Elise Howard scite author profile

Elise Howard

3Publications

27Citation Statements Received

55Citation Statements Given

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University of Wisconsin–Madison

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Cell sorting but not serum starvation is effective for SV40 human corneal epithelial cell cycle synchronization

Liliensiek¹,

Schell²,

Howard³

et al. 2006

Experimental Eye Research

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SV40 human corneal epithelial cell (HCEC) populations are readily used as a substitute for primary corneal epithelial cells that are difficult to maintain in vitro. To initiate cell-cycle experiments with the SV40-HCEC cells, two separate methods of cell synchronization were compared including serum starvation and sterile cell sorting. We hypothesized that SV40 cells are synchronized at higher efficiencies into each cell cycle phase (G1, S, G2M) when cell sorting is performed when compared to alternative methods of synchronization. SV40 cells were synchronized by deprivation of serum over 96 h or labeled with Höechst 33342 dye and sorted based on DNA content. Cells were synchronized using both methods and harvested at time points up to 72 h after release. To define more precisely the nature of sorted fractions, cells were pulsed with BrdU prior to sorting. SV40-HCEC cells exhibit a well-defined cell cycle profile. Serum deprivation up to 96 h was ineffective for cell synchronization of SV40-HCECs. In comparison, we achieved efficient synchronization of the SV40-HCECs with sterile cell sorting. SV40-HCEC cells gated into G 1 , S and G 2 M were synchronized up to 85% following the sort and maintained synchronization up to 24 h. Our findings indicate that serum starvation is not effective for synchronization of the SV40-HCEC cell line. We present a more effective approach, the use of cell sorting for cell synchronization of the SV40-HCEC cells.

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CHROMOSOMAL DNA SYNTHESIS IN DROSOPHILA MELANOGASTER

Howard

Plaut

1968

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Analysis of labeling patterns in three chromosome segments of Drosophila rnelanogaster has shown that the replicative activity within chromosomes is temporally ordered. Moreover, specific labeling patterns on one chromosome occur with specific patterns on another chromosome with a very high degree of correlation. This circumstance leads to the conclusion that DNA synthesis among all the regions in the three chromosome segments studied is coordinated. The various labeling patterns observed in any one chromosome and the combinations of labeling patterns observed in all three chromosome segments can be arranged in ordered arrays, if one assumes that the DNA synthesis in each chromosome region will go to completion without stopping once it has started. Such arrays can serve as models for the temporal order of DNA synthesis among chromosome regions. They predict that in any one chromosome DNA rcplication begins and ends at very few loci and that synthesis at a larger number of points occurs at an intermediate time.

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Erratum to “Cell sorting but not serum starvation is effective for SV40 human corneal epithelial cell cycle synchronization” [Exp. Eye Res. 83 (2006) 61–68]

Liliensiek

Schell

Howard

et al. 2006

Experimental Eye Research

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Elise Howard

Cell sorting but not serum starvation is effective for SV40 human corneal epithelial cell cycle synchronization

CHROMOSOMAL DNA SYNTHESIS IN DROSOPHILA MELANOGASTER

Erratum to “Cell sorting but not serum starvation is effective for SV40 human corneal epithelial cell cycle synchronization” [Exp. Eye Res. 83 (2006) 61–68]

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