Abstract
Charles F. Yocum has been a leader in the applications of biochemical techniques to the resolution and reconstitution of Photosystem II. His formal science education began as an undergraduate in biochemistry at Iowa State University and continued with graduate work in photosynthesis, first at the Illinois Institute of Technology and later at Indiana University. Following postdoctoral work at Cornell University, he joined the faculty of the University of Michigan where he has remained throughout his academic career. Charlie's contributions to a biochemical understanding of photosynthesis, particularly Photosystem II have been considerable, but most notably include his initial isolation of the first highly active oxygen-evolving particle from higher plant chloroplasts, the well-known and widely utilized `BBY particles'. In the aftermath of that isolation, Charlie's research further resolved these particles into ever finer and simpler, but active, Photosystem II complexes. In addition, Charlie's research has provided significant insight into the roles of both Cl− and Ca2+ as required cofactors in photosynthetic oxygen evolution.
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References
Berthold DA, Babcock GT and Yocum CF (1981) A highly resolved, oxygen-evolving Photosystem II preparation from spinach thylakoid membranes. FEBS Lett 134: 231-234
Ghanotakis DF and Yocum CF (1986) Purification and properties of an oxygen-evolving reaction center complex from Photosystem II membranes. FEBS Lett 197: 244-248
Ghanotakis DF, Babcock GT and Yocum CF (1984a) Calcium reconstitutes high rates of oxygen evolution in polypeptide depleted Photosystem II preparations. FEBS Lett 167: 127-130
Ghanotakis DF, Topper JN, Babcock GT and Yocum CF (1984b) Water-soluble 17 and 23 kDa polypeptides restore oxygen evolution activity by creating a high-affinity binding site for Ca+2 on the oxidizing side of Photosystem II. FEBS Lett 170: 169-173
Sandusky PO and Yocum CF (1983) The mechanism of amine inhibition of the photosynthetic oxygen-evolving complex. Amines displace functional chloride from a ligand site on manganese. FEBS Lett 162: 339-343
Sandusky PO and Yocum CF (1984) The chloride requirement for photosynthetic oxygen evolution. Analysis of the effects of chloride and other anions on amine inhibition of the oxygen evolving complex. Biochim Biophys Acta 766: 603-611
Sandusky PO and Yocum CF (1986) The chloride requirement for photosynthetic oxygen evolution: factors affecting nucleophilic displacement of chloride from the oxygen-evolving complex. Biochim Biophys Acta 849: 85-93
Yocum CF (1992) The calcium and chloride requirements for photosynthetic water oxidation. In: Pecoraro VL (ed) Manganese Redox Enzymes, pp 71-83. VCH Publishers, New York
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Siedow, J.N. A biographical sketch of Charles F. Yocum: “It's the biochemistry, stupid”. Photosynthesis Research 72, 125–130 (2002). https://doi.org/10.1023/A:1016184717683
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DOI: https://doi.org/10.1023/A:1016184717683