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03844clm a2200469 4500 |
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PPN172270456 |
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http://www.sudoc.fr/172270456 |
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20181031132900.0 |
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1 |
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|a Natural product biosynthesis by microorganisms and plants
|h Part A
|b Ressource électronique
|f edited by David A. Hopwood
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| 210 |
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|a Amsterdam
|c Elsevier B. V.
|d 2012, cop. 2012
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| 225 |
2 |
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|a Methods in enzymology
|v 515
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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 2013-10-11
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|a L'impression du document génère 411 p.
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| 305 |
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|a Version électronique de l'édition de : San Diego, CA : Academic Press, 2012
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| 310 |
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|a L'accès à cette ressource est réservé aux usagers des établissements qui en ont fait l'acquisition
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| 320 |
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|a Réf. bibliogr. en fin de chapitres. Index
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| 336 |
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|a 23 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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2 |
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|b Chap. 1. Steady-state kinetic characterization of sesquiterpene synthases by gas chromatography-mass spectroscopy
|b Chap. 2. Automating gene library synthesis by structure-based combinatorial protein engineering: examples from plant sesquiterpene synthases
|b Chap. 3. In planta transient expression analysis of monoterpene synthases
|b Chap. 4. Natural rubber biosynthesis in plants: rubber transferase
|b Chap. 5. Discovery and characterization of terpenoid biosynthetic pathways of fungi
|b Chap. 6. Menaquinone biosyntheses in microogranisms
|b Chap. 7. Diversity and analysis of bacterial terpene synthases
|b Chap. 8. Platensimycin and platencin biosynthesis in Steptomyces platensis, showcasing discovery and characterization of novel bacterial diterpene synthases
|b Chap. 9. Strategies for eningeering plant natural products: the iridoid-derived monoterpene indole alkaloids of Catharanthus roseus
|b Chap. 10. Discovery and functional analysis of monoterpenoid indole alkaloid pathways in plants
|b Chap. 11. Biochemical genomics for gene discovery in Benzylisoquinoline alkaloid biosynthesis in opium poppy and related species
|b Chap. 12. Analysis and modificiation of ergot alkaloid profiles in fungi
|b Chap. 13. Engineering of glucosinolate biosynthesis: candidate gene identification and validation
|b Chap. 14. Structure-function analyses of plant type III polyketide synthases
|b Chap. 15. Engineering of plant type III polyketide synthases
|b Chap. 16. Type III polyketide synthases in microogranisms
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| 410 |
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| |
|0 104870729
|t Methods in enzymology (Online)
|x 1557-7988
|v 515
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| 452 |
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| |
|0 165996994
|t Natural product biosynthesis by microorganisms and plants
|h Part A
|b Texte imprimé
|f edited by David A. Hopwood
|c Amsterdam
|n Elsevier
|n Academic Press
|d 2012, cop. 2012
|p 1 vol. (LV-411 p.-[18] p. de pl.)
|s Methods in enzymology
|y 978-0-12-394290-6
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|a Biosynthèse
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|3 PPN027834573
|a Terpènes
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|x Synthèse
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|a Glucosinolates
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|x Synthèse
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| 606 |
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|3 PPN031458076
|a Acétogénines
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Nantilus
