Marrow Stem Cell Potential within a Continuum | Zendy

QUESENBERRY P. | Zendy; COLVIN G. | Zendy; LAMBERT J. F. | Zendy; ABEDI M. | Zendy; CERNY J. | Zendy; DOONER M. | Zendy; MOORE B. | Zendy; McAULIFFE C. | Zendy; DEMERS D. | Zendy; GREER D. | Zendy; PARENT A. | Zendy; BADIAVAS E. | Zendy; LUM L. | Zendy; FALANGA V. | Zendy

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Marrow Stem Cell Potential within a Continuum

Author(s) -

QUESENBERRY P.,

COLVIN G.,

LAMBERT J. F.,

ABEDI M.,

CERNY J.,

DOONER M.,

MOORE B.,

McAULIFFE C.,

DEMERS D.,

GREER D.,

PARENT A.,

BADIAVAS E.,

LUM L.,

FALANGA V.

Publication year - 2003

Publication title -

annals of the new york academy of sciences

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.712

H-Index - 248

eISSN - 1749-6632

pISSN - 0077-8923

DOI - 10.1111/j.1749-6632.2003.tb03248.x

Subject(s) - stem cell , haematopoiesis , biology , stem cell biology , microbiology and biotechnology , hematopoietic stem cell , phenotype , developmental biology , cell cycle , cell , stem cell factor , genetics , gene , embryo , reproductive technology , embryogenesis

A bstract : On the basis of our studies of the fluctuation of the hematopoietic stem cell phenotype with cell cycle trnsit, we hypothesize that the ability of marrow stem cells to convert to nonhematopoietic cells will also vary at different points in the cell cycle. The new biology of stem cells has an impact on many fields including developmental biology and stem cell biology and the clinical potential is enormous.

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