L. J. Marton scite author profile

L. J. Marton

4Publications

53Citation Statements Received

118Citation Statements Given

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100

116

Affiliations

Neurological Surgery, University of California, San Francisco

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Effect of polyamine depletion on chromatin structure in U-87 MG human brain tumour cells

Basu

Sturkenboom

Delcros

et al. 1992

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The chromatin structure of polyamine-depleted U-87 MG human brain tumour cells was studied by following the kinetics of digestion of cell nuclei by micrococcal nuclease and bovine pancreatic DNAase I. Cells growing in monolayers were treated with either alpha-difluoromethylornithine (DFMO), to deplete putrescine and spermidine, or N1,N14-bis(ethyl)homospermine (BE-4-4-4), to deplete putrescine, spermidine and spermine. BE-4-4-4 increased the initial rates of digestion and the magnitudes of limit digest by both enzymes; DFMO increased the limit digests without affecting initial digestion rates. Addition of 1 mM-putrescine 1 day after addition of DFMO reversed the effect of DFMO on limit digests. (Because polyamine uptake is low in cells treated with BE-4-4-4, and because putrescine does not reverse the growth-inhibitory effects of BE-4-4-4, reversal of the effects of BE-4-4-4 with putrescine was not attempted.) The increases in initial rates and limit digests did not result from changes in the lengths of nucleosomal or linker DNA, from blocks in cell-cycle progression, or from growth inhibition caused by DFMO or BE-4-4-4. Thus, because the limit digest is highest in cells with the lowest polyamine levels, it seems clear that the enhanced enzymic digestion of nuclei is caused by polyamine depletion and its possible effect on chromatin structure.

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A new model for disruption of the ornithine decarboxylase gene, SPE1, in Saccharomyces cerevisiae exhibits growth arrest and genetic instability at the MAT locus

Schwartz¹,

Hittelman²,

Daneshvar³

et al. 1995

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Ornithine decarboxylase (ODC) is a rate-determining enzyme of the polyamine-biosynthetic pathway. We sought to produce cells with impaired ODC function in order to study the biological functions of polyamines. Saccharomyces cerevisiae strains were obtained by one-step gene replacement of a 900 bp fragment of the yeast ODC gene (SPE1) with the yeast URA3 gene. Spores derived from SPE1/spe1 cells germinated at reduced efficiency relative to SPE1/SPE1. Sustained growth of spe1 haploid mutants in polyamine-free medium led to intracellular polyamine depletion, reduction in budding index, G1 arrest and cessation of growth, and cells that were large and misshapen. All of these effects were completely reversed by adding polyamines to the medium, even after 5 days of polyamine starvation. A diploid yeast strain bearing two copies of disrupted spe1 lost heterozygosity at the mating-type locus more often when grown in the absence of polyamines than when grown in their presence, indicating that polyamine deficiency leads to either chromosome loss or to mitotic recombination.

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Directions for polyamine research

Marton¹,

Pegg²,

Morris³

1991

J of Cellular Biochemistry

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Spermine induces haemoglobin synthesis in murine erythroleukaemia cells

Delcros

Schwartz

Clément

et al. 1995

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The naturally occurring polyamine spermine induces haemoglobin synthesis in murine erythroleukaemia (MEL) cells. Haemoglobin production was accompanied by accumulation of cytoplasmic beta-globin mRNA and growth inhibition, but not by cell-cycle block or changes in cell volume. Hexamethylene-bisacetamide (HMBA), a well known differentiating agent, also induces haemoglobin production, but causes a G1 block and decreases cell volume. These findings indicate that HMBA and spermine affect MEL cells differently, even though both induce haemoglobin production.

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L. J. Marton

Effect of polyamine depletion on chromatin structure in U-87 MG human brain tumour cells

A new model for disruption of the ornithine decarboxylase gene, SPE1, in Saccharomyces cerevisiae exhibits growth arrest and genetic instability at the MAT locus

Directions for polyamine research

Spermine induces haemoglobin synthesis in murine erythroleukaemia cells

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