- Page 1: TM METHODS IN BIOTECHNOLOGY 17 Mic
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- Page 8 and 9: Contents Preface ..................
- Page 10 and 11: Contributors OLGA ABIAN • Departa
- Page 12: Contributors xi CHANDRAN SANDHYA
- Page 15 and 16: 2 Adrio and Demain The revolutionar
- Page 17 and 18: 4 Adrio and Demain is conducted und
- Page 19 and 20: 6 Adrio and Demain pharmacological
- Page 21 and 22: 8 Adrio and Demain a component of s
- Page 23 and 24: 10 Adrio and Demain of enantiopure
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- Page 27 and 28: 14 Adrio and Demain 1994. DNA vacci
- Page 29 and 30: 16 Adrio and Demain was further eng
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- Page 33 and 34: 20 Adrio and Demain Recently, a new
- Page 35 and 36: 22 Adrio and Demain 5. Demain, A. L
- Page 37 and 38: 24 Adrio and Demain 47. Ostergaard,
- Page 39 and 40: 26 Adrio and Demain 84. Shimaoka, M
- Page 42 and 43: 2 Enzyme Biosensors Steven J. Setfo
- Page 44 and 45: Enzyme Biosensors 31 mal enzyme pro
- Page 46 and 47: Enzyme Biosensors 33 Table 1 Defini
- Page 48 and 49: Enzyme Biosensors 35 vidual sensors
- Page 50 and 51: Enzyme Biosensors 37 2.5.3. Screen-
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Enzyme Biosensors 39 2.6.2. Stabili
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Enzyme Biosensors 41 Table 3 Commer
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Enzyme Biosensors 43 Fig. 4. Bayer
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Enzyme Biosensors 45 David Klonoff,
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Enzyme Biosensors 47 Fig. 7. Format
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Enzyme Biosensors 49 stability and
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Enzyme Biosensors 51 materials and,
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Enzyme Biosensors 53 Fig. 10. Biodo
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Enzyme Biosensors 55 Fig. 11. DiagN
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Enzyme Biosensors 57 Fig. 13. Holog
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Enzyme Biosensors 59 sis system sui
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3 Directed Evolution of Enzymes How
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Fig. 1. Flow process chart of direc
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Improving Nucleic Acid Polymerases
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Improving Nucleic Acid Polymerases
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Improving Nucleic Acid Polymerases
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Improving Nucleic Acid Polymerases
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Improving Nucleic Acid Polymerases
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4 L-Glutaminase as a Therapeutic En
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Therapeutic Enzymes 77 bial enzymes
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Therapeutic Enzymes 79 properties.
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Therapeutic Enzymes 81 ume with dis
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Therapeutic Enzymes 83 Table 2 L-gl
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Therapeutic Enzymes 85 3.2.5.8. INO
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Therapeutic Enzymes 87 5. Determine
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Therapeutic Enzymes 89 Table 5 Char
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5 Enzymatic Production of D-Amino A
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93 Fig. 1. Enzymatic route for the
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Enzymatic Production of D-Amino Aci
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Enzymatic Production of D-Amino Aci
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Enzymatic Production of D-Amino Aci
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Enzymatic Production of D-Amino Aci
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Enzymatic Production of D-Amino Aci
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106 Bañuelos et al. high sucrose c
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108 Bañuelos et al. 1. Culture the
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110 Bañuelos et al. 1. Grow Asperg
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112 Bañuelos et al. 3. Inject 20
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7 Food-Grade Corynebacteria for Enz
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Corynebacteria and Enzyme Productio
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Corynebacteria and Enzyme Productio
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Corynebacteria and Enzyme Productio
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Corynebacteria and Enzyme Productio
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Corynebacteria and Enzyme Productio
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Corynebacteria and Enzyme Productio
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Corynebacteria and Enzyme Productio
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Corynebacteria and Enzyme Productio
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Corynebacteria and Enzyme Productio
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Corynebacteria and Enzyme Productio
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Corynebacteria and Enzyme Productio
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Corynebacteria and Enzyme Productio
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142 Asano Fig. 1. Synthesis of (S)-
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144 Asano 2. Hydrolyze the ethyl es
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146 Asano 3.2.5. Purification of Ph
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148 Asano formate dehydrogenase, Ph
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150 Asano 3. Asano, Y., Nakazawa, A
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152 Ito et al. Purafect ® (Genenco
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154 Ito et al. 22. Bacillus subtili
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156 Ito et al. 3. The reaction was
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158 Ito et al. 3.2.3. Purification
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160 Ito et al. 3.3.3. Purification
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162 Ito et al. 3. Saeki, K., Okuda,
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10 Microbial Proteases Chandran San
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Microbial Proteases 167 Table 1. In
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Microbial Proteases 169 1.3.1. Ammo
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Microbial Proteases 171 3. Crude en
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Microbial Proteases 173 Effect of t
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Microbial Proteases 175 Table 2 Eff
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Microbial Proteases 177 4. Notes 1.
