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PPN172388759 |
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http://www.sudoc.fr/172388759 |
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20170529013900.0 |
| 010 |
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|a 978-0-12-394629-4
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| 035 |
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|a (OCoLC)862840653
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1 |
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|a Methods in protein design
|b Ressource électronique
|f edited by Amy E. Keating
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| 210 |
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|a Amsterdam
|c Elsevier B. V.
|d 2013 cop. 2013
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| 225 |
2 |
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|a Methods in enzymology
|v 523
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| 230 |
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|a Livre électronique. Données textuelles
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| 303 |
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|a Description d'après la consultation du 2013-10-17
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| 304 |
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|a Titre provenant de la page de titre du document numérisé
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| 305 |
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|a Version électronique de l'édition de : San Diego, CA : Academic Press, 2013
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| 307 |
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|a La pagination de l'édition imprimée correspondante est de 538 p.
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| 310 |
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|a L'accès complet à la ressource est réservé aux usagers des établissements qui en ont fait l'acquisition
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| 320 |
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|a Bibliogr. en fin de chapitres. Index
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| 336 |
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|a 26 fichiers au format HTML et au format PDF
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| 337 |
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|a Configuration requise : navigateur internet et lecteur de fichiers PDF
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| 359 |
2 |
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|p P.1
|b Computational design of novel protein binders and experimental affinity maturation
|p P.21
|b Mining tertiary structural motifs for assessment of designability
|p P.41
|b Computational methods for controlling binding specificity
|p P.61
|b Flexible backbone sampling methods to model and design protein alternative conformations
|p P.87
|b Osprey: protein design with ensembles, flexibility, and provable algorithms
|p P.109
|b Scientific benchmarks for guiding macromolecular energy function improvement
|p P.145
|b Molecular dynamics simulations for the ranking, evaluation, and refinement of computationally designed proteins
|p P.171
|b Multistate protein design using CLEVER and CLASSY
|p P.191
|b Using analyses of amino acid coevolution to understand protein structure and function
|p P.213
|b Evolution-based design of proteins
|p P.237
|b Protein engineering and stabilization from sequence statistics: variation and covariation analysis
|p P.257
|b Enzyme engineering by targeted libraries
|p P.285
|b Generation of high-performance binding proteins for pepetide motifs by affinity clamping
|p P.303
|b Engineering fibronectin-based binding proteins by yeast surface display
|p P.327
|b Engineering and analysis of peptide-recognition domain specificities by phage display and deep sequencing
|p P.351
|b Efficient sampling of SCHEMA chimera families to identify useful sequence elements
|p P.369
|b Protein switch engineering by domain insertion
|p P.389
|b Design of chimeric proteins by combination of subdomain-sized fragments
|p P.407
|b [alpha]-helix mimicry with [alpha/beta]-peptides
|
| 410 |
|
| |
|0 104870729
|t Methods in enzymology (Online)
|x 1557-7988
|v 523
|
| 452 |
|
| |
|0 170715787
|t Methods in protein design
|b Texte imprimé
|f edited by Amy E. Keating
|c San Diego (Calif.)
|n Academic Press/Elsevier
|d 2013, cop. 2013
|p 1 vol. (liv-464 p.)
|s Methods in enzymology
|y 978-0-12-394292-0
|
| 606 |
|
|
|3 PPN040802698
|a Ingénierie des protéines
|2 fmesh
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| 676 |
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