Golgi apparatus isolation and use in cell-free systems |
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| Authors: | D J Morré T W Keenan Dorothy M Morré |
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| Institution: | (1) Department of Medicinal Chemistry, Arthur G. Hansen Life Sciences Research Building, Purdue University, 47907 West Lafayette, IN, USA;(2) Department of Biochemistry and Nutrition, Virginia Polytechnic Institute and State University, Blacksburg, Virginia |
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| Abstract: | Summary Recent advances in understanding the molecular mechanisms of membrane traffic to and through the Golgi apparatus have been predicated in large measure on the use of permeabilized animal cells, and on completely cell-free systems. These systems have included those addressing inter-Golgi apparatus membrane traffic, endoplasmic reticulum to Golgi apparatus traffic, and endocytotic events. Development of cell-free systems depends on the use of isolated fractions. Specificity is often achieved by using a compartment-specific assay so that the fractions employed can be very crude. More recently cell-free systems also have evolved which employ highly purified and well-characterized cell fractions. The latter may be utilized in the absence of a compartment-specific assay but may require employment of compartment-specific assays for validation. Central to development of cell-free systems for membrane analysis has been the availability of isolated Golgi apparatus, first from plants and later from animal tissues and cells. A major advantage of cell-free systems is that they are most clearly amenable to the investigation of molecular mechanisms of membrane trafficking.Dedicated to Hilton H. Mollenhauer on the occasion of his retirement |
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| Keywords: | Golgi apparatus Cell-free analysis Endoplasmic reticulum Exocytosis Endocytosis |
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