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6 in total

1. Why Nature Uses Radical SAM Enzymes so Widely: Electron Nuclear Double Resonance Studies of Lysine 2,3-Aminomutase Show the 5'-dAdo• "Free Radical" Is Never Free.

Authors: Masaki Horitani; Amanda S Byer; Krista A Shisler; Tilak Chandra; Joan B Broderick; Brian M Hoffman
Journal: J Am Chem Soc Date: 2015-05-19 Impact factor: 15.419

Review 2. Large-scale domain motions and pyridoxal-5'-phosphate assisted radical catalysis in coenzyme B12-dependent aminomutases.

Authors: Amarendra Nath Maity; Yung-Han Chen; Shyue-Chu Ke
Journal: Int J Mol Sci Date: 2014-02-20 Impact factor: 5.923

3. A mechanochemical switch to control radical intermediates.

Authors: Elizabeth Brunk; Whitney F Kellett; Nigel G J Richards; Ursula Rothlisberger
Journal: Biochemistry Date: 2014-06-06 Impact factor: 3.162

4. Paramagnetic intermediates generated by radical S-adenosylmethionine (SAM) enzymes.

Authors: Troy A Stich; William K Myers; R David Britt
Journal: Acc Chem Res Date: 2014-07-03 Impact factor: 22.384

5. Dynamic, electrostatic model for the generation and control of high-energy radical intermediates by a coenzyme B₁₂-dependent enzyme.

Authors: Zhi-Gang Chen; Monika A Ziętek; Henry J Russell; Shirley Tait; Sam Hay; Alex R Jones; Nigel S Scrutton
Journal: Chembiochem Date: 2013-08-19 Impact factor: 3.164

6. Structure-Based Demystification of Radical Catalysis by a Coenzyme B₁₂ Dependent Enzyme-Crystallographic Study of Glutamate Mutase with Cofactor Homologues.

Authors: Karl Gruber; Vanessa Csitkovits; Andrzej Łyskowski; Christoph Kratky; Bernhard Kräutler
Journal: Angew Chem Int Ed Engl Date: 2022-07-21 Impact factor: 16.823