Citations to this article
Citation Information: J Clin Invest. 1970;49(1):140-149. https://doi.org/10.1172/JCI106212.
Abstract
Washed human platelets are capable of depositing 1-4 as well as probable 1-6 glucosyl linkages onto preexistent glycogen primer. They are also capable of degrading (glycogenolysis) newly synthesized 1-4 as well as probable 1-6 glucosyl linkages. A higher rate of glycogen synthesis was found in platelet suspensions containing lower concentrations of platelets. This was shown to result from decreased glycogen degradation and consequent increased residual glycogen primer in low platelet suspensions. The increased glycogen content of low platelet suspensions was not a result of platelet washing, removal of platelets from plasma, or release of platelet metabolites into the media. The enzyme glycogen synthetase was found to be present at a rate of 5.2 μmoles of uridine diphosphate (UDP) glucose incorporated into glycogen per gram platelets per hour at 37°C. The Km for UDP glucose was 6.6 mmoles/liter. At optimum concentration of glucose 6-phosphate, the Km was reduced 4.6 fold and Vmax was increased 4.3-fold.
Authors
Simon Karpatkin, Arthur Charmatz, Richard M. Langer
Total citations by year
Citations to this article (17)
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Transcript profiling of human platelets using microarray and serial analysis of gene expression
DV Gnatenko, JJ Dunn, SR McCorkle, D Weissmann, PL Perrotta, WF Bahou |
Blood | 2003 |
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Characterization of a protein: Glucosyltransferase activity in human platelets
P Rodríguez, P Durante |
Biochemical Medicine and Metabolic Biology | 1990 |
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Determinants of ADP-induced platelet aggregation in diabetes mellitus
DB Jones, TM Davis, E Bown, RD Carter, JI Mann, RJ Prescott |
Diabetologia | 1986 |
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Animal Models in Radiotracer Design
RM Lambrecht, WC Eckelman |
1983 | |
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Effect of metabolic inhibitors on thrombin-induced membrane potential changes in washed human platelets
SM Sepersky, ER Simons |
Thrombosis Research | 1981 |
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Insignificance of Gluconeogenesis in Human Blood Platelets
J Schrijver, JF Koster, WC Hülsmann |
European Journal of Clinical Investigation | 1975 |
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Requirement of iron for platelet protein synthesis
ML Freedman, S Karpatkin |
Biochemical and Biophysical Research Communications | 1973 |
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Synthesis of glucose in human thrombocytes
N Nakamura, KA Zuppinger, JP Colombo, P Walter |
Metabolism | 1973 |
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Extensive Incorporation of [2-14C]Mevalonic Acid into Cholesterol Precursors by Human Platelets in Vitro
A Derksen, P Cohen |
The Journal of biological chemistry | 1973 |
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LIPID AND AMINO ACID SYNTHESIS IN AGGREGATING PLATELETS
M Steiner |
Annals of the New York Academy of Sciences | 1972 |
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Energy metabolism of blood platelets
L Salganicoff, MH Fukami |
Archives of Biochemistry and Biophysics | 1972 |
|
Glycolytic Intermediates and Adenine Nucleotides of Human Platelets: II. Effect of Short-term Storage at 4 C
BK Kim, MG Baldini |
Transfusion | 1972 |
|
Platelet storage at 22°C; metabolic, morphologic, and functional studies
S Murphy, FH Gardner |
Journal of Clinical Investigation | 1971 |
|
Heterogeneity of Human Platelets III. GLYCOGEN METABOLISM IN PLATELETS OF DIFFERENT SIZES
S Karpatkin, A Charmatz |
British Journal of Haematology | 1970 |
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