Biosynthesis of erythrocyte membrane protein band 3 in DMSO‐induced friend erythroleukemia cells

The major integral membrane protein of red blood cells, the mouse equivalent of human band 3, was purified and used to raise a specific antiserum. The murine protein resembles its human counterpart in several of its properties, including susceptibility to digestion by chymotrypsin added to intact cells and an ability to bind to concanavalin A. The synthesis of 35S‐labeled band 3 was detected in Friend erythroleukemia cells treated with DMSO by immuneprecipitation followed by SDS gel electrophoresis and fluorography. Induction with DMSO led to a greater than tenfold increase in the synthesis of band 3 and maximal synthesis was reached 3 to 4 days after the beginning of induction.

[1]  G. Palade,et al.  The sialoglycoproteins of murine erythrocyte ghosts. A modified periodic acid-Schiff stain procedure staining nonsubstituted and O-acetylated sialyl residues on glycopeptides. , 1979, The Journal of biological chemistry.

[2]  P. Harper,et al.  Alterations in chloride transport during differentiation of Friend virus‐transformed cells , 1979, Journal of cellular physiology.

[3]  P. Harper,et al.  Comparison of chloride transport in mouse erythrocytes and friend virus‐transformed erythroleukemic cells , 1979, Journal of cellular physiology.

[4]  M. MacDonald,et al.  Erythrocyte membrane antigen expression during friend cell differentiation: Analysis of two non‐inducible variants , 1978, Journal of cellular physiology.

[5]  M. Adesnik,et al.  Induction of erythroid differentiation in friend leukemia cells by bromodeoxyuridine , 1978, Journal of cellular physiology.

[6]  K. Lowenhaupt,et al.  A change in the stability of globin mRNA during the induction of murine erythroleukemia cells , 1978, Cell.

[7]  V. Marchesi,et al.  Isolation and characterization of peptides derived from the cytoplasmic segment of band 3, the predominant intrinsic membrane protein of the human erythrocyte. , 1978, The Journal of biological chemistry.

[8]  T. Steck The band 3 protein of the human red cell membrane: a review. , 1978, Journal of supramolecular structure.

[9]  H. Eisen,et al.  Induction of spectrin in erythroleukemic cells transformed by Friend virus. , 1977, Proceedings of the National Academy of Sciences of the United States of America.

[10]  P. Aisen,et al.  Inducibility of transferrin receptors on friend erythroleukemic cells. , 1977, Science.

[11]  C. Georgopoulos,et al.  Surface changes in differentiating Friend erythroleukemic cells in culture , 1977, Cell.

[12]  A. Bernstein,et al.  Early and late volume changes during erythroid differentiation of cultured friend leukemic cells , 1977, Journal of cellular physiology.

[13]  F. Sharom,et al.  Isolation and incorporation into lipid vesicles of a concanavalin A receptor from human erythrocytes. , 1977, Biochimica et biophysica acta.

[14]  A. Ross,et al.  Reconstitution of band 3, the erythrocyte anion exchange protein. , 1977, Biochemical and biophysical research communications.

[15]  H. Kazazian,et al.  The erythropoietic mouse spleen-a model system of development. , 1976, Archives of biochemistry and biophysics.

[16]  P. J. Langer,et al.  Asynchronous synthesis of erythrocyte membrane proteins. , 1976, Proceedings of the National Academy of Sciences of the United States of America.

[17]  S. Sassa,et al.  Sequential induction of heme pathway enzymes during erythroid differentiation of mouse Friend leukemia virus-infected cells , 1976, The Journal of experimental medicine.

[18]  V. Marchesi,et al.  The red cell membrane. , 1976, Annual review of biochemistry.

[19]  T. Steck,et al.  Isolation and characterization of band 3, the predominant polypeptide of the human erythrocyte membrane. , 1975, The Journal of biological chemistry.

[20]  D. Kabat,et al.  Synthesis of erythrocyte-specific proteins in cultured friend leukemia cells , 1975, Cell.

[21]  P. Leder,et al.  Differentiation in erythroleukemic cells and their somatic hybrids. , 1975, Proceedings of the National Academy of Sciences of the United States of America.

[22]  J. Findlay The receptor proteins for concanavalin A and Lens culinaris phytohemagglutinin in the membrane of the human erythrocyte. , 1974, The Journal of biological chemistry.

[23]  W. Bonner,et al.  A film detection method for tritium-labelled proteins and nucleic acids in polyacrylamide gels. , 1974, European journal of biochemistry.

[24]  G. Kreibich,et al.  SELECTIVE RELEASE OF CONTENT FROM MICROSOMAL VESICLES WITHOUT MEMBRANE DISASSEMBLY , 1974, The Journal of cell biology.

[25]  M. Furusawa,et al.  Erythrocyte membrane-specific antigens in Friend virus-induced leukemia cells. , 1973, Bibliotheca haematologica.

[26]  K. Carraway,et al.  Proteolytic digestion of erythrocytes, resealed ghosts, and isolated membranes. , 1972, Biochemistry.

[27]  K. Carraway,et al.  Surface proteins of erythrocyte membranes. , 1971, Biochimica et biophysica acta.

[28]  D. Wallach,et al.  Electrophoretic analysis of the major polypeptides of the human erythrocyte membrane. , 1971, Biochemistry.

[29]  W. Scher,et al.  Hemoglobin synthesis in murine virus-induced leukemic cells in vitro: stimulation of erythroid differentiation by dimethyl sulfoxide. , 1971, Proceedings of the National Academy of Sciences of the United States of America.