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- Page 9: Preface The preservation of biologi
- Page 12 and 13: viii Contents 15 Cryopreservation o
- Page 14 and 15: x Contributors SHARON J. PAYNTER
- Page 16 and 17: 1 Long-Term Ex Situ Conservation of
- Page 18 and 19: Biological Resource Centers 3 Fig.
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Principles of Freeze-Drying 37 32.
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3 Principles of Cryopreservation Da
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Principles of Cryopreservation 41 f
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Principles of Cryopreservation 43 F
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Principles of Cryopreservation 45 F
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Principles of Cryopreservation 47 F
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Principles of Cryopreservation 49 K
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Principles of Cryopreservation 51 v
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Principles of Cryopreservation 53 F
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Principles of Cryopreservation 55 a
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Principles of Cryopreservation 57 2
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60 Matejtschuk Proteins were some o
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62 Matejtschuk others, such as mann
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64 Matejtschuk maintained typically
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66 Matejtschuk alone, and the probe
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68 Matejtschuk 8. The collapse temp
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70 Matejtschuk protein denaturation
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72 Matejtschuk 11. May, J. C., Whee
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74 Tindall storage in a fashion tha
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76 Tindall Fig. 2. The process of m
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78 Tindall Fig. 3. The process of h
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80 Tindall conditions is far too ex
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82 Tindall 3.2. Cryopreservation-Ba
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84 Tindall heat the culture and kil
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86 Tindall 2. Either wash the cells
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88 Tindall Fig. 7. Two freeze-drier
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90 Tindall stocks with that of the
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92 Tindall ampoule, without which i
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94 Tindall cultures by centrifugati
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96 Tindall three strains per alumin
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6 Freeze-Drying of Yeast Cultures C
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Freeze-Drying of Yeast Cultures 101
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Freeze-Drying of Yeast Cultures 103
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Freeze-Drying of Yeast Cultures 105
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Freeze-Drying of Yeast Cultures 107
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110 Bond However, some improvements
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112 Bond Fig. 1. Sealing polypropyl
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114 Bond 7. Transfer the cooled cry
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116 Bond If only a small number of
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8 Freeze-Drying Fungi Using a Shelf
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Freeze-Drying Fungi 121 3. Methods
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123 Table 2 Phase-Transition Data S
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Freeze-Drying Fungi 125 8. Back, J.
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128 Ryan and Smith of a preservatio
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130 Ryan and Smith fungi with some
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132 Ryan and Smith 2.3. Shelf Freez
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134 Ryan and Smith 14. Before stora
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136 Ryan and Smith 7. The phosphoru
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138 Ryan and Smith and -20°C (34)
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140 Ryan and Smith 36. Rey, L. R. (
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142 Day large numbers of cultures,
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144 Day Table 1 BG 11 Medium Stock
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146 Day b. Passive freezing system
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148 Day 10. Cyanobacteria and red a
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150 Day 27. For many algae, particu
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11 Cryopreservation of Plant Cell S
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Cryopreservation of Plant Cell Susp
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Cryopreservation of Plant Cell Susp
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Cryopreservation of Plant Cell Susp
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Cryopreservation of Plant Cell Susp
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164 Benson, Harding, and Johnston r
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166 Benson, Harding, and Johnston 3
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168 Benson, Harding, and Johnston t
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170 Benson, Harding, and Johnston d
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172 Benson, Harding, and Johnston 1
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174 Benson, Harding, and Johnston F
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176 Benson, Harding, and Johnston 3
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178 Benson, Harding, and Johnston 1
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180 Benson, Harding, and Johnston 3
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182 Benson, Harding, and Johnston 1
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13 Cryopreservation of Desiccation-
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Cryopreservation of Desiccation-Tol
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Cryopreservation of Desiccation-Tol
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Cryopreservation of Desiccation-Tol
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Cryopreservation of Desiccation-Tol
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Cryopreservation of Desiccation-Tol
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Cryopreservation of Desiccation-Tol
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Cryopreservation of Desiccation-Tol
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Cryopreservation of Desiccation-Tol
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204 Kopeika, Kopeika, and Zhang wid
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206 Kopeika, Kopeika, and Zhang a.
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208 Kopeika, Kopeika, and Zhang of
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210 Kopeika, Kopeika, and Zhang usu
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212 Kopeika, Kopeika, and Zhang of
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214 Kopeika, Kopeika, and Zhang Fig
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216 Kopeika, Kopeika, and Zhang P.,
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15 Cryopreservation of Avian Sperma
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Cryopreservation of Avian Spermatoz
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Cryopreservation of Avian Spermatoz
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Cryopreservation of Avian Spermatoz
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228 Morris Concomitant research int
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230 Morris 5. Count the cells over
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232 Morris shipped to other countri
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234 Morris When it is necessary to
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236 Morris 21. Stacey, G. N., Bolto
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238 Watt, Austin, and Armitage 1. I
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240 Watt, Austin, and Armitage 18.
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242 Watt, Austin, and Armitage usin
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244 Watt, Austin, and Armitage 3.1.
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246 Watt, Austin, and Armitage 17.
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248 Watt, Austin, and Armitage Ther
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250 Watt, Austin, and Armitage and
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252 Watt, Austin, and Armitage Fig.
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254 Watt, Austin, and Armitage 7. R
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256 Watt, Austin, and Armitage 12.
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258 Watt, Austin, and Armitage 10.
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18 Cryopreservation of Human Embryo
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Cryopreservation of hESCs 263 Never
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Cryopreservation of hESCs 265 2.2.
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Cryopreservation of hESCs 267 3.2.
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Cryopreservation of hESCs 269 13. C
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19 Cryopreservation of Primary Anim
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Primary Animal Cell Cultures 273 3.
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Primary Animal Cell Cultures 275 4.
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Primary Animal Cell Cultures 277 Fi
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Primary Animal Cell Cultures 279 me
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Primary Animal Cell Cultures 281 14
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284 Sputtek No. Cell Method Author
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286 Sputtek platelets (frozen in th
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288 Sputtek 7. Heat sealer. 8. Pate
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290 Sputtek 12. Storage of the froz
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292 Sputtek 14. Lift the reusable c
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294 Sputtek 5. Transfer the PC to a
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296 Sputtek 52. Place the bag of pl
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298 Sputtek 2. Generally, the cell
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300 Sputtek References 1. Sputtek,
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21 Cryopreservation of Mammalian Se
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Mammalian Semen 305 egg yolk in the
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Mammalian Semen 307 2. Materials 1.
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Mammalian Semen 309 5. Seminal flui
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Mammalian Semen 311 11. Wales, R. G
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314 Paynter and Fuller Fig. 1. Sche
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316 Paynter and Fuller ICSI, first
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318 Paynter and Fuller Fig. 2. Sche
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320 Paynter and Fuller 4. Pipet a m
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322 Paynter and Fuller 10. A piece
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324 Paynter and Fuller 14. Porcu, E
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326 Fuller and Paynter Fig. 1. (Con
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328 Fuller and Paynter The earliest
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330 Fuller and Paynter and water sh
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332 Fuller and Paynter 6. The next
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334 Fuller and Paynter temperature)
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336 Fuller and Paynter 5. The straw
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338 Fuller and Paynter bent through
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Index 341 Index A Algae, cryopreser
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Index 343 Dimethylsulfoxide (DMSO),
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Index 345 sample damage, chill dama
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Index 347 V Vapor pressure, lyophil