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Chemistry & Biology
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February 25, 2014
How to break the rules of dioxygen activation
Timothy D H Bugg
Bioorganic Chemistry
|
September 24, 2004
Diverse catalytic activities in the alphabeta-hydrolase family of enzymes: activation of H2O, HCN, H2O2, and O2
Timothy D H Bugg
Bioorganic Chemistry
|
May 27, 2014
Editorial: Antibacterial targets for the 21st century
Timothy D H Bugg
Chemical Communications (Cambridge, England)
|
January 2, 2024
The chemical logic of enzymatic lignin degradation
Timothy D H Bugg
Nature Chemistry
|
December 19, 2012
Biosynthesis: imaging cell-wall biosynthesis live
Timothy D H Bugg
Structure (London, England : 1993)
|
July 17, 2009
Oxygenases get to grips with polypeptides
Timothy D H Bugg
Current Opinion in Chemical Biology
|
July 1, 2015
Enzymatic conversion of lignin into renewable chemicals
Timothy D H Bugg, Rahman Rahmanpour
Journal of the American Chemical Society
|
July 17, 2008
Evidence from mechanistic probes for distinct hydroperoxide rearrangement mechanisms in the intradiol and extradiol catechol dioxygenases
Meite Xin, Timothy D H Bugg
Archives of Biochemistry and Biophysics
|
January 7, 2015
Characterisation of Dyp-type peroxidases from Pseudomonas fluorescens Pf-5: Oxidation of Mn(II) and polymeric lignin by Dyp1B
Rahman Rahmanpour, Timothy D H Bugg
Current Opinion in Chemical Biology
|
February 6, 2008
Non-heme iron-dependent dioxygenases: unravelling catalytic mechanisms for complex enzymatic oxidations
Timothy D H Bugg, S Ramaswamy
Page
of 14
Search research articles
Search
Showing results (1-10 of 133) with videos related to
Sort By:
Page
of 14
Chemistry & Biology
|
February 25, 2014
How to break the rules of dioxygen activation
Timothy D H Bugg
Bioorganic Chemistry
|
September 24, 2004
Diverse catalytic activities in the alphabeta-hydrolase family of enzymes: activation of H2O, HCN, H2O2, and O2
Timothy D H Bugg
Bioorganic Chemistry
|
May 27, 2014
Editorial: Antibacterial targets for the 21st century
Timothy D H Bugg
Chemical Communications (Cambridge, England)
|
January 2, 2024
The chemical logic of enzymatic lignin degradation
Timothy D H Bugg
Nature Chemistry
|
December 19, 2012
Biosynthesis: imaging cell-wall biosynthesis live
Timothy D H Bugg
Structure (London, England : 1993)
|
July 17, 2009
Oxygenases get to grips with polypeptides
Timothy D H Bugg
Current Opinion in Chemical Biology
|
July 1, 2015
Enzymatic conversion of lignin into renewable chemicals
Timothy D H Bugg, Rahman Rahmanpour
Journal of the American Chemical Society
|
July 17, 2008
Evidence from mechanistic probes for distinct hydroperoxide rearrangement mechanisms in the intradiol and extradiol catechol dioxygenases
Meite Xin, Timothy D H Bugg
Archives of Biochemistry and Biophysics
|
January 7, 2015
Characterisation of Dyp-type peroxidases from Pseudomonas fluorescens Pf-5: Oxidation of Mn(II) and polymeric lignin by Dyp1B
Rahman Rahmanpour, Timothy D H Bugg
Current Opinion in Chemical Biology
|
February 6, 2008
Non-heme iron-dependent dioxygenases: unravelling catalytic mechanisms for complex enzymatic oxidations
Timothy D H Bugg, S Ramaswamy
Page
of 14