D.E. Taylor scite author profile

D.E. Taylor

2Publications

3Citation Statements Received

22Citation Statements Given

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University of Connecticut, Ames Research Center

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Regulation of mitotic activity and the cell cycle in primary chick muscle cells by neurotransferrin

Popiela

Taylor

Ellis

et al. 1984

Journal Cellular Physiology

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We previously demonstrated that neurotransferrin (NTF), a transferrin extracted from adult chicken peripheral nerves, promotes growth of primary chick muscle cells in the absence of embryo extract. NTF was shown to stimulate DNA synthesis and cell proliferation. In the present study, we demonstrate that NTF is a mitogen using two independent methods; counts of orcein-stained mitotic figures and analysis of cell cycle kinetics with a fluorescence-activated cell sorter. In low-density cultures mitotic activity increases with increasing doses of NTF followed by a plateau at concentrations greater than 6 micrograms/ml. Residual, embryonic mitotic activity progressively declines with time after plating muscle cells in the absence of NTF. Absence of NTF for 2 days causes cells to lose irreversibly their myogenic potential. In the presence of NTF, mitotic activity increases for 2 days followed by a decline concurrent with myoblast fusion and formation of myotubes. Cell cycle analysis showed that NTF addition causes cell populations to shift from G1 to S and G2 + M within 18.5 hr. Muscle cells, plated at high densities in the absence of NTF, show mitotic activities similar to those plated at low densities in the presence of NTF. Addition of NTF to high-density cultures is ineffective in stimulating mitosis. These studies show that at typical cell plating densities, NTF is a required mitogen for primary chick muscle cell cultures.

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Assessment of liquid-cell membrane mass transfer resistance on growth kinetics in cell culture analog bioreactors

Taylor

Fisher²

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D.E. Taylor

Regulation of mitotic activity and the cell cycle in primary chick muscle cells by neurotransferrin

Assessment of liquid-cell membrane mass transfer resistance on growth kinetics in cell culture analog bioreactors

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