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Hematopoietic stem cells are phenotypically very heterogeneous, probably reflecting the degree of activation and/or differentiation. This cell population is capable of high-level proliferative activity and multilineage differentiation. Despite its potential for self-renewal, the hematopoietic stem cell exists in a quiescent state for prolonged periods of time. The mechanism(s) involved in triggering these cells to enter the cell cycle is/are not totally clear; however, cytokines (both positive and negative regulators) are implicated. Most, if not all known cytokines that interact at the stem cell level do so not only by inducing proliferation but also differentiation. The ability to maintain a population of truly primitive stem cells for extended periods of time in vitro is currently under investigation by many research groups.
M J Lawman, and
P D Lawman, and
C E Bagwell
June 2023,
Experimental cell research,
M J Lawman, and
P D Lawman, and
C E Bagwell
December 1999,
Journal of hematotherapy & stem cell research,
M J Lawman, and
P D Lawman, and
C E Bagwell
September 2015,
Science China. Life sciences,
M J Lawman, and
P D Lawman, and
C E Bagwell
January 2003,
Methods in molecular biology (Clifton, N.J.),
M J Lawman, and
P D Lawman, and
C E Bagwell
January 2001,
International journal of hematology,
M J Lawman, and
P D Lawman, and
C E Bagwell
August 2004,
Experimental hematology,
M J Lawman, and
P D Lawman, and
C E Bagwell
November 2002,
Biochimica et biophysica acta,
M J Lawman, and
P D Lawman, and
C E Bagwell
January 2011,
Swiss medical weekly,
M J Lawman, and
P D Lawman, and
C E Bagwell
August 2019,
Blood science (Baltimore, Md.),
M J Lawman, and
P D Lawman, and
C E Bagwell
January 2002,
Methods in molecular medicine,
