Skip to Content
Merck
HomeProductsCell Culture & AnalysisCell AnalysisCell Organelle Isolation Kits

Cell Organelle Isolation Kits

Slide 1 of 6
F-actin is visible in the cells as long straight lines that cover the cells. These lines cover the entire image as the cells cover the image.

TRITC-conjugated F-actin in ProteoExtract Cytoskeleton Enrichment and Staining Kit-treated cells.

Small dots cover the surface of the cells, so no dot is completely visible. The cells cover the top of the image and expands into the bottom middle of the image.

Focal point contacts visualized using Vinculin antibody and FITC-conjugated secondary antibody in non-ProteoExtract Cytoskeleton Enrichment and Staining Kit-treated cells.

Small dots cover the surface of the cells so no dot is completely visible. F-actin is visible in cells as long straight lines that cover the cell. The nucleus is visible as an oval in the middle of each of the cells. These cells cover the top of the image and extend into the bottom middle of the image.

F-actin, focal point contacts, and the nucleus is visualized and overlaid in non-ProteoExtract Cytoskeleton Enrichment and Staining Kit-treated cells.

F-actin is visible in the cells as long straight lines that cover the cells. These lines cover the top of the image and expand into the bottom middle of the image.

TRITC-conjugated F-actin in non-ProteoExtract Cytoskeleton Enrichment and Staining Kit-treated cells.

Small dots cover the surface of the cells, and each dot is visible from another. The cells cover the entirety of the image.

Focal point contacts visualized using Vinculin antibody and FITC-conjugated secondary antibody in ProteoExtract Cytoskeleton Enrichment and Staining Kit-treated cells.

Small dots cover the surface of the cells, and each dot is visible from another. F-actin is visible in the cells as long straight lines that cover the cells. The nucleus is visible as an oval in the middle of each of the cells. These cells cover the entirety of the image.

F-actin, focal point contacts, and the nucleus is visualized and overlaid in ProteoExtract Cytoskeleton Enrichment and Staining Kit-treated cells.

Although the study of cells derived from in vivo tissues is most predictive of cellular biology and function, biological complexity can confound results unless target cell populations are isolated. In order to study cell phenotypes, diverse methods have evolved for isolating cell populations based on definitive characteristics. Isolating cell populations not only aids biological research, but also facilitates clinical diagnostic testing. The most effective isolation methods demonstrate enhanced yield, purity, and viability. Enrichment or purification of target populations can be achieved by positive selection─often employing antibodies that bind cell-specific markers─or by negative selection that may use biophysical properties to deplete unwanted cells in order to enrich for the target population.    

Fractionation of cells into their subcellular components has long been fundamental to cell biology studies. Subcellular fractionation techniques have been widely used to study structure and function of organelles and subcellular compartments, as well as to understand the location, processing, and trafficking of biomolecules. The goal of most fractionation techniques is to obtain organelles and cellular macromolecules in a functional state, where they retain their intrinsic biochemical properties. This is often achieved by cell lysis employing gentle mechanical means or with mild detergents, frequently followed by fractionation of cellular components by differential centrifugation. 

Products

fractionation (5)

centrifugation (3)

ELISA (1)

flow cytometry (1)

protein staining (1)

western blot (1)

Sigma-Aldrich (10)
Sort by Relevance
Showing 1-10 of 10
Change View
Showing 1-10 of 10
Nuclei Isolation Kit: Nuclei EZ Prep
NUC101

Nuclei Isolation Kit: Nuclei EZ Prep

sufficient for 25 nuclei preparations (~1-10×107 cells/preparation)

Nuclei Isolation Kit: Nuclei PURE Prep
NUC201

Nuclei Isolation Kit: Nuclei PURE Prep

sufficient for 15 nuclei preparations (~1-10×107 cells or 1g of tissue per preparation)

Mitochondria Isolation Kit
MITOISO2

Mitochondria Isolation Kit

sufficient for 50 applications (2-5 x 107 cells), isolation of enriched mitochondrial fraction from cells

Mitochondria Isolation Kit
MITOISO1

Mitochondria Isolation Kit

sufficient for 10-20 g (animal tissue), sufficient for 50 assays (2 mL), isolation of enriched mitochondrial fraction from animal tissues

Endoplasmic Reticulum Isolation Kit
ER0100

Endoplasmic Reticulum Isolation Kit

isolation of intact ER from mammalian soft tissues and cultured cells

Lysosome Isolation Kit
LYSISO1

Lysosome Isolation Kit

sufficient for 25 g (tissue), sufficient for 20 mL (packed cells), enrichment of lysosomes from tissues and packed cells

