beginning to resolve the factors that contribute to the behaviour of biological macromolecules under force. Here we describe the force-mode apparatus, the experimental set-up, tractable systems of study, and the analysis of the resultant...
Extensive structural studies using high-pressure NMR spectroscopy have recently been carried out on proteins, which potentially contribute to our understanding of the mechanisms of protein folding. Pressure shifts the conformational equilibrium from higher to lower volume conformers. If the pressure is varied, starting from the folded native structure, in many cases we observe intermediate conformers...
The ability of intracellular antibodies (intrabodies) to block the function of a target protein can be dependent on the stability of the single-chain antibody (sFv) when expressed in the intracellular environment. Low-affinity sFvs capable of reaching high steady-state levels can be more effective modulators of target proteins than high-affinity, unstable sFvs. In an effort to enhance the intracellular...
In the past decade, a large number of intracellular antibodies (intrabodies) have been developed for potential use as therapeutic agents. As antibodies can be generated against virtually any target antigen, the applications of intrabodies span a wide range including tumour therapy, infectious diseases, transplantation, and other diseases associated with protein overexpression or mutagenesis. This...
Several approaches have been developed over the past decade to study the complex interactions that occur in biological system. The ability to carry out a comprehensive genetic analysis of an organism becomes more limited and difficult as the complexity of the organism increases because complex organisms are likely to have not only more genes than simple organisms but also more elaborate networks of...
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