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Amylose Affinity Chromatography of MBP 187 zation of the periplasmic nickel-binding protein NikA of Escherichia coli K12, Eur. J. Biochem. 227, 857–865. 9. Bruns, C. M., Nowalk, A. J., Arvai, A. S., McTigue, M. A., Vaughan, K. G., Mietzner, T. A., and McRee, D. E., (1997), Structure of haemophilus influenzae Fe(+3)-binding protein reveals convergent evolution within a superfamily, Nat. Struct. Biol. 4, 919–924. 10. Kang, C. H., Shin, W. C., Yamagata, Y., Gokcen, S., Ames, G. F., and Kim, S. H., (1991), Crystal structure of the lysine-, arginine-, ornithine-binding protein (LAO) from Salmonella typhimurium at 2.7-A resolution, J. Biol. Chem. 266, 23893–23899. 11. Oh, B. H., Pandit, J., Kang, C. H., Nikaido, K., Gokcen, S., Ames, G. F., and Kim, S. H., (1993), Three-dimensional structures of the periplasmic lysine/arginine/ornithine-binding protein with and without a ligand, J. Biol. Chem. 268, 17648–17649. 12. Sack, J. S., Saper, M. A., and Quiocho, F. A., (1989), Periplasmic binding protein structure and function. Refined X-ray structures of the leucine/isoleucine/valinebinding protein and its complex with leucine, J. Mol. Biol. 206, 171–191. 13. Yao, N., Trakhanov, S., and Quiocho, F. A., (1994), Refined 1.89-A structure of the histidine-binding protein complexed with histidine and its relationship with many other active transport/chemosensory proteins, Biochemistry 33, 4769–4779. 14. Nickitenko, A. V., Trakhanov, S., and Quiocho, F. A., (1995), 2 A resolution structure of DppA, a periplasmic dipeptide transport/chemosensory receptor, Biochemistry 34, 16585–16595. 15. Sleigh, S. H., Tame, J. R., Dodson, E. J., and Wilkinson, A. J., (1997), Peptide binding in OppA, the crystal structures of the periplasmic oligopeptide binding protein in the unliganded form and in complex with lysyllysine, Biochemistry 36, 9747–9758. 16. Quiocho, F. A., (1993), Probing the atomic interactions between proteins and carbohydrates, Biochem. Soc. Trans. 21, 442–448. 17. Quiocho, F. A., (1986), Carbohydrate-binding proteins: tertiary structures and protein-sugar interactions, Annu. Rev. Biochem. 55, 287–315. 18. Boos, W., and Shuman, H., (1998), Maltose/maltodextrin system of Escherichia coli: transport, metabolism, and regulation, Microbiol. Mol. Biol. Rev. 62, 204. 19. Kapust, R. B., and Waugh, D. S., (1999), Escherichia coli maltose-binding protein is uncommonly effective at promoting the solubility of polypeptides to which it is fused, Protein Sci. 8, 1668. 20. Richarme, G., and Caldas, T. D., (1997), Chaperone properties of the bacterial periplasmic substrate-binding proteins, J. Biol. Chem. 272, 15607. 21. Sachdev, D., and Chirgwin, J. M., (1998), Solubility of proteins isolated from inclusion bodies is enhanced by fusion to maltose-binding protein or thioredoxin, Protein Expr. Purif. 12, 122. 22. Ganesh, C., Zaidi, F. N., Udgaonkar, J. B., and Varadarajan, R., (2001), Reversible formation of on-pathway macroscopic aggregates during the folding of maltose binding protein, Protein Sci. 10, 1635.
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Affinity Chromatography second edit
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METHODS IN MOLECULAR BIOLOGY TM Aff
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To Tina, Emmanuella, Natalie, and A
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viii Preface Affinity tags for puri
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x Contents 10. Immobilized Metal Io
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xii Contributors Tzong-Hsien Lee
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2 Roque and Lowe cell extract conta
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4 Roque and Lowe groups critical in
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6 Roque and Lowe of reinforcement e
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8 Roque and Lowe unknown factors ar
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10 Roque and Lowe receptor domains
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12 Roque and Lowe A further issue o
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14 Roque and Lowe transgenic system
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16 Roque and Lowe 6. Arsenis, C. an
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18 Roque and Lowe 39. Burton, S.J.,
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20 Roque and Lowe 71. Bhikhabhai, R
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I Various Modes of Affinity Chromat
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26 Charlton and Zachariou Since the
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28 Charlton and Zachariou 5. Equili
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30 Charlton and Zachariou 9. Elute
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32 Charlton and Zachariou 3.3. Puri
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34 Charlton and Zachariou could als
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3 Affinity Precipitation of Protein
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Affinity Precipitation of Proteins
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4 Immunoaffinity Chromatography Stu
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Immunoaffinity Chromatography 55 2.
