5-Azacytidine-induced conversion to cadmium resistance correlates with early S phase replication of inactive metallothionein genes in synchronized CHO cells.

scientific article

5-Azacytidine-induced conversion to cadmium resistance correlates with early S phase replication of inactive metallothionein genes in synchronized CHO cells. is …
instance of (P31):
scholarly articleQ13442814

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P356DOI10.1007/BF01539913
P698PubMed publication ID2429375

P2093author name stringTobey RA
Hildebrand CE
Crawford BD
Tesmer J
Stallings RL
P433issue5
P304page(s)423-432
P577publication date1986-09-01
P1433published inSomatic Cell and Molecular GeneticsQ7559232
P1476title5-Azacytidine-induced conversion to cadmium resistance correlates with early S phase replication of inactive metallothionein genes in synchronized CHO cells.
P478volume12

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cites work (P2860)
Q33256214Cell cycle synchronization: reversible induction of G2 synchrony in cultured rodent and human diploid fibroblasts
Q30498513DNA methylation and differentiation
Q51842465High-throughput clonal selection of recombinant CHO cells using a dominant selectable and amplifiable metallothionein-GFP fusion protein.
Q51988113Molecular mechanisms of copper metabolism and the role of the Menkes disease protein.

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