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Membrane proteins comprise approximately 30% of the eukaryotic proteome and are a key target in drug discovery research. However, they are difficult to isolate because of their hydrophobicity, basic nature, and large size.
Certain detergents can be used to selectively extract and isolate membrane (hydrophobic) proteins from cytosolic (hydrophilic) proteins. For example, solutions of Triton X-114 are homogeneous at 0°C (form a clear micellar solution) but separate into aqueous and detergent phases above 20°C (the cloud point) as micellar aggregates form and the solution turns turbid. With increased temperature, phase separation proceeds until two clear phases form. Proteins partition according to their hydrophilic and hydrophobic features. Membrane proteins are enriched in the hydrophobic fraction.
Thermo Scientific Mem-PER Plus Membrane Protein Extraction Kit enriches for integral membrane proteins and membrane-associated proteins from cultured mammalian cells or tissue via selective solubilization using a mild detergent-based protocol. The use of selective detergent extraction eliminates the hassle of phase separation based on hydrophobicity, allowing better reproducibility and higher throughput. The cells are first permeabilized with a mild detergent, allowing the release of soluble cytosolic proteins, after which a second detergent solubilizes membrane proteins.
Isolation and enrichment of membrane proteins from different tissues. Membrane proteins were isolated from frozen mouse heart or brain (30 mg) following the Mem-PER Plus Membrane Protein Extraction Kit protocol. Membrane and cytosolic fractions (10 μg) were separated by SDS-PAGE and transferred to a nitrocellulose membrane. Western blots were done using the Thermo Scientific Pierce Fast Western Rabbit Dura Kit (Cat. No. 35071) and primary antibodies diluted 1:1,000. Images were generated using the Thermo Scientific myECL Imager.
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The preparation of good nuclear protein extracts is central to the success of many gene regulation studies. Nuclear extracts are used instead of whole cell lysates for several reasons. First, many experiments in the area of gene regulation are adversely affected by cellular components present in whole cell lysates. Second, the concentration of the nuclear protein of interest is diluted by the vast array of cytoplasmic proteins present in whole cell extracts. Finally, whole cell lysates are complicated by the presence of genomic DNA and mRNA. A variety of methods exist to isolate nuclei and prepare nuclear protein extracts. However, most of these are lengthy processes requiring mechanical homogenization, freeze/thaw cycles, extensive centrifugation or dialysis steps that may compromise the integrity of many fragile nuclear proteins.
Thermo Scientific NE-PER Nuclear and Cytoplasmic Extraction Reagent kit enables stepwise lysis of cells that generates both functional cytoplasmic and nuclear protein fractions in less than two hours. Cultured mammalian cells or tissues are processed by first disrupting the outer cell membrane to obtain the cytoplasmic contents and then extracting proteins from the nuclei. Cross-contamination between the two fractions is minimal (<10%). With this stepwise fractionation procedure, one can obtain concentrated nuclear extracts without compromising gene regulation experiments, as is commonly seen when whole cell lysates are analyzed. Prepared extracts are compatible with many downstream applications, including electrophoretic mobility shift assays (EMSA) with nuclear extracts, reporter assays with cytosolic extracts, western blots, enzyme assays, and the Thermo Scientific Pierce BCA Protein Assay.
Chemiluminescent EMSA of four different DNA-protein complexes. DNA-binding reactions were performed using 20 fmol biotin-labeled DNA duplex (1 biotin per strand) and 2 µL (6.8 µg total protein) NE-PER nuclear extract prepared from HeLa cells. For reactions containing specific competitor DNA, a 200-fold molar excess of unlabeled specific duplex was used.
Thermo Scientific Subcellular Protein Fractionation Kit enables stepwise separation and extraction of cytoplasmic, membrane, nuclear-soluble, chromatin-bound and cytoskeletal proteins from mammalian cultured cells or tissue. Extracts obtained with the Subcellular Protein Fractionation Kit are compatible with a variety of downstream applications, including western blotting, protein assays, electrophoretic mobility shift assays and reporter-gene and enzyme-activity assays.
Schematic of subcellular fractionation using a commercially available kit. At each step, the supernatant contains the respective subcellular fraction, and the pellet can be used for the subsequent step. The first reagent added to a pellet of cultured cells is buffer A, which causes selective permeabilization of the cell membrane, thereby releasing soluble cytoplasmic contents. The second reagent, or buffer B, dissolves plasma, mitochondria, and endoplasmic reticulum-Golgi membranes, but does not solubilize the nuclear membranes. The intact nuclei are then retrieved by centrifugation, and a third nuclear extraction, buffer C, then yields the soluble nuclear extract. Micrococcal nuclease (MNase) can be added to buffer C in an additional step if chromatin-bound nuclear proteins are to be extracted. The recovered insoluble pellet is then extracted with the pellet extraction buffer D, which isolates the cytoskeletal proteins.
Fractionation of subcellular proteins enables protein localization assessment and protein enrichment from specific cellular compartments. The Subcellular Protein Fractionation Kit includes a combination of reagents for stepwise lysis of cells into functional cytoplasmic, membrane, nuclear-soluble, chromatin-bound, and cytoskeletal protein fractions in less than three hours. Extracts from each subcellular compartment generally have less than 15% contamination between fractions, which is sufficient purity for most experiments studying protein localization and redistribution.
Continue reading: Subcellular protein fractionation to enhance proteomic coverage
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Isolation of intact mitochondria is typically a laborious process requiring single-sample processing with Dounce homogenization. Density gradient centrifugation approaches are also effective, but these are generally only practical for large-scale needs. When the goal is small-scale enrichment of mitochondria and/or extraction of mitochondrial proteins, a reagent-based microcentrifuge method is desirable.
Thermo Scientific Mitochondria Isolation Kit uses a non-mechanical, reagent-based method that allows multiple samples (up to six) to be processed concurrently. Cultured mammalian cell pellets are gently lysed using a proprietary formulation that results in maximum yield of mitochondria with minimal damage to integrity. Guidelines are given for optimizing purity vs. yield parameters. Also included are instructions for a Dounce homogenization procedure, which results in two-fold more mitochondria recovery compared to the reagent-based method. Both methods use differential centrifugation to separate the mitochondrial and cytosolic fractions with a benchtop microcentrifuge and are completed in approximately 40 minutes (post-cell harvest). Once isolated, the mitochondria can be used in downstream applications such as apoptosis, signal transduction and metabolic studies, as well as to facilitate mitochondrial proteomics efforts.
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