00898nam0 2200253 450 00002286720190305151216.020090212d1938----km-y0itay50------baitaITy-------001yyLezioni di tecnica del commercio dei prodotti agricoliraccolte a cura del prof. Giuseppe MenghiniNapoliG.U.F. Mussolini1938217 p.25 cmIn front. R. Università di Napoli, Facoltà di economia e commercioLezioni di tecnica del commercio dei prodotti agricoli60010Prodotti agricoliCommercio38220Menghini,GiuseppeITUNIPARTHENOPE20090212RICAUNIMARC000022867DEP II 01864752NAVA42009Lezioni di tecnica del commercio dei prodotti agricoli60010UNIPARTHENOPE05512nam 2200697 450 991013903100332120200520144314.01-118-74274-51-118-74292-31-118-74317-2(CKB)2550000001159883(EBL)1547074(OCoLC)863040891(SSID)ssj0001047626(PQKBManifestationID)11656637(PQKBTitleCode)TC0001047626(PQKBWorkID)11159545(PQKB)11587617(OCoLC)874967825(MiAaPQ)EBC1547074(DLC) 2013036793(Au-PeEL)EBL1547074(CaPaEBR)ebr10798087(CaONFJC)MIL543088(PPN)185879616(EXLCZ)99255000000115988320130911h20142014 uy 0engur|n|---|||||txtccrPlant chemical biology /edited by Dominique Audenaert, Paul OvervoordeHoboken, New Jersey :Wiley,[2014]©20141 online resource (321 p.)Description based upon print version of record.0-470-94669-5 1-306-11837-9 Includes bibliographical references and index.Plant Chemical Biology; Copyright; Contents; Preface; Contributors; Part One Introduction; 1.1 From Herbal Remedies to Cutting-Edge Science: A Historical Perspective of Plant Chemical Biology; 1.1.1 Herbal Remedies and Pharmacology in the Ancient World; 1.1.2 Alchemy, Chemistry, and the Isolation of the Bioactive Metabolites; 1.1.3 The Discovery of Phytohormones and the Foundation of Modern Plant Chemical Biology; 1.1.4 The Dawn of Plant Synthetic Chemistry; 1.1.5 Serendipity Versus Rational Design of Chemical Libraries; 1.1.6 The Development of Combinatorial Chemistry1.1.7 Plant Chemical Biology in the -Omics Era1.1.8 Introduction of Bioinformatics and Cheminformatics; 1.1.9 Unique Challenges in the Field of Chemical Genomic Research; 1.1.10 Concluding Remarks; Acknowledgments; References; Part Two Sources of Small Molecules; 2.1 Compound Collections; 2.1.1 Introduction; 2.1.2 Commercial Sources; 2.1.3 Companies Providing Nonproprietary, Nonparallel Synthesized Libraries Sourced Externally to the Company; 2.1.4 Companies Providing In-House Designed, Parallel Synthesized Libraries; 2.1.5 Results of Database Analysis2.1.6 Compound Selection and Database Filtering2.1.7 Substructure Similarity/Dissimilarity; 2.1.8 Cluster Analysis; 2.1.9 Pharmacophore Analysis; 2.1.10 Compound Acquisition Format and Storage; Acknowledgments; References; 2.2 Combinatorial Chemistry Library Design; 2.2.1 Introduction; 2.2.2 Bioavailability; 2.2.3 Chemical Space; 2.2.4 Privileged Structures; 2.2.5 Fragment-Based Design; 2.2.6 Ligand-Based Design; 2.2.7 Structure-Based Design; 2.2.8 Conclusion and Summary; References; 2.3 Natural Product-Based Libraries; 2.3.1 Introduction; 2.3.2 Plant-Based Collections2.3.3 Microbial-Derived Samples2.3.4 Samples of Marine Origin; 2.3.5 Future Perspectives; 2.3.6 Concluding Remarks; References; Part Three Identification of New Chemical Tools by High-Throughput Screening; 3.1 Assay Design for High-Throughput Screening; 3.1.1 Introduction; 3.1.2 Approaching Assay Development; 3.1.3 Assay Development; 3.1.4 Assay Types and Considerations; 3.1.5 Automation Adaptation and Validation; 3.1.6 Closing; Acknowledgment; References; Part Four Use of Chemical Biology to study Plant Physiology4.1 Use of Chemical Biology to Understand Auxin Metabolism, Signaling, and Polar Transport4.1.1 Introduction; 4.1.2 Naturally Occurring Auxins; 4.1.3 Auxin Biosynthesis; 4.1.4 Auxin Conjugation and Release by Hydrolysis; 4.1.5 Synthetic Auxins; 4.1.6 Polar Auxin Transport; 4.1.7 Current Models of Auxin Signaling; 4.1.8 Application of Auxin-Related Molecules in Chemical Genetic Approach; 4.1.9 Chemical Probes on Auxin Signaling from Chemical Library and Natural Sources; 4.1.10 Rational Design of Auxin Antagonist on the Basis of TIR1 Structure4.1.11 Chemical Probes on Auxin Transport from Chemical Library and Natural Sources"The application of plant chemical biology is currently limited to specialized subfields of plant research. By examining how chemical biology can be applied to study plant biology, Plant Chemical Biology illustrates how chemical biology is a means to identify small molecules that can be used to identify the targets of currently used herbicides, as well as to develop new herbicides or plant growth regulators. The author introduces researchers and graduate students to the chemical biology toolbox required to perform successful chemical biology studies. The text also examines several chemical biology studies to show how they allowed novel insights into the field of plant physiology and plant cellular processes"--Provided by publisher.Botanical chemistryPlantsEffect of chemicals onBotanical chemistry.PlantsEffect of chemicals on.572/.2Audenaert Dominique1976-946686Overvoorde Paul1968-946687MiAaPQMiAaPQMiAaPQBOOK9910139031003321Plant chemical biology2138893UNINA01161nam a22002531i 450099100248707970753620040327122723.0040407s1952 it |||||||||||||||||ita b12929979-39ule_instARCHE-090958ExLDip.to Scienze StoricheitaA.t.i. Arché s.c.r.l. Pandora Sicilia s.r.l.551.6Capra, Anna295886Andamento delle precipitazioni a Bologna dal 1813 al 1942 /Anna CapraBologna :Tipografia Mareggiani,195224 p. ;26 cmPubblicazioni presso il Centro Studi per la geografia Fisica. Ricerche sulle variazioni storiche del clima italiano / Consiglio Nazionale delle Ricerche. Centro di Studi per la Geografia Fisica ;11PrecipitazioniBologna.b1292997902-04-1416-04-04991002487079707536LE009 GEOG.14.415-2212009000343863le009-E0.00-l- 00000.i1350398416-04-04Andamento delle precipitazioni a Bologna dal 1813 al 1942281542UNISALENTOle00916-04-04ma -itait 01