John A. Remington scite author profile

John A. Remington

5Publications

39Citation Statements Received

18Citation Statements Given

How they've been cited

121

How they cite others

131

Affiliations

University of Arizona, City Of Hope National Medical Center, State University of New York

Publications

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The time of DNA replication in the cell cycle in relation to RNA synthesis in frog embryos

Remington

Flickinger

1971

Journal Cellular Physiology

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Variations in the rates of DNA and RNA synthesis during the DNA synthetic ( S ) period of the cell cycle have been determined in explants of early Rana pipiens embryos.Cells of dorsal axial ectoderm-mesoderm regions and belly endoderm regions of the embryo were partially synchronized using 5-fluorodeoxyuridine. The partially synchronized explants were incubated continuously or at intervals during the S period with radioactive nucleic acid precursors. Autoradiographic and biochemical evidence indicates that at the gastrula, neurula and tailbud stages the DNA is replicated discontinuously in two maxima with a slowing in the synthetic rate in the middle of the S period. There is an increase in the proportion of the DNA which replicates late as development proceeds from gastrulation. At the neurula and tailbud stages the proportion of late replicating DNA is greater in the belly endoderm than in the dorsal axial ectoderm-mesoderm.Experiments utilizing H3-5-uridine indicate that RNA is synthesized discontinuously in two maxima during the S period in both dorsal axial and belly regions at the earlier neurula stage. By the tailbud stage, however, a significant decrease in the second maximum of RNA transcription occurs. RNA extraction experiments indicate that these changes can be attributed, in part, to changes in the synthesis of DNA-like RNA. These findings are discussed in relation to cell determination.Gastrulation in developing amphibian embryos marks the time when the germ layers are formed and the fates of cells begin to be fixed. Cells of the early gastrula are undetermined and are competent to differentiate into various cell types. During gastrulation dorsal ectoderm and mesoderm cells are determined to form neural tissue, and somites and notochord, respectively (Holtfreter and Hamburger, '55). The endoderm cells are determined to form gut derivatives later during neurulation (Balinsky, '61 ). These processes of determination are paralleled by a gradual restriction in the competence of cells for various kinds of differentiation.A marked change in the synthetic activity of cell nuclei also occurs during gastrulation in that the length of the S period like RNA (D-RNA) and soluble RNA procedes that of ribosomal RNA which begins to be transcribed later during gastrulation and neurulation (Brown and Littna, '64). As cells of the germ layers become determinted, however, the rate of D-RNA synthesis decreases (Woodland and Gurdon, '68), and the number of different kinds of D-RNA molecules transcribed from redundant DNA sequences is reduced considerably (Flickinger, '70 a,b). These experiments indicate that genetic activity decreases as development proceeds from the neurula to the larval stage. Over the same period of time, more kinds of D-RNA molecules appear to accumulate in the cytoplasm (Denis, '66; Greene and Flickinger, '70).This investigation is aimed at examining the cause of the progressive restriction in

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Beyond Big Science in America: The Binding of Inquiry

Remington

1988

Soc Stud Sci

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This paper offers an overview of the intellectual and social structure of science in the United States since the mid- 1960s. It argues that new directions for research are increasingly established by factors previously considered `external' to the inquiry process itself. These factors include changes in the ethos of academic science, social reorganization, governmental `megaprojects' and secrecy, and the enlarged dimension encompassed by Price's term `instrumentalism'. Taken together, these factors have restructured the indices of performance for doing science. Inquiry has become increasingly bound to a highly utilitarian conception of knowledge, to institutional goals and politicized reward systems, and to the technological infrastructure. Stylistic changes ensue, relating to how science is done, and to the relationship between theorization and experimentation. Given the altered circumstances for research, productive scientific inquiry at this historical juncture seems to be best fostered in diverse environments where corporate and academic scientists cooperate.

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Families of replicating units in cultured hamster fibroblasts

Remington

Klevecz

1973

Experimental Cell Research

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Intracellular distribution of transglutaminase activity during rat liver regeneration

Remington

Russell

1982

Journal Cellular Physiology

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Transglutaminase and ornithine decarboxylase activities have been assayed at intervals after partial hepatectomy in regenerating liver cells fractionated to obtain nuclear, cytoplasmic-particulate, and cytoplasmic-soluble fractions. Ornithine decarboxylase activity, localized entirely in the cytoplasmic fractions, undergoes a dramatic induction during the first 4 h after partial hepatectomy and remains elevated. This induction is very sensitive to inhibition by cycloheximide and actinomycin D, as previously reported. Transglutaminase activity is localized in both the cytoplasm and the nucleus with the highest specific activity in the nucleus. Nuclear transglutaminase activity approximately doubles in the first 2 h of liver regeneration, apparently as a result of a translocation of enzyme from the cytoplasm to the nucleus. Inhibitor studies indicate that the translocation is not dependent upon protein or RNA synthesis. In the first 2 h, actinomycin D slightly activates transglutaminase activity in the cytoplasmic-particulate and nuclear fractions. Only at 4 h after the onset of regeneration do actinomycin D and cycloheximide show some inhibition of transglutaminase activity indicating de novo synthesis at this time. A broad increase of transglutaminase activity occurs from hours 12-16 to hour 32 after partial hepatectomy in the nuclear and cytoplasmic-particulate fraction. These data suggest the existence of a function for transglutaminase in the nucleus of rat liver cells.

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Hormone-treated cho cells exit the cell cycle in the G2 phase

Remington

Klevecz

1973

Biochemical and Biophysical Research Communications

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John A. Remington

The time of DNA replication in the cell cycle in relation to RNA synthesis in frog embryos

Beyond Big Science in America: The Binding of Inquiry

Families of replicating units in cultured hamster fibroblasts

Intracellular distribution of transglutaminase activity during rat liver regeneration

Hormone-treated cho cells exit the cell cycle in the G2 phase

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