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Immunoaffinity Chromatography 57 A
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Immunoaffinity Chromatography 59 ab
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5 Dye Ligand Chromatography Stuart
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Dye Ligand Chromatography 63 Develo
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Dye Ligand Chromatography 65 6. Mis
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Dye Ligand Chromatography 67 Fig. 1
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Dye Ligand Chromatography 69 6. Sec
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72 Tugcu chromatography, the sorpti
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74 Tugcu non-specific interactions,
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76 Tugcu the salt counter ions on t
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78 Tugcu On a plot of log K versus
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80 Tugcu Figure 2B illustrates a ty
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82 Tugcu 2.5. Running Displacement
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84 Tugcu then the operating conditi
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86 Tugcu Table 1 Trobleshooting for
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88 Tugcu 23. Torres, A. R. and Pete
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II Affinity Chromatography Using Pu
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94 Roque and Lowe market, with 14 F
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96 Roque and Lowe and RasMol V2.7.1
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98 Roque and Lowe house using, for
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100 Roque and Lowe Gly71 and Gly72)
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102 Roque and Lowe dissolved in ace
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104 Roque and Lowe equilibration bu
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106 Roque and Lowe of color. Purple
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108 Roque and Lowe 5. Fassina, G.,
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8 Phage Display of Peptides in Liga
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Phage Display of Peptides in Ligand
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9 Preparation, Analysis and Use of
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Preparation, Analysis and Use of an
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10 Immobilized Metal Ion Affinity C
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IMAC of Histidine-Tagged Fusion Pro
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152 Godat et al. tag. HQ-tagged pro
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154 Godat et al. 2. NaCl (5 M). 3.
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156 Godat et al. 4. Invert tube to
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158 Godat et al. 3. Sonicate sample
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160 Godat et al. the above protocol
Page 330: 162 Godat et al. 3.7.1. Purificatio
Page 334: 164 Godat et al. 3. Adding 200 mM N
Page 338: 166 Godat et al. 4. The MagneHis Ni
Page 342: 168 Godat et al. 22. Lin, D., Tabb,
Page 346: 170 Pattenden and Thomas 1. Introdu
Page 350: 172 Pattenden and Thomas functions
Page 354: 174 Pattenden and Thomas of the mal
Page 358: 176 Pattenden and Thomas necessary.
Page 362: 178 Pattenden and Thomas 2.4. Amylo
Page 366: 180 Pattenden and Thomas 9. Thoroug
Page 370: 182 Pattenden and Thomas 8. Collect
Page 374: 184 Pattenden and Thomas binding ef
Page 378: 186 Pattenden and Thomas 15. Cells
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Page 388: 192 Urh et al. and affinity purific
Page 392: 194 Urh et al. beads with HaloTag l
Page 396: 196 Urh et al. 2.3. Detection of Pr
Page 400: 198 Urh et al. 2. Carefully remove
Page 404: 200 Urh et al. 3.2.1.2. Phase 2 Imm
Page 408: 202 Urh et al. 3.2.2. Detection of
Page 412: 204 Urh et al. The following protoc
Page 416: 206 Urh et al. 3. Incubate for 10 m
Page 420: 208 Urh et al. by 0.5% Triton X-100
Page 424: 14 Site-Specific Cleavage of Fusion
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Site-Specific Cleavage of Fusion Pr
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15 The Use of TAGZyme for the Effic
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Removal of N-Terminal His-Tags 231
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16 Affinity Processing of Cell-Cont
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Affinity Processing of Cell-Contain
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258 Benčina et al. 1. Introduction
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260 Benčina et al. 3.1.1. Static I
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262 Benčina et al. [A] abs orbance
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264 Benčina et al. Table 2 Long-Te
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266 Benčina et al. Table 3 Effect
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268 Benčina et al. 8 7 n RNase 0,0
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270 Benčina et al. Table 6 Long-Te
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272 Benčina et al. B A PepC marker
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274 Benčina et al. 3. Platonova, G
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276 Forde diseases, cancer and infe
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278 Forde 12. Sample loading buffer
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280 Forde 2. Mix 100 μl of sample,
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282 Forde 12. Safety Warning: Picog
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19 Affinity Chromatography of Phosp
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Affinity Chromatography of Phosphor
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20 Protein Separation Using Immobil
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Immobilized Phospholipid Chromatogr
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21 Analysis of Proteins in Solution
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Affinity Capillary Electrophoresis
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Index Adsorption isotherm, 75, 84 A
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Index 341 Genenase I, 170, 214, 215
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Index 343 Saccharomyces cerevisae,
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