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Comparison genomics regarding Steinernema unveils profoundly maintained gene regulatory sites.
By maintaining intact multi-protein complexes in the gas-phase, native mass spectrometry provides their molecular weight with very good accuracy compared to other methods (typically native PAGE or SEC-MALS) (Marcoux and Robinson, Structure 211541-1550, 2013). Besides, heterogeneous samples, in terms of both oligomeric states and ligand-bound species can be fully characterized. Here we thoroughly describe the analysis of several oligomeric protein complexes ranging from a 16 = kDa dimer to a 801-kDa tetradecameric complex on different instrumental setups.Sedimentation velocity analytical ultracentrifugation is a powerful and versatile tool for the characterization of proteins and macromolecular complexes in solution. click here The direct modeling of the sedimentation process using modern computational strategies allows among others to assess the homogeneity/heterogeneity state of protein samples and to characterize protein associations. In this chapter, we will provide theoretical backgrounds and protocols to analyze the size distribution of protein samples and to determine the affinity of protein-protein hetero-associations.The switchSENSE technology is a recent approach based on surface sensor chips for the analysis of interactions of macromolecules. The technology relies on electro-switchable DNA nanolevers tethered at one end on a gold surface via a sulfur linker and labeled with a Cy3 dye on the other end. The switchSENSE approach is effective in the determination of a large panel of biophysical parameters such as binding kinetics, dissociation constant, hydrodynamic radius, or melting temperature. In addition, it can also give access to some enzymatic data such as nuclease or polymerase activity. Here we describe a DNA polymerase assay that allows retrieving, in a single experimental set, association and dissociation rates, as well as the catalytic rate of the enzyme.Interactions between protein complexes and DNA are central regulators of the cell life. They control the activation and inactivation of a large set of nuclear processes including transcription, replication, recombination, repair, and chromosome structures. In the literature, protein-DNA interactions are characterized by highly complementary approaches including large-scale studies and analyses in cells. Biophysical approaches with purified materials help to evaluate if these interactions are direct or not. They provide quantitative information on the strength and specificity of the interactions between proteins or protein complexes and their DNA substrates. Isothermal titration calorimetry (ITC) and microscale thermophoresis (MST) are widely used and are complementary methods to characterize nucleo-protein complexes and quantitatively measure protein-DNA interactions. We present here protocols to analyze the interactions between a DNA repair complex, Ku70-Ku80 (Ku) (154 kDa), and DNA substrates. ITC is a label-free method performed with both partners in solution. It serves to determine the dissociation constant (Kd), the enthalpy (ΔH), and the stoichiometry N of an interaction. MST is used to measure the Kd between the protein or the DNA labeled with a fluorescent probe. We report the data obtained on Ku-DNA interactions with ITC and MST and discuss advantages and drawbacks of both the methods.Artificial binding proteins have been validated as alternatives to antibodies in their use as research reagents in molecular and cellular biology. For example, they have been used as inhibitors of protein-protein interactions to modulate activity, to facilitate crystallization, and as probes for cellular imaging.Phage display is a widely used approach for isolating target-specific binding reagents, and it has even been used to isolate isoform-specific binding proteins and binders that can distinguish between highly homologous protein domains.Here, we describe methods that have been employed in isolating highly specific artificial binding proteins against a wide range of target proteins.Fv and Fab antibody fragments are versatile co-crystallization partners that aid in the structural determination of otherwise "uncrystallizable" proteins, including human/mammalian membrane proteins. Accessible methods for the rapid and reliable production of recombinant antibody fragments have been long sought. In this chapter, we describe the concept and protocols of the intervening removable affinity tag (iRAT) system for the efficient production of Fv and Fab fragments in milligram quantities, which are sufficient for structural studies. As an extension of the iRAT system, we also provide a new method for the creation of genetically encoded fluorescent Fab fragments, which are potentially useful as molecular devices in various basic biomedical and clinical procedures, such as immunofluorescence cytometry, bioimaging, and immunodiagnosis.Mammalian cells are the most commonly used production system for therapeutic antibodies. Protocols for the expression of recombinant antibodies in HEK293-6E cells in different antibody formats are described in detail. As model, antibodies against Kallikrein-related peptidase 7 (KLK7) were used. KLK7 is a key player in skin homeostasis and represents an emerging target for pharmacological interventions. Potent inhibitors can not only help to elucidate physiological and pathophysiological functions but also serve as a new archetype for the treatment of inflammatory skin disorders. Phage display-derived affinity-matured human anti-KLK7 antibodies were converted to scFv-Fc, IgG, and Fab formats and transiently produced in the mammalian HEK293-6E system. For the production of the corresponding antigen-KLK7-the baculovirus expression vector system (BEVS) and virus-free expression in Hi5 insect cells were used in a comparative approach. The target proteins were isolated by various chromatographic methods in a one- or multistep purification strategy. Ultimately, the interaction between anti-KLK7 and KLK7 was characterized using biolayer interferometry. Here, protocols for the expression of recombinant antibodies in different formats are presented and compared for their specific features. Furthermore, biolayer interferometry (BLI), a fast and high-throughput biophysical analytical technique to evaluate the kinetic binding constant and affinity constant of the different anti-KLK7 antibody formats against Kallikrein-related peptidase 7 is presented.
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