The molecules occurring as terminal residues on the external surfaces of nuclei prepared from rat liver by either sucrose-CaCl2 or citric acid methods and nucleoli derived from the sucrose-CaCl2 nuclei were studied chemically and electrokinetically. In 0.0145 M NaCl, 4.5% sorbitol, and 0.6 mM NaHCO3 with pH 7.2 ± 0.1 at 25°C, the sucrose-CaCl2 nuclei had an electrophoretic mobility of -1.92 µm/s/V/cm, the citric acid nuclei, -1.63 µm/s/V/cm, and the nucleoli, -2.53 µm/s/V/cm. The citric acid nuclei and the nucleoli contained no measurable sialic acid. The sucrose-CaCl2 nuclei contained 0.7 nmol of sialic acid/mg nuclear protein; this was essentially located in the nuclear envelope. Treatment of these nuclei with 50 µg neuraminidase/mg protein resulted in release of 0.63 nmol of sialic acid/mg nuclear protein; treatment with 1 % trypsin caused release of 0.39 nmol of the sialic acid/mg nuclear protein. The pH-mobility curves for the particles indicated the sucrose-CaCl2 nuclei surface had an acid-dissociable group of pK. ∼2.7 while the pK for the nucleoli was considerably lower. Nucleoli treated with 50 µg neuraminidase/mg particle protein had a mobility of -2.53 µm/s/V/cm while sucrose-CaCl2 nuclei similarly treated had a mobility of -1.41 µm/s/V/cm. Hyaluronidase at 50 µg/mg protein had no effect on nucleoli mobility but decreased the sucrose-CaCl2 nuclei mobility to -1.79 µm/s/V/cm. Trypsin at 1 % elevated the electrophoretic mobility of the sucrose-CaCl2 nuclei slightly but decreased the mobility of the nucleoli to -2.09 µm/s/V/cm. DNase at 50 µg/mg protein had no effect on the mobility of the isolated sucrose-CaCl2 nuclei but decreased the electrophoretic mobility of the nucleoli to -1.21 µm/s/V/cm. RNase at 50 µg/mg protein also had no effect on the electrophoretic mobility of the sucrose-CaCl2 nuclei but decreased the nucleoli mobility to -2.10 µm/s/V/cm. Concanavalin A at 50 µg/mg protein did not alter the nucleoli electrophoretic mobility but decreased the sucrose-CaCl2 nuclei electrophoretic mobility to -1.64 µm/s/V/cm. The results are interpreted to mean that the sucrose-CaCl2 nuclear external surface contains terminal sialic acid residues in trypsin-sensitive glycoproteins, contains small amounts of hyaluronic acid, is completely devoid of nucleic acids, and binds concanavalin A. The nucleolus surface is interpreted to contain a complex made up of protein, RNA, and primarily DNA, to be devoid of sialic acid and hyaluronic acid, and not to bind concanavalin A.
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1 December 1973
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December 01 1973
MOLECULES AT THE EXTERNAL NUCLEAR SURFACE : Sialic Acid of Nuclear Membranes and Electrophoretic Mobility of Isolated Nuclei and Nucleoli
H. Bruce Bosmann
H. Bruce Bosmann
From the Department of Pharmacology and Toxicology, University of Rochester School of Medicine and Dentistry, Rochester, New York 14642
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H. Bruce Bosmann
From the Department of Pharmacology and Toxicology, University of Rochester School of Medicine and Dentistry, Rochester, New York 14642
Received:
May 03 1973
Revision Received:
July 20 1973
Online ISSN: 1540-8140
Print ISSN: 0021-9525
Copyright © 1973 by The Rockefeller University Press
1973
J Cell Biol (1973) 59 (3): 601–614.
Article history
Received:
May 03 1973
Revision Received:
July 20 1973
Citation
H. Bruce Bosmann; MOLECULES AT THE EXTERNAL NUCLEAR SURFACE : Sialic Acid of Nuclear Membranes and Electrophoretic Mobility of Isolated Nuclei and Nucleoli . J Cell Biol 1 December 1973; 59 (3): 601–614. doi: https://doi.org/10.1083/jcb.59.3.601
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