Sulfonate derived phosphoramidates as active intermediates in the enzymatic primer-extension of DNA | Zendy

Swarup De | Zendy; Elisabetta Groaz | Zendy; Lia Margamuljana | Zendy; Mikhail Abramov | Zendy; Philippe Marlière | Zendy; Piet Herdewijn | Zendy

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Sulfonate derived phosphoramidates as active intermediates in the enzymatic primer-extension of DNA

Author(s) -

Swarup De,

Elisabetta Groaz,

Lia Margamuljana,

Mikhail Abramov,

Philippe Marlière,

Piet Herdewijn

Publication year - 2015

Publication title -

organic and biomolecular chemistry

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.923

H-Index - 146

eISSN - 1477-0539

pISSN - 1477-0520

DOI - 10.1039/c5ob00157a

Subject(s) - phosphoramidate , chemistry , primer extension , primer (cosmetics) , thermophile , nucleoside , enzyme , dna , extension (predicate logic) , polymerase , dna polymerase , biochemistry , combinatorial chemistry , organic chemistry , base sequence , computer science , programming language

Novel unnatural 5'-phosphoramidate nucleosides, capable of being processed as substrates by DNA polymerases for multiple nucleotide incorporations, have been designed. The mimics feature metabolites such as taurine and a broad range of aliphatic sulfonates coupled through a P-N bond to the 5'-phosphate position of deoxynucleotides, to allow binding interactions in the enzyme active site. The utility of all of the analogues as pyrophosphate mimics was demonstrated for the chain elongation of DNA, using both thermophilic and mesophilic microbial polymerases.

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