Christine Gabrielides scite author profile

A 36-nucleotide oligomer containing a single O2-ethyldeoxythymidine (O2-Et-dT) adduct at a specific site was synthesized. The oligomer, which corresponds to a specific DNA sequence in gene G of bacteriophage phi X174, was used as a template by T7 DNA polymerase to investigate the in vitro mutagenic specificity of O2-Et-dT. At 10 microM dNTP and 5 mM Mg++, the progress of T7 DNA polymerase was interrupted by O2-Et-dT: 80% 3' to O2-Et-dT and 14% after incorporating a nucleotide opposite O2-Et-dT (incorporation-dependent blocked product). DNA synthesis past the lesion was low (6%). Incorporation of a nucleotide opposite O2-Et-dT and subsequent postlesion synthesis were enhanced by increasing the dNTP concentration, with postlesion synthesis reaching 30% at 200 microM. Postlesion synthesis was further increased to 45% by addition of 10 mM dAMP to the polymerization reactions. DNA sequencing revealed that both dA and dT were incorporated opposite O2-Et-dT with dA incorporation impeding the progress of DNA synthesis. dT incorporation was efficiently extended implicating O2-Et-dT in transversion mutagenesis in vivo. These studies provide a basis for understanding the molecular mechanisms by which ethylating agents contribute to cytotoxicity, A.T transversion mutagenesis and activation of the oncogene neu by an A.T----T.A transversion event in rat neuroblastomas.

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Incorporation of dA opposite N3-ethylthymidine terminates in vitro DNA synthesis

Bhanot

Grevatt²,

Donahue³

et al. 1990

Biochemistry

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N3-Ethylthymidine (N3-Et-dT) was site specifically incorporated into a 17-nucleotide oligomer to investigate the significance of DNA ethylation at the central hydrogen-bonding site (N3) of thymine. The 5'-(dimethoxytrityl)-protected N3-Et-dT was converted to the corresponding 3'-phosphoramidite and used to incorporate N3-Et-dT at a single site in the oligonucleotide during synthesis by the phosphite triester method. The purified N3-Et-dT-containing oligomer was ligated to a second 17-mer to yield a 34-nucleotide template with N3-Et-dT present at position 26 from the 3'-end. The template DNA, which corresponds to a specific sequence at gene G of bacteriophage phi X174, was used to study the specificity of nucleotide incorporation opposite N3-Et-dT. At 10 microM dNTP and 5 mM Mg2+, N3-Et-dT blocked DNA synthesis by Escherichia coli polymerase I (Klenow fragment): 96% immediately 3' to N3-Et-dT and 4% after incorporation of a nucleotide opposite N3-Et-dT (incorporation-dependent blocked product). DNA replication past the lesion (postlesion synthesis) was negligible. Incorporation opposite N3-Et-dT increased with increased dNTP concentrations, reaching 35% at 200 microM. Postlesion synthesis remained negligible. DNA sequencing of the incorporation-dependent blocked product revealed that dA is incorporated opposite N3-Et-dT consistent with the "A" rule in mutagenesis. Formation of the N3-Et-dT.dA base pair at the 3'-end of the growing chain terminated DNA synthesis. These results implicate N3-Et-dT as a potentially cytotoxic lesion produced by ethylating agents.

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Cyclic AMP levels in relation to membrane phospholipid variations in Neurospora crassa

1983

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The correlation between membrane phospholipid composition and total cyclic AMP levels was investigated by using Neurospora lipid auxotrophs under various supplementation conditions. The lipid composition of the supplemented cultures was determined, and the intracellular and extracellular cyclic AMP levels were measured at various stages of the culture growth. Kinetic parameters and the thermostability of adenylate cyclase and of cyclic AMP-dependent phosphodiesterase were measured under all supplementation conditions. In inositol deficient inl cultures the levels of intracellular cyclic AMP decreased exponentially towards the end of the log phase and thereafter. In chol-l; chol-2 cultures, grown in N-monomethylethanolamine and low choline supplementation, the level of intracellular cyclic AMP decreased as function of decreasing exogenous choline supplement. Rates of cyclic AMP extrusion in all cultures were comparable on dry weight basis, and thus not affected by the mycelial lipid composition. Adenylate cyclase activity and thermostability decreased under those supplementation conditions resulting in reduction of cyclic AMP. Cyclic AMP-dependent phosphodiesterase was insensitive to phospholipid changes. Accordingly, it is suggested that specific perturbations in cellular phospholipid composition affect the membrane-bound adenylate cyclase and hence the cyclic AMP synthesis in vivo.

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Requirements of Δ9 and Δ12 fatty acid desaturation in Neurospora

Gabrielides

Hamill

Scott

1982

Biochimica et Biophysica Acta (BBA) - Lipids and Lipid Metaboli

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