Optimal conditions for the isolation of nuclear envelopes by the action of heparin on nuclei are established and a morphological and biochemical study of such isolated envelopes is presented. An almost 100% yield of pure nuclear envelopes can be obtained by a single sedimentation step after incubation of nuclei with heparin for 40 min at 4 degrees C. The nuclear membrane pellet obtained in this way contains whole envelopes with a preserved perinuclear space and with ribosomes present on the outher leaflet. A single band with an apparent buoyant density of 1.18 is obtained by sucrose density gradient analysis. The chemical composition of the pellet is similar to that of the purified membranes and corresponds to 62% proteins, 34% phospholipids, 3% RNA, and 0.5% DNA. The presence of low concentrations of sodium phosphate (2-10 mM) is critical for a complete solubilization of the chromatin. A less rapid and complete solubilization is obtained with the potassium salt. Low concentrations of Mg++ (1-3 mM) counteract chromatin solubilization by heparin mainly at the level of chromatin-nuclear membrane association. The presence of EDTA in the medium leads to isolated nuclear envelopes on which neither ribosomes nor nuclear pores are visible, indicating the pore structure is dependent on the presence of Ca++ or Mg++. A comparison with other polyanions indicates a decisive advantage of heparin. However, pure nuclear envelopes can also be obtained by the action of dextran sulfate (mol wt 500,000) on nuclei incubated for 5 min at 37 degrees C, in the presence of phosphate ions.
Article| January 01 1978
Isolation of nuclear envelopes with polyanions.
J C Courvalin
Online Issn: 1540-8140
Print Issn: 0021-9525
J Cell Biol (1978) 76 (1): 191–206.
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M Bornens, J C Courvalin; Isolation of nuclear envelopes with polyanions.. J Cell Biol 1 January 1978; 76 (1): 191–206. doi: https://doi.org/10.1083/jcb.76.1.191
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