By Lemuel B. Wingard Jr. (auth.), E. Kendall Pye, Lemuel B. Wingard Jr. (eds.)
Considerable around the world curiosity has arisen in recent times within the managed use of enzymes as catalysts in commercial processing, analytical chemistry and clinical treatment. This curiosity has genera ted the hot interdisciplinary box of Enzyme Engineering, along with either the medical and technologic features of the produc tion, purification, immobilization, and alertness of enzymes in various occasions and reactor configurations. a sequence of Engineering starting place meetings on Enzyme Engineering was once initia ted to supply a world discussion board for the trade of rules and knowledge over the complete diversity of this new box. the exceptional good fortune of the 1st meetings attests to the vigour and poten tial of this box to give a contribution considerably to a greater below status and determination of a few of the foremost difficulties confronted by way of guy sort. the 1st convention, which was once held August 9-13, 1971, at Henniker, New Hampshire, U. S. A. , aided considerably in molding different conventional disciplines that have interaction to shape the sector of Enzyme Engineering. The convention used to be hugely profitable normally simply because a few of the key scientists and engineers from the various features of Enzyme Engineering have been introduced jointly for the 1st time at a unmarried residential assembly. the end result was once an trade of rules and "education" of each other within the pertinent rules of the various disciplines which give a contribution to this box. the second one convention, held August 5-10, 1973, at Henniker, New Hampshire, U. S. A.
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Z7:140, 1967. 17. B. C. J. CZin. Invest. 48:1740, 1969. 18. L. D. Br~t. J. Haemat. 23:157, 1972. 19. R. D. Nature~ 2Z3:1146, 1967. 20. SZABO, M. & BURKE, G. Biochim. Biophys. Acta 284:208, 1972. 21. M. S. Biochemistry ZZ:4187, 1972. 22. KUTZBACH, C. & SCHMIDT-KASTNER, G. Hoppe-SeyZer's Z. physioZ. Chern. 353: 1099, 1972. 23. F. C. Biochim. Biophys. Acta 276:425, 1972. 24. W. A. , Saunders, Philadelphia, 1970. 25. L. E. J. BioZ. Chern. 248:3426, 1973. 26. D. S. BiotechnoZ. Bioeng. Z5:271, 1973. 27.
19. R. D. Nature~ 2Z3:1146, 1967. 20. SZABO, M. & BURKE, G. Biochim. Biophys. Acta 284:208, 1972. 21. M. S. Biochemistry ZZ:4187, 1972. 22. KUTZBACH, C. & SCHMIDT-KASTNER, G. Hoppe-SeyZer's Z. physioZ. Chern. 353: 1099, 1972. 23. F. C. Biochim. Biophys. Acta 276:425, 1972. 24. W. A. , Saunders, Philadelphia, 1970. 25. L. E. J. BioZ. Chern. 248:3426, 1973. 26. D. S. BiotechnoZ. Bioeng. Z5:271, 1973. 27. C. K. Science Z6Z:1371, 1968. 28. , CHARDONNET, Y. & AURAY, J. r. Soc. BioZ. U5: 2113, 1971. 29.
G. 165th Nat1. Meeting Am. Chem. , Dallas, Texas, April 8-13, 1973. 3. A. C. Biochemistr-y 6:1460, 1967. 4. A. S. J. Am. Chern. Soc. 78:2649, 1956. 5. A. & SMITH, H. Nature l82:668, 1958. 6. A. Biochim. Biophys. Acta 25:426, 1957. 7. A. & SMITH, H. Biochem. J. 84:80,1962. 8. W. P. Proc. 3rd Conf. , November 4-7, 1973. PURIFICATION OF UROKINASE BY AFFINITY CHROMATOGRAPHY T. K. K. Pye Biochemistry Department, School of Medicine University of Pennsylvania Philadelphia, Pennsylvania Since its discovery in human urine in 1951 (1) the plasminogen activating enzyme, urokinase, has caused considerable speculation concerning its therapeutic value as an effective thrombolytic agent (2).