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IMS Content
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Integrated Chemical Engineering Topics I: Introduction to Biocatalysis
OCW Master Course Number
10.492-2
Fall 2004
OCW_LOMv1.0
Author
Jones Prather, Kristala L.
2020-12-26
OCW_LOMv1.0
hasversion
URI
http://www.core.org.cn/OcwWeb/Chemical-Engineering/10-492-2Fall-2004/CourseHome/index.htm
OCW Course Topics
Science
Biology
Biochemistry
OCW Course Topics
Engineering
Chemical Engineering
Process Control Systems
OCW Course Topics
Engineering
Biological Engineering
Biomaterials
OCW Course Topics
Science
Chemistry
Organic Chemistry
contents/index.htm.xml
Integrated Chemical Engineering Topics I: Introduction to Biocatalysis
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Integrated Chemical Engineering Topics I: Introduction to Biocatalysis
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10-492-2f04.jpg
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10-492-2f04-th.jpg
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Syllabus
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Calendar
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Lecture Notes
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lecture1.pdf
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lecture8.pdf
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lecture2.pdf
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lecture3.pdf
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lecture4.pdf
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lecture9.pdf
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lecture6.pdf
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lecture5.pdf
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Assignments
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10_492_hw1.pdf
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10492_Homework__3.pdf
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10_492_hw2_fin.pdf
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Projects
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10_492desrepinst.pdf
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Legal Notices
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Privacy Statement
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Trademark Notices
contents/lecture-notes/lecture8.pdf.xml
contents/assignments/10_492_hw2_fin.pdf.xml
contents/lecture-notes/lecture6.pdf.xml
contents/lecture-notes/lecture4.pdf.xml
contents/index.htm.xml
contents/10-492-2f04.jpg.xml
contents/lecture-notes/lecture5.pdf.xml
contents/projects/index.htm.xml
contents/lecture-notes/index.htm.xml
contents/syllabus/index.htm.xml
contents/projects/10_492desrepinst.pdf.xml
contents/assignments/10492_Homework__3.pdf.xml
contents/assignments/index.htm.xml
contents/lecture-notes/lecture3.pdf.xml
contents/calendar/index.htm.xml
contents/10-492-2f04-th.jpg.xml
contents/assignments/10_492_hw1.pdf.xml
contents/lecture-notes/lecture9.pdf.xml
contents/lecture-notes/lecture2.pdf.xml
contents/lecture-notes/lecture1.pdf.xml
PK eQ~3! 10-492-2-fall-2004/ReadMe.txtThis zip package contains the HTML pages and files associated with the course.
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If you have any trouble using this package, please contact us at ocw@mit.edu .PK eQ%aD6 6 10-492-2-fall-2004/START.htm
MIT OpenCourseWare | Welcome
Welcome to MIT Open Course Ware. You will be automatically redirected to Home. If you aren not forwarded to the new page, Click here to access the home page of the downloaded Click Here
PK cQz/ / / 10-492-2-fall-2004/contents/10-492-2f04.jpg.xml
10-492-2f04.jpg
The Crystal Structure Of Bacillus Subtilis Lipase: A Minimal a/b Hydrolase Enzyme. PDB ID: 1I6W. van Pouderoyen, G., T. Eggert, K. E. Jaeger, B. W. Dijkstra: The crystal structure of Bacillus subtilis lipase: a minimal alpha/beta hydrolase fold enzyme. J. Mol. Biol. 309, issue 1 (May 25, 2001): 215-26. (Image courtesy of the Research Collaboratory for Structural Bioinformatics. H.M.Berman, J.Westbrook, Z.Feng, G.Gilliland, T.N.Bhat, H.Weissig, I.N.Shindyalov, P.E.Bourne The Protein Data Bank. Nucleic Acids Research, 28 pp. 235-242 (2000).)
en
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2020-12-26
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This site (c) Massachusetts Institute of Technology 2020. Content within individual courses is (c) by the individual authors unless otherwise noted. The Massachusetts Institute of Technology is providing this Work (as defined below) under the terms of this Creative Commons public license ("CCPL" or "license") unless otherwise noted. The Work is protected by copyright and/or other applicable law. Any use of the work other than as authorized under this license is prohibited. By exercising any of the rights to the Work provided here, You (as defined below) accept and agree to be bound by the terms of this license. The Licensor, the Massachusetts Institute of Technology, grants You the rights contained here in consideration of Your acceptance of such terms and conditions.
