It was this set of observations that led me in the 1953 paper to

It was this set of observations that led me in the 1953 paper to a discussion of the relative binding and function of these metal ions

in biological systems. It was obvious to Bert and myself that there was an anomaly. Copper was the element which could bind most strongly yet zinc was preferred to the exclusion of copper in at least three then known proteins, for example carboxypeptidase. To start our collaboration Bert invited me to join him in his laboratory in the Peter Bent Brigham Hospital, Harvard Medical School for the three summer months in 1956. Let me say now that it was in fair part through this visit and that of a later year http://www.selleckchem.com/products/VX-809.html in Bert’s laboratory, 1966–67, that I was able to increase ABT-199 chemical structure my knowledge of biology, especially human biology but also to attend lectures in biochemistry, especially as it related to humans. It was Bert’s strength that he had studied both chemistry and medicine. His main interest was in zinc in health and disease as affected by metal ions which led him into the field of zinc biochemistry. My own objectives from before 1944 were to discover the roles

of metal ions in all organisms and the principles lying behind these roles. Our work together in 1956 was on the inhibition of both carboxypeptidase and the next zinc enzyme he analysed, alcohol dehydrogenase. The purposes of the work were twofold. His interest was the role of inhibition of these enzymes with possible implication for the use of drugs in medicine, whilst mine was the principles behind the observations on reagent-binding to metallo-enzymes. A series of papers was published illustrating differences between equilibrium and kinetic effects [7], [8], [9] and [10]. At the same time we started a study of metal ion substitution in these enzymes. The measurements of equilibrium constants for the different metal ions binding to carboxypeptidase

gave the same series as the Irving-Williams series. The observed gradient along the series led us, and here I must take the blame, to propose that zinc was in part bound to a thiol, cysteine, in the enzyme [11] and [12]. Lipscomb showed later by X-ray crystal structure analysis that this deduction second was incorrect [13]. For some reason Vallee remained unconvinced and hence he lost Lipscomb as an ally. However it left the puzzle that copper bound the enzyme more strongly than zinc but was not preferred in the enzyme in vivo. We had also observed that on substitution the enzymes, especially the copper and cobalt substituted carboxypeptidase, had quite striking spectroscopic properties. Finally we noted that there was peptidase activity all along the series of metal ions except for copper. On returning to Oxford in 1956 I decided to look at the simple reaction of carbonic anhydrase and the properties of this enzyme.

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