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Microbial Proteases 179 References
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182 Mellado et al. Microorganisms i
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184 Mellado et al. feed industries.
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186 Mellado et al. 1. Prepare sampl
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188 Mellado et al. 3. Incubate in d
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190 Mellado et al. 10. Mellado, E.,
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192 Tewari et al. of α-1,4-glycosi
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194 Tewari et al. 6. Incubate the f
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196 Tewari et al. 3.8.2. Enzyme Pro
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198 Tewari et al. 3.8.13. Vitamins
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200 Tewari et al. 3.10.3. Optimal T
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202 Tewari et al. 3. Suspend the ce
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204 Tewari et al. 2. Adjust differe
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206 Tewari et al. 9. As a standard
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208 Tewari et al. 19. Sharma, H. S.
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210 Lei and Kim from phosphorus pol
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212 Lei and Kim 3. 0.2 M glycine-HC
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214 Lei and Kim
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216 Lei and Kim 3. Pipet up and dow
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218 Lei and Kim 5. Collect samples
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220 Lei and Kim Fig. 2. Western blo
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222 Lei and Kim 3.5.6. In Vitro Hyd
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224 Lei and Kim 7. Rodriguez, E., H
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226 Weckbecker and Hummel Glucose d
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228 Weckbecker and Hummel Fig. 1. C
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230 Weckbecker and Hummel Fig. 2. C
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232 Weckbecker and Hummel Fig. 4. C
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234 Fig. 6. Comparison of the long-
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236 Weckbecker and Hummel 3. Heilma
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15 Acetate Kinase From Methanosarci
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Acetate Kinase for Methanogenesis 2
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Acetate Kinase for Methanogenesis 2
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Acetate Kinase for Methanogenesis 2
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16 Immobilization of Enzymes by Cov
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Covalent Enzyme Immobilization 249
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Covalent Enzyme Immobilization 251
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Covalent Enzyme Immobilization 253
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Covalent Enzyme Immobilization 255
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Covalent Enzyme Immobilization 257
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Covalent Enzyme Immobilization 259
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Covalent Enzyme Immobilization 261
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Covalent Enzyme Immobilization 263
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Covalent Enzyme Immobilization 265
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Covalent Enzyme Immobilization 267
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Covalent Enzyme Immobilization 269
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Covalent Enzyme Immobilization 271
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274 Mateo et al. with other molecul
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276 Mateo et al. or than randomly i
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278 Mateo et al. of penicillin G ac
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280 Mateo et al. 18. Water-MIBK bip
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282 Fig. 4. Thermal inactivation of
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284 Mateo et al. Fig. 6. Stability
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286 Mateo et al. 3.10. Inactivation
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288 Mateo et al. 27. Wheatley, J. B
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290 Chang crosslinking hemoglobin (
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292 Chang Therefore a new method ha
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294 Chang 2. Collagenase perfusion
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296 Chang 7. Allow the beaker to st
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298 Chang 4. Excise the liver, plac
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300 Chang 3. Collect 1.0 mL of form
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302 Chang the range of 0.00724 to 0
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304 Chang 12. Chang, T. M. S. and Y
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306 Chang 45. Friedman, E. A. (1999
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308 Index Acetyl-phosphate, 241 Acr
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310 Index catalase, 290 hemoglobin-
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312 Index food amylases, 8 protease
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314 Index cells agar, 78 sodium alg
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316 Index applications, 203 charact
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318 Index RNA, 61, 62 Roche Diagnos