Arthur A. Axelrad scite author profile

A culture method has been developed in which erythroid colonies are produced in vitro from hemopoietic cells from the livers of 13-day fetuses of C3Hf/Bi mice. Heme synthesis by the cultures was correlated with the presence of these colonies, and the hemoglobin produced was shown to be electrophoretically normal. The individual colonies were identified as erythroid since they were erythropoietin-dependent, positively stained by the histochemical 'Lepehne' procedure for hemoglobin, and labeled by 59Fe radioautography. Evidence is presented that the development of these colonies is under separate control from that of granulocytic colonies found in the same cultures.

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Assay for friend leukemia virus: Rapid quantitative method based on enumeration of macroscopic spleen foci in mice

Axelrad

1964

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Induction of megakaryocyte colonies with platelet formation in vitro

McLeod

Shreeve

Axelrad

1976

Nature

177

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Improved Plasma Culture System for Production of Erythrocytic Colonies In Vitro: Quantitative Assay Method for CFU-E

1974

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An improved plasma culture system is described for the production of erythrocytic colonies by mammalian adult hemopoietic cells in vitro under the influence of erythropoietin. The concentration of fetal calf serum in the medium used for dilution of the cells was critical for erythrocytic colony formation when low numbers of cells were plated. Optimal concentrations were found for plasma, fetal calf serum, bovine serum albumin, and L-asparagine in the culture medium, and the colony-forming efficiency was shown to depend on the concentration of erythropoietin. With erythropoietin at plateau concentration, the number of erythrocytic colonies produced was directly proportional to the number of bone marrow or spleen cells plated, over a wide range of cell concentrations. Colony numbers per culture conformed to a Poisson distribution. Thus, the improved plasma culture system may be used for the quantitative assay of CFU-E. The method is rapid (2 days), reliable, convenient, and inexpensive. Since the improved plasma culture system also supports granulocytic colony formation by bone marrow cells in the presence of conditioned medium (CSA), and the number of granulocytic colonies produced is proportional to the number of cells plated, the same hemopoietic cell suspensions can be simultaneously assayed for CFU-E and CFU-C under virtually identical conditions.

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Arthur A. Axelrad

Induction of Colonies of Hemoglobin-Synthesizing Cells by Erythropoietin In Vitro

Assay for friend leukemia virus: Rapid quantitative method based on enumeration of macroscopic spleen foci in mice

Induction of megakaryocyte colonies with platelet formation in vitro

Improved Plasma Culture System for Production of Erythrocytic Colonies In Vitro: Quantitative Assay Method for CFU-E

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