University of North Florida
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Stuart Chalk, Ph.D.
Department of Chemistry
University of North Florida
Phone: 1-904-620-1938
Fax: 1-904-620-3535
Email: schalk@unf.edu
Website: @unf

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Biotechnology Advances

  • Publisher: Elsevier
  • FAD Code: BTAD
  • CODEN: BIADDD
  • ISSN: 0734-9750
  • Abbreviation: Biotechnol. Adv.
  • DOI Prefix: 10.1016/j.biotechadv,10.1016/0734-9750
  • Language: English
  • Comments: Fulltext from 1983 V1

Citations 2

"Know-how And Know-why In Biochemical Engineering"
Biotechnol. Adv. 2003 Volume 21, Issue 5 Pages 417-430
U. von Stockar, S. Valentinotti, I. Marison, C. Cannizzaro and C. Herwig

Abstract: This contribution analyzes the position of biochemical engineering in general and bioprocess engineering particularly in the force fields between fundamental science and applications, and between academia and industry. By using culture technology as an example, it can be shown that bioprocess engineering has moved slowly but steadily from an empirical art concerned with mainly know-how to a science elucidating the know-why of culture behavior. Highly powerful monitoring tools enable biochemical engineers to understand and explain quantitatively the activity of cellular culture on a metabolic basis. Among these monitoring tools are not just semi-online analyzes of culture broth by HPLC, GC and FIA, but, increasingly, also noninvasive methods such as midrange IR, Raman and capacitance spectroscopy, as well as online calorimetry. The detailed and quantitative insight into the metabolome and the fluxome that bioprocess engineers are establishing offers an unprecedented opportunity for building bridges between molecular biology and engineering biosciences. Thus, one of the major tasks of biochemical engineering sciences is not developing new know-how for industrial applications, but elucidating the know-why in biochemical engineering by conducting research on the underlying scientific fundamentals.

"Natural Silk Fibroin As A Support For Enzyme Immobilization"
Biotechnol. Adv. 1998 Volume 16, Issue 5-6 Pages 961-971
Yu-Qing Zhang

Abstract: A review with 40 references. Silk fibroin derived from Bombyx mori cocoon is being developed and utilized for purposes besides traditional textile material. Fibroin can be easily made up into various forms, several of which can serve as enzyme-immobilized supports. There are numerous reports on immobilized enzymes using these forms of silk fibroin as supports in which the enzyme-immobilized fibroin membranes were characterized in detail by means of spectrophotometry, IR spectra, NMR, ESR. Enzyme-immobilized fibroin membranes have been successfully used in several biosensors for the determinations of glucose, hydrogen peroxide and uric acid in which glucose and urate biosensors in a flow injection system were able rapidly to analyze various biosamples including human whole blood or serum.
Glucose Hydrogen peroxide Uric acid Serum Human Whole Human Sensor Review Silk fibroin membrane Immobilized enzyme