The prototypic class Ia ribonucleotide reductase from Escherichia coli: still surprising after all these years

RNRs (ribonucleotide reductases) are key players in nucleic acid metabolism, converting ribonucleotides into deoxyribonucleotides. As such, they maintain the intracellular balance of deoxyribonucleotides to ensure the fidelity of DNA replication and repair. The best-studied RNR is the class Ia enzym...

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Bibliographic Details
Main Authors: Ando, Nozomi (Contributor), Zimanyi, Christina Marie (Contributor), Brignole, Edward J (Author), Drennan, Catherine L (Author)
Other Authors: Massachusetts Institute of Technology. Department of Biology (Contributor), Massachusetts Institute of Technology. Department of Chemistry (Contributor), Drennan, Catherine L. (Contributor), Brignole, Edward J. (Contributor)
Format: Article
Language:English
Published: Portland Press, 2012-10-15T15:24:54Z.
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100 1 0 |a Ando, Nozomi  |e author 
100 1 0 |a Massachusetts Institute of Technology. Department of Biology  |e contributor 
100 1 0 |a Massachusetts Institute of Technology. Department of Chemistry  |e contributor 
100 1 0 |a Drennan, Catherine L.  |e contributor 
100 1 0 |a Drennan, Catherine L.  |e contributor 
100 1 0 |a Brignole, Edward J.  |e contributor 
100 1 0 |a Ando, Nozomi  |e contributor 
100 1 0 |a Zimanyi, Christina Marie  |e contributor 
700 1 0 |a Zimanyi, Christina Marie  |e author 
700 1 0 |a Brignole, Edward J  |e author 
700 1 0 |a Drennan, Catherine L  |e author 
245 0 0 |a The prototypic class Ia ribonucleotide reductase from Escherichia coli: still surprising after all these years 
260 |b Portland Press,   |c 2012-10-15T15:24:54Z. 
856 |z Get fulltext  |u http://hdl.handle.net/1721.1/73962 
520 |a RNRs (ribonucleotide reductases) are key players in nucleic acid metabolism, converting ribonucleotides into deoxyribonucleotides. As such, they maintain the intracellular balance of deoxyribonucleotides to ensure the fidelity of DNA replication and repair. The best-studied RNR is the class Ia enzyme from Escherichia coli, which employs two subunits to catalyse its radical-based reaction: β2 houses the diferric-tyrosyl radical cofactor, and α2 contains the active site. Recent applications of biophysical methods to the study of this RNR have revealed the importance of oligomeric state to overall enzyme activity and suggest that unprecedented subunit configurations are in play. Although it has been five decades since the isolation of nucleotide reductase activity in extracts of E. coli, this prototypical RNR continues to surprise us after all these years. 
520 |a National Institutes of Health (U.S.) (T32GM08334) 
520 |a Howard Hughes Medical Institute (Investigator) 
520 |a National Institutes of Health (U.S.) (F32GM904862) 
520 |a National Institutes of Health (U.S.) (K99GM100008) 
520 |a National Institutes of Health (U.S.) (F32DK080622) 
520 |a National Institutes of Health (U.S.) (P30-ES002109) 
546 |a en_US 
655 7 |a Article 
773 |t Biochemical Society Transactions