Density distribution analysis of In vivo and In vitro colony forming cells in developing fetal liver

## Abstract The technique of buoyant density separation in gradients of Bovine Serum Albumin has been used to separate hemopoietic cell populations in mouse bone marrow that form __in vivo__ spleen colonies and __in vitro__ colonies of granulocytes and macrophages in an agar culture system. The den

## Abstract Livers from 17‐ to 20‐day CBA mouse embryos were maintained for three weeks in organ culture. During this period, hematopoiesis continued; morphologically recognizable cells were identified until day 24 and hematopoietic cells with colony forming ability were present until day 23. The m

Hemopoietic colony formation in agar occurred spontaneously in mass cultures of marrow cells obtained from a number of species (guinea pig, rat, lamb, rabbit, pig, calf, human and Rhesus monkey). This contrastcd with the observation that colony formation by mouse bone marrow exhibited an absolute re

## Abstract Equilibrium density centrifugation was used to characterise and separate subpopulations of mouse haemopoietic progenitor cells capable of producing colonies of granulocytes and macrophages in vitro. The material used to induce colony formation (CSF) was prepared from an extract of pregn

## Abstract Erythropoietin (epo) added to liquid cultures of mouse bone marrow cells affected both the numbers of spleen colony‐forming cells (CFU) in the cultures and the types of spleen colonies formed from these cells in irradiated hosts. Epo caused an increase in the numbers of CFU detected in

## Abstract Experiments were performed to investigate the presence of colony‐forming units (CFU) in the mouse embryonic yolk sac during the developmental period in which the yolk sac is the sole hemopoietic organ. Injection of yolk sac cell suspensions from normal embryos into syngeneic, lethally i