Chemical Primer Extension at Submillimolar Concentration of Deoxynucleotides

Chemical Primer Extension at Submillimolar Concentration of Deoxynucleotides

Template-directed primer extension usually requires a polymerase, nucleoside triphosphates, and magnesium ions as cofactors. Enzyme-free, chemical primer extensions are known for preactivated nucleotides at millimolar concentrations. Based on a screen of carbodiimides, heterocyclic catalysts, and re...

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Veröffentlicht in:Journal of organic chemistry 2010-06, Vol.75 (12), p.3945-3952
Hauptverfasser: Röthlingshöfer, Manuel, Richert, Clemens
Format: Artikel
Sprache:eng
Schlagworte:
Base Sequence
Carbodiimides - chemistry
Carbohydrates. Nucleosides and nucleotides
Catalysis
Catalysts: preparations and properties
Chemistry
Deoxyribonucleotides - chemical synthesis
Deoxyribonucleotides - chemistry
DNA Primers
Exact sciences and technology
General and physical chemistry
Heterocyclic compounds
Heterocyclic compounds with several n hetero atoms in the same ring, in separated rings or in fused rings
Kinetics and mechanisms
Microchemistry
Molecular Sequence Data
Molecular Structure
Nucleosides, nucleotides and oligonucleotides
Organic chemistry
Preparations and properties
Reactivity and mechanisms
Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
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Zusammenfassung:Template-directed primer extension usually requires a polymerase, nucleoside triphosphates, and magnesium ions as cofactors. Enzyme-free, chemical primer extensions are known for preactivated nucleotides at millimolar concentrations. Based on a screen of carbodiimides, heterocyclic catalysts, and reactions conditions, we now show that near-quantitative primer conversion can be achieved at submillimolar concentration of any of the four deoxynucleotides (dAMP, dCMP, dGMP and dTMP). The new protocol relies on in situ activation with EDC and 1-methylimidazole and a magnesium-free buffer that was tested successfully for different sequence motifs. The method greatly simplifies chemical primer extension assays, further reduces the cost of such assays, and demonstrates the potential of the in situ activation approach.
ISSN:0022-3263
1520-6904
DOI:10.1021/jo1002467