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This method was used to improve our understanding of the ordered assembly of the Saccharomyces cerevisiae spindle pole body (SPB), a ~1 giga-Dalton heteromeric protein complex formed from 18 structural components present in multiple copies. We propose that SRM-BiFC is a powerful tool for examination of direct interactions between protein complex subunits at sub-diffraction resolution in live cells.Non-covalent binding of cholesterol to the transmembrane region of proteins affect their functionalities, but methods to prove such an interaction are rare. We describe our protocol to label the hemagglutinin (HA) of Influenza virus with a cholesterol derivative in living cells or with immunoprecipitated protein. We synthesized a "clickable" photocholesterol compound, which closely mimics authentic cholesterol. It contains a reactive diazirine group that can be activated by UV-illumination to form a covalent bond with amino acids in its vicinity. Incorporation of photocholesterol into HA is then visualized by "clicking" it to a fluorophore, which can be detected in an SDS-gel by fluorescence scanning. This method provides a convenient and practical way to demonstrate cholesterol-binding to other proteins and probably to identify the binding site.Plasmodium knowlesi is a zoonotic malaria parasite in Southeast Asia that can cause severe and fatal malaria in humans. The main hosts are Macaques, but modern diagnostic tools reveal increasing numbers of human infections. After P. falciparum, P. knowlesi is the only other malaria parasite capable of being maintained in long term in vitro culture with human red blood cells (RBCs). Its closer ancestry to other non-falciparum human malaria parasites, more balanced AT-content, larger merozoites and higher transfection efficiencies, gives P. knowlesi some key advantages over P. falciparum for the study of malaria parasite cell/molecular biology. Here, we describe the generation of marker-free CRISPR gene-edited P. knowlesi parasites, the fast and scalable production of transfection constructs and analysis of transfection efficiencies. Our protocol allows rapid, reliable and unlimited rounds of genome editing in P. knowlesi requiring only a single recyclable selection marker.Chromatin immunoprecipitation is extensively used to investigate the epigenetic profile and transcription factor binding sites in the genome. However, when the starting material is limited, the conventional ChIP-Seq approach cannot be implemented. This protocol describes a method that can be used to generate the chromatin profiles from as low as 100 human or 1,000 Drosophila cells. The method employs tagmentation to fragment the chromatin with concomitant addition of sequencing adaptors. The method generates datasets with high signal to noise ratio and can be subjected to standard tools for ChIP-Seq analysis.Direct protein-protein interactions are known to regulate a wide range of cellular activities. To understand these contacts one can employ various experimental methods like Dynamic Light Scattering (DLS), Fluorescence Resonance Energy Transfer (FRET), Isothermal titration calorimetry (ITC), Chemical crosslinking, Co-immunoprecipitation (Co-IP), Surface Plasmon Resonance (SPR) and many more. learn more Among these, SPR stands out as a quick, label-free, reliable, and accurate quantitation technique. We have used SPR to elucidate the linkage between 14-3-3 Protein 3 (EhP3) and the actin cytoskeleton in the protist pathogen Entamoeba histolytica. It allowed us to screen EhP3 binding with several actin-binding/actin regulatory proteins (Coactosin, Actophorin, Twinfilin, Profilin, and Filamin). Our screening results suggested Coactosin as an important interacting partner of EhP3. A complete kinetic analysis indeed confirmed that EhCoactosin binds EhP3 with an affinity constant of 3 μM.Yeasts such as Aureobasidium pullulans are unicellular fungi that occur in all environments and play important roles in biotechnology, medicine, food and beverage production, research, and agriculture. In the latter, yeasts are explored as biocontrol agents for the control of plant pathogenic fungi (e.g., Botrytis cinerea, Fusarium sp.); mainly on flowers and fruits. Eventually, such yeasts must be evaluated under field conditions, but such trials require a lot of time and resources and are often difficult to control. Experimental systems of intermediate complexity, between in vitro Petri dish assays and field trials, are thus required. For pre- and post-harvest applications, competition assays on fruits are reproducible, economical and thus widely used. Here, we present a general protocol for competition assays with fruits that can be adapted depending on the biocontrol yeast, plant pathogen, type of assay or fruit to be studied.Development of methods for protein identification is one of the important aspects of proteomics. Here, we report a protocol for the preparation of compound conjugated beads by photo-crosslinking, affinity purification, gel electrophoresis, and highly sensitive mass spectrometric assay for drug-target identification. Although there are several other methods used for drug-target identification, such as biochemical fractionation or radioactive ligand binding assay, affinity purification is widely used for its straight-forward and easy approach. To identify the target protein of an inhibitor of cancer cell-accelerated fibroblast migration, we prepared the inhibitor-conjugated beads by photo-crosslinking. Proteins were pulled down from cell lysates by the compound beads and separated by SDS-PAGE, and a specifically pulled down protein was cut out, trypsin-digested, analyzed using matrix-assisted laser desorption ionization/time of flight mass spectrometry (MALDI-TOF-MS) and identified by peptide mass fingerprinting (PMF) method. Since the photo-crosslinking enables the immobilization of ligands on an affinity matrix in a functional group-independent manner, we do not have to determine the functional group of the compound to conjugate the matrix. In addition, as compared to other MS techniques such as electrospray ionization, MALDI offers a less complex sample preparation procedure and higher sensitivity, and thus is better suited for the rapid identification of proteins isolated by gel electrophoresis.

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