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Accounts of Chemical Research, 1983
AbstractFor Abstract see ChemInform Abstract in Full Text.
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AbstractFor Abstract see ChemInform Abstract in Full Text.
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1955
Publisher Summary The chapter discusses the zinc and metalloenzymes. Two groups of proteins that associate with metals can be differentiated. Members of each group may or may not possess known enzymatic activities.In one group, the metalloproteins, a given metal is combined with the protein in a unique manner, such that the two can be thought of as ...
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Publisher Summary The chapter discusses the zinc and metalloenzymes. Two groups of proteins that associate with metals can be differentiated. Members of each group may or may not possess known enzymatic activities.In one group, the metalloproteins, a given metal is combined with the protein in a unique manner, such that the two can be thought of as ...
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Surprising cofactors in metalloenzymes
Current Opinion in Structural Biology, 2003Transition metal complexes are located at the active sites of a number of enzymes involved in intriguing biochemical reactions. These complexes can exhibit a wide variety of chemical reactivity due to the ease at which transition metals can adopt different coordination environments and oxidation states. Crystallography has been a powerful technique for
Catherine L, Drennan, John W, Peters
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Thermolysin: A zinc metalloenzyme
Biochemical and Biophysical Research Communications, 1969Abstract Metal analyses and inhibitor studies have shown that thermolysin, a neutral protease from B. thermoproteolyticus , is a zinc metalloenzyme. The relevance of this finding to the active site characteristics of other bacterial neutral proteases and to those of alkaline proteases is considered.
S A, Latt, B, Holmquist, B L, Vallee
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2017
While chemists are developing confined environments for catalysis, nature has evolved highly elaborate compartments to carry out reactions. Proteins offer such catalytic nano-environments that accept specific substrates to yield highly enantioenriched products.
Trindler, Christian, Ward, Thomas R.
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While chemists are developing confined environments for catalysis, nature has evolved highly elaborate compartments to carry out reactions. Proteins offer such catalytic nano-environments that accept specific substrates to yield highly enantioenriched products.
Trindler, Christian, Ward, Thomas R.
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1995
This chapter explores more metalloenzymes, considering the enzymatic activity of zinc, cobalt, and molybdenum. Zinc is the second most abundant trace element in humans and is required as an integral component of over 100 enzymes in different species of all phyla.
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This chapter explores more metalloenzymes, considering the enzymatic activity of zinc, cobalt, and molybdenum. Zinc is the second most abundant trace element in humans and is required as an integral component of over 100 enzymes in different species of all phyla.
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Cobalt Substituted Zinc Metalloenzymes
1973It has taken a long time, indeed, for biochemical research on metals to become respectable. Substantial experimental difficulties have beset the field for a long time and overenthusiastic claims, at times based on uncertain facts, were not altogether reassuring to the rank and file of interested biochemists.
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