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One of the important questions in the serpin mechanism of inhibition of serine and cysteine proteinases of different specificities and structural classes is whether a common ''crushing'' mechanism of proteinase inactivation is used in all cases. This mechanism was seen in an X-ray structure of the complex between α 1 -proteinase inhibitor and trypsin and required the full insertion of the...
An allosteric ribozyme is an RNA-based enzyme (ribozyme) whose catalytic activity is modulated by molecular recognition of a protein. The direct coupling of a detectable catalytic event to molecular recognition by an allosteric ribozyme enables simple assays for quantitative protein detection. Most significantly, the mode of development and molecular recognition characteristics of allosteric ribozymes...
GFP-based fluorescence resonance energy transfer (FRET) probes that visualize local activity-changes of Ras and Rho GTPases in living cells are now available for examining the spatio-temporal regulation of these proteins. This article describes principles and strategies to develop intramolecular FRET probes for Ras- and Rho-family GTPases. The procedure for characterizing candidate probes, and image...
Ras GTPases regulate cellular growth and differentiation and are modulated by myriad stimuli including growth factors, cytokines, antigens, and UV irradiation. Ras GTPases are molecular switches that are active when GTP-bound and inactive when GDP-bound. The ability of these GTPases to signal requires that the GTP-bound form engage downstream effectors, interactions that occur only on the cytosolic...
Genetically encoded reporters based on fluorescence resonance energy transfer (FRET) are being developed for analyzing spatiotemporal dynamics of kinase activities in living cells, as the activities of this class of enzymes are often dynamically regulated and spatially compartmentalized within specific signaling context. Here we describe a general modular design and engineering strategies for the...
Gene expression in eukaryotes is largely controlled at the level of transcriptional initiation by gene-specific activators. Transcriptional activators stimulate the assembly of general transcription factors on the promoter to form a preinitiation complex (PIC). Such a stimulated assembly of PIC is believed to result from a direct interaction between the activator and one or more components of the...
DNA packaging into chromatin imposes several levels of regulation on the central nuclear processes of DNA replication, recombination, repair and transcription. ATP-dependent chromatin-remodeling enzymes play a critical role in this regulation by altering the accessibility of nucleosomal DNA. Remodeling can result in large-scale changes in chromatin, such as the formation of heterochromatin, or smaller...
Macromolecular assemblies and machines undergo large-scale conformational changes as essential features of their normal function. Modern stopped-flow instrumentation and biotechnology combine to provide a powerful tool for characterizing the rates and natures of these conformational changes. Standard commercially available instruments provide extraordinary sensitivity and speed, allowing analysis...
The telomeric G-rich single-stranded DNA can adopt in vitro an intramolecular quadruplex structure, which has been shown to directly inhibit telomerase activity. The reactivation of this enzyme in immortalized and most cancer cells suggests that telomeres and telomerase are relevant targets in oncology, and telomere ligands and telomerase inhibitors have been proposed as new potential anticancer agents...
Genetically encoded calcium indicators (GECIs) allow researchers to measure calcium dynamics in specific targeted locations within living cells. Such indicators enable dissection of the spatial and temporal control of calcium signaling processes. Here we review recent progress in the development of GECIs, highlighting which indicators are most appropriate for measuring calcium in specific organelles...
Single-molecule fluorescence resonance energy transfer (smFRET) microscopy has become an increasingly popular tool to study the structural dynamics of RNA molecules. It reveals, in real time, the structural dynamics of these molecules that would be otherwise hidden in ensemble-averaged measurements. Here we present a detailed protocol for performing smFRET using total internal reflection fluorescence...
The application of FRET-based molecular biosensors provided confirmation of the central model of Ran GTPase function and led to important new insights into its physiological role. In many fields of cell biology, methods employing FRET are a standard approach that is becoming increasingly accessible due to advances in instrumentation and available fluorophores. However, the optimal design of a FRET...
Lanthanide ions such as Tb 3+ and Eu 3+ have long been used to probe RNA and protein structures due to their luminescence properties and their steric and chemical similarities to biological metal ions such as Mg 2+ and Ca 2+ . In this article, we introduce a method that utilizes the enhanced Tb 3+ luminescence upon site-binding to RNA molecules as a FRET donor...
Single-molecule fluorescence spectroscopy reveals the real time dynamics that occur during biomolecular interactions that would otherwise be hidden by the ensemble average. It also removes the requirement to synchronize reactions, thus providing a very intuitive approach to study kinetics of biological systems. Surface immobilization is commonly used to increase observation times to the minute time...
Understanding of the molecular mechanisms of protein–protein interactions (PPIs) at the cell surface of living cells is fundamental to comprehend the functional meaning of a large number of cellular processes. Here we discuss how new methodological strategies derived from non-invasive fluorescence-based approaches (i.e. fluorescence resonance energy transfer, FRET) have been successfully developed...
Energy transfer mechanisms represent the basis for an array of valuable tools to infer interactions in vitro and in vivo, enhance detection or resolve interspecies distances such as with resonance. Based upon our own previously published studies and new results shown here we present a novel framework describing for the first time a model giving a view of the biophysical relationship between Fluorescence...
Mechanical force modulates myriad cellular functions including migration, alignment, proliferation, and gene transcription. Mechanotransduction, the transmission of mechanical forces and its translation into biochemical signals, may be mediated by force induced protein conformation changes, subsequently modulating protein signaling. For the paxillin and focal adhesion kinase interaction, we demonstrate...
Translocation of proteins to different parts of the cell is necessary for many cellular mechanisms as a means for regulation and a variety of other functions. Identifying how these proteins undergo conformational changes or interact with various partners during these events is critical to understanding how these mechanisms are executed. A protocol is presented that identifies conformational changes...
The function of RNA switches involved in the regulation of transcription and translation relies on their ability to adopt different, structurally well-defined states. A new class of ligand-responsive RNA switches, which we recently discovered in positive strand RNA viruses, are distinct from conventional riboswitches. The viral switches undergo large conformational changes in response to ligand binding...
The challenge of determining the architecture and geometry of oligomers of the epidermal growth factor receptor (EGFR) on the cell surface has been approached using a variety of biochemical and biophysical methods. This review is intended to provide a narrative of how key concepts in the field of EGFR research have evolved over the years, from the origins of the prevalent EGFR signalling dimer hypothesis...
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