Chloroplast Isolation Kit
CPISO

Chloroplast Isolation Kit

isolation of intact chloroplasts from leaves

Peroxisome Isolation Kit
PEROX1

Peroxisome Isolation Kit

isolate peroxisomes from tissues and cells

Isolated Mitochondria Staining Kit
CS0760

Isolated Mitochondria Staining Kit

1 kit sufficient for 50 reactions (in a 2 mL cuvette), 1 kit sufficient for 1000 reactions (using 96 multiwell plates)

Golgi Isolation Kit
GL0010

Golgi Isolation Kit

sufficient for 50 g (tissue)

You have viewed 1-10 of 10 results
Page 1 of 1
Page 1 of 1
Cells are filled with circles of various sizes indicating lipid droplets. The visible lipid droplets and cells span the foreground of the image.

Visible lipid droplets confirm the isolation of preadipocytes 7 days after differentiation using 3T3-L1 Differentiation Kit.

Organelles and Subcellular Complexes Isolation Kits

Derivation of subcellular components promotes understanding of organelle function and can lead to new biotechnologies. For example, nuclei isolated from mammalian cells can subsequently be used for the synthesis of endogenous RNA primary transcripts. The high-yield Nuclei EZ Prep Kit (NUC101, NUC201) was developed for the rapid isolation of nuclei from most mammalian cells.

For the detection of mitochondrial integrity and membrane potential, our mitochondrial staining kit (CS0390, CS0760) uses the JC-1 dye (420200, T4069), which concentrates in the mitochondrial matrix to form red fluorescent aggregates. Events like apoptosis that dissipate the mitochondrial membrane potential prevent the accumulation of JC-1 dye in the mitochondria, and a fluorescence microscope can then be used to distinguish viable from compromised mitochondria.

Non-organelle subcellular complexes like proteasomes can also be isolated for use in proteolytic assays. Our method uses affinity matrix beads containing a GST-fusion protein with a ubiquitin-like domain bound to GST-agarose. 

Related Product Categories
Mammalian Cell Lines
Cell lines from human and other mammalian species are essential for modeling disease and biological systems, and are critical tools for protein, antibody, virus, and vaccine production. We offer authenticated, contaminant-free cell lines, many in partnership with ECACC.
Primary Cell Culture
Discover our collection of validated human primary cells from PromoCell® human primary cells, primary blood and immune cells from BioIVT, and more.
Stem Cells
ES and iPS cell-qualified products offer reliable culture solutions for stem cell researchers, including media and differentiation tools.
Classical Media & Buffers
Choose from a range of optimized cell culture media formulations, including DMEM, RPMI-1640, and serum-free options for diverse cellular needs.
MultiScreen® Filter Plates
Enhance your high-throughput screening capabilities using MultiScreen® filtration plates, ideal for ELISpot, ligand binding, and more.
Millicell® Cell Culture Inserts & Plates
Enhance cell culture with Millicell® inserts, plates, chamber slides, flasks. Achieve biologically relevant growth, choose hanging or standing inserts.
Laboratory Centrifugation
Benchtop centrifuges, microfuges, and accessories for spinning tubes, bottles, plates, slides, and PCR strips.
Related Applications
Primary Cell Culture Techniques
Cultivate mammalian primary cells for ADME/Tox screening, maintaining physiological relevance for accurate results.
Stem Cell Culture
An overview of different stem cell types, stem cell culture basics and stem cell applications in basic research and clinical research applications, such as tissue regeneration, genetic diseases and cancer.
Live Cell Imaging Analysis
Live cell imaging tools enable analysis in cell trafficking, gene expression, migration, 3D culture, and cytoskeletal dynamics.
Western Blotting
An overview of the principles and applications of Western blotting for protein detection. Includes links to detailed protocols, videos, and other resources for protein extraction, gel electrophoresis, transfer to PVDF or nitrocellulose membranes, and chemiluminescent, colorimetric, and fluorescent detection methods.
Mammalian Cell Culture
Applications, principles, and methods for in vitro mammalian cell culture including links to articles, protocols, and videos for proper aseptic technique, passaging and subculturing, and culture media considerations.
Immunohistochemistry
Immunohistochemistry (IHC) is a common immunostaining technique that is used by researchers to identify specific antigens of interest in healthy and diseased tissues.
Cell-Based Assays
Cellular assays, or cell-based assays, are essential tools for measuring cell health, viability, proliferation, migration, invasion, chemotaxis, apoptosis, angiogenesis, oxidative stress, cell signaling and live cell analysis.
Protein Purification
Protein purification techniques, reagents, and protocols for purifying recombinant proteins using methods including, ion-exchange, size-exclusion, and protein affinity chromatography.
Sign In To Continue

To continue reading please sign in or create an account.

Don't Have An Account?