Content: Immobilized microbial cells in complex biocatalysis / Wolf R. Vieth and K. Venkatsubramanian --
Pore dimensions for accumulating biomass / R.A. Messing, R.A. Oppermann, and F.B. Kolot --
The biophysics of cellular adhesion / D.F. Gerson and J.E. Zajic --
Production of antibiotics and enzymes by immobilized whole cells / Shuichi Suzuki and Isao Karube --
Denitrification and removal of heavy metals from waste water by immobilized microorganisms / J. Holló, J. Tóth, R.P. Tengerdy, and J.E. Johnson --
Synthesis of coenzyme A by immobilized bacterial cells / Sakayu Shimizu, Yoshiki Tani, and Hideaki Yamada --
Phenol degradation by Candida tropicalis whole cells entrapped in polymeric ionic networks / J. Klein, U. Hackel, and F. Wagner --
Facile methods for the immobilization of microbial cells without disruption of their life processes / J.F. Kennedy --
Enzymatic synthesis of pantothenic acid by Escherichia coli cells / Y. Kawabata and A.L. Demain --
The use of whole cell immobilization for the production of glucose isomerase / Stephen J. Bungard, Roger Reagan, Peter J. Rodgers, and Kevin R. Wyncoll --
Temperature dependence of the stability and the activity of immobilized glucose isomerase / J.A. Roels and R. Van Tilberg --
Evaluation of a novel microporous PVC-silica support for immobilized enzymes : its use in a flow-through reactor system for production of fructose / Bruce S. Goldberg, Alexander G. Hausser, Kevin R. Gilman, and Richard Y. Chen --
Immobilized microbial cells with polyacrylamide gel and carrageenan and their industrial applications / Ichiro Chibata --
Application of immobilized whole cells in analysis / Bo Mattiasson --
Microbial electrode sensors for cephalosporins and glucose / Shuichi Suzuki and Isao Karube --
Hollow fiber entrapped microsomes as a liver assist device in drug overdose treatment / P.R. Kastl, W.H. Baricos, W. Cohen, and R.P. Chambers.
Author(s): K. Venkatsubramanian (Eds.)
Series: ACS Symposium Series 106
Publisher: American Chemical Society
Year: 1979
Language: English
Pages: 258
City: Washington, DC
Title Page......Page 1
Half Title Page......Page 3
Copyright......Page 4
ACS Symposium Series......Page 5
FOREWORD......Page 6
PdftkEmptyString......Page 0
PREFACE......Page 7
The Approach......Page 9
Process Variables......Page 11
Conclusion......Page 17
Literature Cited......Page 19
2 Pore Dimensions for Accumulating Biomass......Page 20
Determination of Microbial Loadings(Biomass).......Page 21
The Immobilization of Bacillus subtilis by Adsorption.......Page 23
Bioaccumulation of Yeast.......Page 24
Bioaccumulation of Streptomyces olivochromogenes.......Page 27
Results and Discussions......Page 29
Literature Cited.......Page 35
I. The Surface Physics of Adhesion......Page 36
II. The Biophysics of Cell Adhesion......Page 47
III. Conclusions......Page 60
Literature Cited......Page 61
Penicillin G Production by Immobilized Whole Cells......Page 65
Bacitracin Production by Immobilized Whole Cells......Page 68
α-Amylase Production by Immobilized Whole Cells......Page 72
Literature Cited......Page 77
Biological denitrification......Page 79
Biological removal of heavy metals......Page 80
Results......Page 81
Conclusions......Page 90
Literature Cited......Page 91
6 Synthesis of Coenzyme A by Immobilized Bacterial Cells......Page 93
Synthesis of CoA by Free, Dried Cells (Cell Method, 4, 5, 7,12)......Page 94
Synthesis of CoA by the Immobilized Cell Method (2)......Page 96
Litrature Cited......Page 105
7 Phenol Degradation by Candida tropicalis Whole Cells Entrapped in Polymeric Ionic Networks......Page 107
Experimental Procedures......Page 108
The Phenol Degradation Reaction......Page 111
Catalytical Activity and Transport Limitation......Page 114
Catalytic Stability and Cell Viability......Page 118
Acknowledgement......Page 121
Abstract......Page 122
Literature Cited......Page 123
Hydrous Metal Oxides as Supports......Page 125
Applications of Living Immobilised Cells to Fermentations......Page 129
Abstract......Page 136
Literature Cited......Page 137
Pantothenate Production by Cells of E. coli ATCC 9637......Page 138
Properties of Frozen-thawed Cells......Page 139
Discussion......Page 140
Literature Cited......Page 142
Production Process......Page 143
Diffusion-Controlled Rate Model......Page 145
Reactor Column Hydraulics......Page 148
Literature Cited......Page 150
Mathematical model......Page 151
Experimental......Page 158
Evaluation of the model......Page 160
Abstract......Page 174
List of symbols......Page 175
Literature cited......Page 176
Support Characteristics......Page 177
Enzyme Bonding Procedure......Page 178
Analysis of Diffusional Limitations......Page 179
Kinetic Evaluation......Page 180
Half-Life Study......Page 182
Discussion......Page 186
ABSTRACT......Page 189
Literature Cited......Page 190
1. Production of L-aspartic acid using immobilized Escherichia coli [3, 4, 5]......Page 191
2. Production of L-malic acid using immobilized Brevibacterium ammoniagenes [6, 7]......Page 193
1. New matrix,κ-carrageenan, for immobilization of microbial cells......Page 194
2. Production of L-aspartic acid using immobilized Esherichia coli......Page 196
3. Production of L-malic acid using immobilized Brevibacterium flavum......Page 198
4. Summary of к-carrageenan method......Page 199
1. Production of ethanol using immobilized yeast cells......Page 201
2. Production of L-isoleucine using immobilized Serratia marcescens......Page 203
Literature Cited......Page 205
14 Application of Immobilized Whole Cells in Analysis......Page 207
BOD-sensors......Page 208
Poison guards......Page 209
Analysis of antibiotics......Page 211
Bioassay of specific substances with the use of immobilized mutants.......Page 213
ASSAY OF SINGLE SUBSTRATE SPECIES.......Page 214
IMMOBILIZED BACTERIA USED AS SORBENTS IN ANALYSIS......Page 217
CONCLUDING REMARKS......Page 219
LITERATURE CITED......Page 222
Microbial Electrode Sensor for Cephalosporins......Page 225
Microbial Electrode Sensor for Glucose......Page 231
Other Microbial Electrode Sensors......Page 238
Literature Cited......Page 240
16 Hollow Fiber Entrapped Microsomes as a Liver Assist Device in Drug Overdose Treatment......Page 241
Results and Discussion......Page 243
ACKNOWLEDGEMENTS......Page 250
LITERATURE CITED......Page 251
B......Page 252
C......Page 253
F......Page 254
I......Page 255
P......Page 256
S......Page 257
Z......Page 258
