S. Zietz scite author profile

S. Zietz

5Publications

56Citation Statements Received

2Citation Statements Given

How they've been cited

163

How they cite others

Affiliations

University of the Sciences, Drexel University, Temple University

Publications

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Curve fitting by spline and akima methods: possibility of interpolation error and its suppression

Fried

Zietz

1973

pmb

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Two computer-implemented methods for achieving smooth interpolations between data points are compared with respect to their ability to avoid spurious oscillations. While both the spline and Akima interpolations may significantly overshoot the data points if the latter change abruptly, these phenomena can be suppressed or reduced in the Akima method by relatively minor modifications. The spline method cannot be similarly corrected, however, and its use is recommended only if the data points are sufficiently closely spaced in regions of rapidly changing slope.

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Reversible (G0) and nonreadily reversible (Q) noncycling cells in human peripheral blood

et al. 1980

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PHA-stimulated human lymphocytes (normal-resting-proliferating) at 0, 24, 48, 72, and 144 h were studied with Acridine Orange (AO) staining. By viable cell sorting, by subsequent subculturing, and by the use of biochemical, biophysical, and immunological assays, not only have the G0 resting and G1 (cycling) cell cycle phases been objectively characterized, but a separate subpopulation of quiescent cells that are functionally viable and deeply committed to nonproliferation, the Q cells, has been identified. Multiparameter cytofluorimetric analysis, methyl14C-thymidine incorporation, automated image analysis, and mitogen stimulation studies have shown that the "Q" cell, compared to the "G0" resting but easily recruitable cell, exhibits quite lower red and green AO emission, possesses 2c to 4c DNA content (rather than only 2c), has a higher average optical density, and is either nonrecruitable or recruitable-with-difficulty in PHA-stimulated lymphocyte cultures.

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Mathematical approaches to optimization of cancer chemotherapy

Zietz

Nicolini

1979

Bulletin of Mathematical Biology

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Mathematical approaches to optimization of cancer chemotherapy

Zietz

Nicolini

1979

Bltn Mathcal Biology

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Differential scattering of circularly polarized light as a unique probe of polynucleosome superstructures

1983

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A theoretical approach to modeling Circular Intensity Differential Scattering (CIDS) of native chromatin as multiple scattering of dipoles is discussed without the Born approximation. The model can explain the experimental data in the literature. It is shown that CIDS contains more structural information than does total light scattering and to a good approximation is independent of the length of the scattering molecules. Finally, CIDS in conjunction with traditional light scattering measurements should aid in discriminating between various alternative models of higher order chromatin structure now being proposed. Generalization of this theoretical study to other complex biomolecular structures, is also briefly discussed.

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S. Zietz

Curve fitting by spline and akima methods: possibility of interpolation error and its suppression

Reversible (G0) and nonreadily reversible (Q) noncycling cells in human peripheral blood

Mathematical approaches to optimization of cancer chemotherapy

Mathematical approaches to optimization of cancer chemotherapy

Differential scattering of circularly polarized light as a unique probe of polynucleosome superstructures

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