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ispartof
OCW Master Course Number
10.492-2 Integrated Chemical Engineering Topics I: Introduction to Biocatalysis Fall 2004
This course provides a brief introduction to the field of biocatalysis in the context of process design. Fundamental topics include why and when one may choose to use biological systems for chemical conversion, considerations for using free enzymes versus whole cells, and issues related to design and development of bioconversion processes. Biological and engineering problems are discussed as well as how one may arrive at both biological and engineering solutions.
CIP
140701
Chemical Engineering
biocatalysis
enzymes
enzyme kinetics
whole cell catalysts
biocatalytic processes
site-directed mutagenesis
cloning
enzyme performance
enzyme specificity
enzyme inhibition
enzyme toxicity
yield
enzyme instability
equilibrium reactions
product solubility
substrate solubility
PK cQ_e. e. ) 10-492-2-fall-2004/contents/index.htm.xml
Integrated Chemical Engineering Topics I: Introduction to Biocatalysis
This course provides a brief introduction to the field of biocatalysis in the context of process design. Fundamental topics include why and when one may choose to use biological systems for chemical conversion, considerations for using free enzymes versus whole cells, and issues related to design and development of bioconversion processes. Biological and engineering problems are discussed as well as how one may arrive at both biological and engineering solutions.
OCW Master Course Number
10.492-2
en
LOMv1.0
4
Fall 2004
OCW_LOMv1.0
Author
Jones Prather, Kristala L.
2020-12-26
2005/04/25 21:11:57 GMT-4
2012/07/20 07:46:50.937 GMT-4
/courses/chemical-engineering/10-492-2-integrated-chemical-engineering-topics-i-introduction-to-biocatalysis-fall-2004/index.htm
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LOMv1.0
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LOMv1.0
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LOMv1.0
Mozilla Firefox
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LOMv1.0
Browser
LOMv1.0
Internet Explorer
9.0
LOMv1.0
Browser
LOMv1.0
Edge
13.1
OCW_LOMv1.0
Undergraduate
LOMv1.0
yes
This site (c) Massachusetts Institute of Technology 2020. Content within individual courses is (c) by the individual authors unless otherwise noted. The Massachusetts Institute of Technology is providing this Work (as defined below) under the terms of this Creative Commons public license ("CCPL" or "license") unless otherwise noted. The Work is protected by copyright and/or other applicable law. Any use of the work other than as authorized under this license is prohibited. By exercising any of the rights to the Work provided here, You (as defined below) accept and agree to be bound by the terms of this license. The Licensor, the Massachusetts Institute of Technology, grants You the rights contained here in consideration of Your acceptance of such terms and conditions.
LOMv1.0
hasversion
URI
http://www.core.org.cn/OcwWeb/Chemical-Engineering/10-492-2Fall-2004/CourseHome/index.htm
Translation of 10.492-2 Fall 2004
CIP
140701
Chemical Engineering
biocatalysis
enzymes
enzyme kinetics
whole cell catalysts
biocatalytic processes
site-directed mutagenesis
cloning
enzyme performance
enzyme specificity
enzyme inhibition
enzyme toxicity
yield
enzyme instability
equilibrium reactions
product solubility
substrate solubility
PK cQR@ @ . 10-492-2-fall-2004/contents/10-492-2f04-th.jpg Exif II* Ducky d zhttp://ns.adobe.com/xap/1.0/