Structural and mechanistic conservation in DNA ligases
AJ Doherty, SW Suh - Nucleic acids research, 2000 - academic.oup.com
Nucleic acids research, 2000•academic.oup.com
DNA ligases are enzymes required for the repair, replication and recombination of DNA.
DNA ligases catalyse the formation of phosphodiester bonds at single-strand breaks in
double-stranded DNA. Despite their occurrence in all organisms, DNA ligases show a wide
diversity of amino acid sequences, molecular sizes and properties. The enzymes fall into two
groups based on their cofactor specificity, those requiring NAD+ for activity and those
requiring ATP. The eukaryotic, viral and archael bacteria encoded enzymes all require ATP …
DNA ligases catalyse the formation of phosphodiester bonds at single-strand breaks in
double-stranded DNA. Despite their occurrence in all organisms, DNA ligases show a wide
diversity of amino acid sequences, molecular sizes and properties. The enzymes fall into two
groups based on their cofactor specificity, those requiring NAD+ for activity and those
requiring ATP. The eukaryotic, viral and archael bacteria encoded enzymes all require ATP …
Abstract
DNA ligases are enzymes required for the repair, replication and recombination of DNA. DNA ligases catalyse the formation of phosphodiester bonds at single-strand breaks in double-stranded DNA. Despite their occurrence in all organisms, DNA ligases show a wide diversity of amino acid sequences, molecular sizes and properties. The enzymes fall into two groups based on their cofactor specificity, those requiring NAD+ for activity and those requiring ATP. The eukaryotic, viral and archael bacteria encoded enzymes all require ATP. NAD+-requiring DNA ligases have only been found in prokaryotic organisms. Recently, the crystal structures of a number of DNA ligases have been reported. It is the purpose of this review to summarise the current knowledge of the structure and catalytic mechanism of DNA ligases.
Oxford University Press