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I Cabantchik

Showing results (21-30 of 100) with videos related to

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Federation Proceedings|January 1, 1976
Mechanism of anion transport in red blood cells: role of membrane proteinsA Rothstein, Z I Cabantchik, P Knauf
Blood|April 21, 2001
Repression of ferritin expression increases the labile iron pool, oxidative stress, and short-term growth of human erythroleukemia cellsO Kakhlon, Y Gruenbaum, Z I Cabantchik
The Biochemical Journal|May 23, 2001
Repression of the heavy ferritin chain increases the labile iron pool of human K562 cellsO Kakhlon, Y Gruenbaum, Z I Cabantchik
Journal of Cellular Physiology|February 1, 1983
Permselectivity changes in malaria (Plasmodium falciparum) infected human red blood cell membranesS Kutner, H Ginsburg, Z I Cabantchik
FEBS Letters|February 17, 1997
Newly delivered transferrin iron and oxidative cell injuryW Breuer, E Greenberg, Z I Cabantchik
Biochimica Et Biophysica Acta|January 5, 1983
New approaches for the reconstitution and functional assay of membrane transport proteins. Application to the anion transporter of human erythrocytesA Darmon, M Zangvill, Z I Cabantchik
Membrane Biochemistry|January 1, 1979
Anion transport in red blood cells. I. Chemical properties of anion recognition sites as revealed by structure-activity relationships of aromatic sulfonic acidsM Barzilay, S Ship, Z I Cabantchik
FEBS Letters|March 18, 1996
Dynamics of the cytosolic chelatable iron pool of K562 cellsW Breuer, S Epsztejn, Z I Cabantchik
Proceedings of the National Academy of Sciences of the United States of America|May 1, 1985
Susceptibility of human malaria parasites to chloroquine is pH dependentA Yayon, Z I Cabantchik, H Ginsburg
The EMBO Journal|November 1, 1984
Identification of the acidic compartment of Plasmodium falciparum-infected human erythrocytes as the target of the antimalarial drug chloroquineA Yayon, Z I Cabantchik, H Ginsburg
Pageof 10

Showing results (21-30 of 100) with videos related to

Sort By:
Pageof 10
Federation Proceedings|January 1, 1976
Mechanism of anion transport in red blood cells: role of membrane proteinsA Rothstein, Z I Cabantchik, P Knauf
Blood|April 21, 2001
Repression of ferritin expression increases the labile iron pool, oxidative stress, and short-term growth of human erythroleukemia cellsO Kakhlon, Y Gruenbaum, Z I Cabantchik
The Biochemical Journal|May 23, 2001
Repression of the heavy ferritin chain increases the labile iron pool of human K562 cellsO Kakhlon, Y Gruenbaum, Z I Cabantchik
Journal of Cellular Physiology|February 1, 1983
Permselectivity changes in malaria (Plasmodium falciparum) infected human red blood cell membranesS Kutner, H Ginsburg, Z I Cabantchik
FEBS Letters|February 17, 1997
Newly delivered transferrin iron and oxidative cell injuryW Breuer, E Greenberg, Z I Cabantchik
Biochimica Et Biophysica Acta|January 5, 1983
New approaches for the reconstitution and functional assay of membrane transport proteins. Application to the anion transporter of human erythrocytesA Darmon, M Zangvill, Z I Cabantchik
Membrane Biochemistry|January 1, 1979
Anion transport in red blood cells. I. Chemical properties of anion recognition sites as revealed by structure-activity relationships of aromatic sulfonic acidsM Barzilay, S Ship, Z I Cabantchik
FEBS Letters|March 18, 1996
Dynamics of the cytosolic chelatable iron pool of K562 cellsW Breuer, S Epsztejn, Z I Cabantchik
Proceedings of the National Academy of Sciences of the United States of America|May 1, 1985
Susceptibility of human malaria parasites to chloroquine is pH dependentA Yayon, Z I Cabantchik, H Ginsburg
The EMBO Journal|November 1, 1984
Identification of the acidic compartment of Plasmodium falciparum-infected human erythrocytes as the target of the antimalarial drug chloroquineA Yayon, Z I Cabantchik, H Ginsburg
Pageof 10