Thermal cyclization of nonconjugated aryl-yne-carbodiimide furnishing a dibenzonaphthyridine derivative.
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The reagent-free C(2)-C(7) thermal cyclization of a nonconjugated aryl-yne-carbodiimide yielded a dibenzo[b,g][1,8]naphthyridine derivative, whose congeners are known to possess fascinating pharmacological properties. This is the first heteroaromatic compound prepared by the thermal cycloaromatization of "nonconjugated" aryl-ynes. (+info)
Superoxide oxidase and reductase activity of cytochrome b559 in photosystem II.
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Annulation of thioimidates and vinyl carbodiimides to prepare 2-aminopyrimidines, competent nucleophiles for intramolecular alkyne hydroamination. Synthesis of (-)-crambidine.
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Effect of chemical modification of supercoiled simian virus 40 DNA on the rate of in vitro transcription.
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Superhelical simian virus 40 FI DNA could be modified with the single-strand-specific reagent N-cyclohexyl-N'-beta-(4-methylmorpholinium)ethylcarbodiimide (CMC). A limited reaction, of less than 2% of the base pairs, resulted in almost total inhibition of in vitro transcription by DNA-dependent RNA polymerase from Escherichia coli. This effect was shown to be due to DNA modification and not to inhibition of polymerase activity by the reagent. Inhibition of enzyme activity occurred if the contaminating reagent was not absorbed with another protein before polymerase addition. No inhibition was observed when DNA and polymerase were incubated together to allow the formation of pre-initiation complexes before CMC was added. Studies of template saturation with polymerase showed that the inhibition of transcription by DNA modification was due to a loss of binding ability of the enzyme to the reacted, supercoiled DNA when reaction times of less than 2 h were used. (+info)
Immobilization of peptides with distinct biological activities onto stem cell culture substrates using orthogonal chemistries.
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A single base mutation in type I procollagen (COL1A1) that converts glycine alpha 1-541 to aspartate in a lethal variant of osteogenesis imperfecta: detection of the mutation with a carbodiimide reaction of DNA heteroduplexes and direct sequencing of products of the PCR.
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Skin fibroblasts from a proband with a lethal variant of osteogenesis imperfecta synthesized both apparently normal type I procollagen and a type I procollagen that had slow electrophoretic mobility because of posttranslational overmodifications. The thermal unfolding of the collagen molecules as assayed by protease digestion was about 2 degrees C lower than normal. It is surprising, however, that collagenase A and B fragments showed an essentially normal melting profile. Assay of cDNA heteroduplexes with a new technique involving carbodiimide modification indicated a mutation at about the codon for amino acid 550 of the alpha 1(I) chain. Subsequent amplification of the cDNA by the PCR and nucleotide sequencing revealed a single-base mutation that substituted an aspartate codon for glycine at position alpha 1-541 in the COL1A1 gene. The results here confirm previous indications that the effects of glycine substitutions in type I procollagen are highly position specific. They also demonstrate that a recently described technique for detecting single-base differences by carbodiimide modification of DNA heteroduplexes can be effectively employed to locate mutations in large genes. (+info)