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GL0010

Sigma-Aldrich

Golgi Isolation Kit

sufficient for 50 g (tissue)

Synonym(s):

Golgi Kit, Isolation Kit for Golgi

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About This Item

UNSPSC Code:
12352200
NACRES:
NA.32

usage

sufficient for 50 g (tissue)

Quality Level

technique(s)

fractionation: suitable

shipped in

wet ice

storage temp.

2-8°C

General description

The Golgi Isolation Kit provides a method for isolating Golgi membranes from mammalian soft tissues by discontinuous density gradient. The degree of Golgi enrichment can be determined by assaying the acitivty of UDP-galactosyl transferase or by immunodetection of Golgi specific marker proteins like B-COP or GM130 using appropriate antibodies (Cat. No. G6160 and G7295, respectively). Separation from other organelles can be measured using the appropriate marker detection kits (Cat. No. CS0780, CYTOCOX1, CY0100 and CAT100).

Application

Golgi Isolation Kit may be used for the isolation of Golgi membranes from mammalian soft tissues by discontinuous density gradient.

Analysis Note

The Golgi Isolation kit was optimized using rat liver and tested on rat kidney, spleen, and heart.

Kit Components Also Available Separately

Product No.
Description
SDS

  • P8340Protease Inhibitor Cocktail, for use with mammalian cell and tissue extracts, DMSO solution 5 mLSDS

Storage Class Code

10 - Combustible liquids

WGK

WGK 3


Certificates of Analysis (COA)

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Julien Villeneuve et al.
The Journal of cell biology, 217(2), 649-665 (2017-12-08)
An appreciation of the functional properties of the cytoplasmic fatty acid binding protein 4 (FABP4) has advanced with the recent demonstration that an extracellular form secreted by adipocytes regulates a wide range of physiological functions. Little, however, is known about
A Surroca et al.
The Journal of membrane biology, 177(3), 243-249 (2000-10-03)
We investigated the direct effect of inositol 1,4,5-trisphosphate (IP(3)) and ryanodine receptor agonists on Ca(2+) release from vesicles of a rat liver Golgi apparatus (GA) enriched fraction, which were actively loaded with (45)Ca(2+). Results in GA were compared with those
E Prchla et al.
The Journal of cell biology, 131(1), 111-123 (1995-10-01)
Endosomal penetration by nonenveloped viruses might be accomplished by either local breakdown of the endosomal membrane (e.g., adenovirus) or formation of a membrane-spanning pore by capsid proteins. Uncoating of the nonenveloped virus human rhinovirus serotype 2 (HRV2) has been shown
V J Allan et al.
The Journal of cell biology, 113(2), 347-359 (1991-04-01)
When higher eukaryotic cells enter mitosis, membrane organization changes dramatically and traffic between membrane compartments is inhibited. Since membrane transport along microtubules is involved in secretion, endocytosis, and the positioning of organelles during interphase, we have explored whether the mitotic
E R Sjoberg et al.
The Journal of biological chemistry, 268(14), 10185-10196 (1993-05-15)
The melanoma-associated disialogangliosides 9(7)-O-acetyl-GD3 and 9(7)-O-acetyl-GD2 have been structurally well characterized. However, the compartmentalization and sequence of action of the biosynthetic activities responsible for synthesizing these molecules remain obscure. Here, we have studied the spatial and temporal interrelationships among the

Articles

Centrifugation separates organelles based on size, shape, and density, facilitating subcellular fractionation across various samples.

Centrifugation separates organelles based on size, shape, and density, facilitating subcellular fractionation across various samples.

Centrifugation separates organelles based on size, shape, and density, facilitating subcellular fractionation across various samples.

Centrifugation separates organelles based on size, shape, and density, facilitating subcellular fractionation across various samples.

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