The second EMBO conference on 'Catalytic Mechanisms by Biological Systems' took place in Groningen, the Netherlands, in October 2012. Structural, molecular and computational biologists, as well as chemists, biophysicists and engineers discussed technologies to improve our mechanistic understanding of enzymes, as well as the design of robust biocatalysts
© 2017 Dr. Mitchell David NothlingEnzymes are truly remarkable natural catalysts, and their use in i...
Enzymes are biocatalysts evolved in nature to achieve the speed and coordination of nearly all the c...
Not satisfied with nature’s vast enzyme repertoire, we want to create new ones and expand the space ...
Research on enzyme mechanisms is advancing knowledge of the chemistry and biochemistry of catalytic ...
Present state of research on expanding enzyme catalysis beyond nature For more than twenty years thi...
Evolution has crafted thousands of enzymes that are efficient catalysts for a plethora of reactions....
Not satisfied with nature's vast catalyst repertoire, we want to create new protein catalysts and ex...
The “8th International Congress on Biocatalysis (biocat2016)” is part of a biennial conference serie...
Nature provides a fantastic array of catalysts extremely well suited to supporting life, but usually...
Nature has been a perpetual source of inspiration for biochemists. It is not only the vast diversity...
Recent emphasis on using biomass as raw materials for the production of fuels and chemicals instead ...
This PhD thesis describes research in the field of biocatalysis. We use enzymes, i.e. proteins that ...
Biocatalysis has established itself as a vital tool in the chemical and pharmaceutical industries. H...
In the last few decades, catalyzed organic and bioorganic reactions have attracted much ...
This lecture will describe recent work from our laboratory aimed at developing new biocatalysts for ...
© 2017 Dr. Mitchell David NothlingEnzymes are truly remarkable natural catalysts, and their use in i...
Enzymes are biocatalysts evolved in nature to achieve the speed and coordination of nearly all the c...
Not satisfied with nature’s vast enzyme repertoire, we want to create new ones and expand the space ...
Research on enzyme mechanisms is advancing knowledge of the chemistry and biochemistry of catalytic ...
Present state of research on expanding enzyme catalysis beyond nature For more than twenty years thi...
Evolution has crafted thousands of enzymes that are efficient catalysts for a plethora of reactions....
Not satisfied with nature's vast catalyst repertoire, we want to create new protein catalysts and ex...
The “8th International Congress on Biocatalysis (biocat2016)” is part of a biennial conference serie...
Nature provides a fantastic array of catalysts extremely well suited to supporting life, but usually...
Nature has been a perpetual source of inspiration for biochemists. It is not only the vast diversity...
Recent emphasis on using biomass as raw materials for the production of fuels and chemicals instead ...
This PhD thesis describes research in the field of biocatalysis. We use enzymes, i.e. proteins that ...
Biocatalysis has established itself as a vital tool in the chemical and pharmaceutical industries. H...
In the last few decades, catalyzed organic and bioorganic reactions have attracted much ...
This lecture will describe recent work from our laboratory aimed at developing new biocatalysts for ...
© 2017 Dr. Mitchell David NothlingEnzymes are truly remarkable natural catalysts, and their use in i...
Enzymes are biocatalysts evolved in nature to achieve the speed and coordination of nearly all the c...
Not satisfied with nature’s vast enzyme repertoire, we want to create new ones and expand the space ...
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