Over-replication of DNA in S phase Chinese hamster ovary cells after DNA synthesis inhibition.

We have developed a method for permeabilizing CHO cells to nucleotides under conditions which allow most cells to remain viable. Permeabilized cells can carry out ATP-dependent, semiconservative synthesis of DNA. The data are consistent with the continuation of DNA synthesis in those cells in S phase at the time of treatment, possibly limited to completion of replicon synthesis without new initiations.

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Effects of ultraviolet light on synchronized Chinese hamster ovary cells; potentiation by hydroxyurea

Journal of Cell Science ◽

10.1242/jcs.28.1.29 ◽

1977 ◽

Vol 28 (1) ◽

pp. 29-48

Author(s):

K. Burg ◽

A.R. Collins ◽

R.T. Johnson

Keyword(s):

Dna Synthesis ◽

Ultraviolet Light ◽

Hela Cells ◽

Chinese Hamster Ovary ◽

Ultraviolet Irradiation ◽

Chromosome Structure ◽

Chinese Hamster Ovary Cells ◽

Chinese Hamster ◽

Ovary Cells

We have examined the effects of hydroxyurea on u.v.-irradiated Chinese hamster CHO-KI cells. Ultraviolet irradiation followed by incubation with hydroxyurea causes only slight disruption of DNA and chromosome structure in CHO-KI cells compared with HeLa cells. There is, however, a clear potentiation by hydroxyurea of the u.v. killing of CHO-KI cells, which is most pronounced at those points in the cycle which are reported to have small DNA precursor pools. This potentiation is reduced when DNA precursors are provided together with hydroxyurea. These data are discussed in terms of an uncoupling of excision and repair DNA synthesis.

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Continued initiation of DNA synthesis in arginine-deprived Chinese hamster ovary cells.

The Journal of Cell Biology ◽

10.1083/jcb.73.1.200 ◽

1977 ◽

Vol 73 (1) ◽

pp. 200-205 ◽

Cited By ~ 3

Author(s):

A S Weissfeld ◽

H Rouse

Keyword(s):

Cell Cycle ◽

Dna Synthesis ◽

Chinese Hamster Ovary ◽

Cho Cells ◽

Chinese Hamster Ovary Cells ◽

Chinese Hamster ◽

Cell Multiplication ◽

Ovary Cells ◽

Cell Cycle Phases

When exponentially growing CHO cells were deprived of arginine (Arg), cell multiplication ceased after 12 h, but initiation of DNA synthesis continued: after 48 h of starvation with continuous [3H]thymidine exposure, 85% of the population had incorporated label, as detected autoradiographically. Consideration of the distribution of exponential cells in the various cell cycle phases leads to a calculation that most cells in G1 at the time that Arg was removed, as well as those in S, engaged in some DNA synthesis during starvation. In contrast, isoleucine (Ile)-starved cells did not initiate DNA synthesis, as has been reported by others. Experiments with cells synchronized by mitotic selection confirmed this difference in Arg- and Ile- deprived behavior, but also showed that cells which underwent the mitosis leads to G1 transition during Arg starvation remained arrested in G1 (G0?). The results suggest that Arg-deprived cells continue to maintain some proliferative function(s) while Ile-deprived cells do not.

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