01499nem0-2200493---450 99000961818040332120170601160729.0000961818FED01000961818(Aleph)000961818FED0100096181820120911d1943----km-y0itay50------baitaITa--------bl--aa-aa----a1:50000e0024500e0030000n0403000n0402000ad--------LauritoDocumento cartograficoIstituto Geografico militare1:50000 (E2°45'-E3°/N40°30'-N40°20')FirenzeIstituto Geografico militare19431 carta42 x 37 cm su foglio 58 x 52 cmCarta d'Italia198, IIRilievo del 1871Il Meridiano di riferimento è Monte Mario, RomaFoglio 198, quadrante 2BellosguardoRoscignoAquaraCastel San LorenzoFelittoCorleto MonforteSant'Angelo a FasanellaCastelcivitaCampaniaCarteIstituto geografico militare5005ITUNINARICAUNIMARCMP990009618180403321MP Cass.2 50 (198)2 AIst. s.i.ILFGEMP Cass.2 50 (198)2 A bisIst. 3653ILFGEILFGELaurito849590UNINA05011nam 2200613Ia 450 991083008220332120170809164258.01-282-11377-197866121137720-470-45520-90-470-45519-5(CKB)1000000000747776(EBL)433900(OCoLC)808803037(SSID)ssj0000353848(PQKBManifestationID)11246028(PQKBTitleCode)TC0000353848(PQKBWorkID)10302168(PQKB)10083642(MiAaPQ)EBC433900(PPN)139864725(EXLCZ)99100000000074777620080929d2009 uy 0engur|n|---|||||txtccrAnnelids in modern biology[electronic resource] /edited by Daniel H. ShainHoboken, N.J. John Wiley & Sons20091 online resource (384 p.)Includes index.0-470-34421-0 Annelids in Modern Biology; Contents; Preface; Contributors; Part I Annelids as Model Systems in Biology; 1. Developing Models for Lophotrochozoan and Annelid Biology; 1.1 Introduction; 1.2 Phylogenetic Considerations; 1.3 Genetic and Developmental Tools; 1.4 Annelid Model Organisms; 1.5 Other Potential Annelid Models; 2. Annelid Phylogeny-Molecular Analysis with an Emphasis on Model Annelids; 2.1 Introduction; 2.2 Genes; 2.3 Molecular Annelid Phylogeny; 2.4 Choosing Model Organisms; 2.5 Branch Lengths; 2.6 Problems in Inferring Annelid Phylogeny; 2.7 Conclusions3. Cryptic Speciation in Clitellate Model Organisms3.1 Introduction; 3.2 Sources and Kinds of Variation; 3.3 Examples of Clitellate Model Organisms; 3.4 Cryptic Speciation; 3.5 Conclusions and Recommendations; 4. Annelid Life Cycle Cultures; 4.1 Introduction; 4.2 Criteria for the Selection of Species; 4.3 Summary of Culture Techniques; 4.4 Life Cycle Cultures of Polychaeta; 4.5 Life Cycle Cultures of Oligochaeta; 4.6 Life Cycle Cultures of Hirudinea (Leeches); Part II Evolution and Development; 5. Annelids in Evolutionary Developmental Biology; 5.1 Introduction; 5.2 Evo-Devo Today5.3 Evo-Devo as Comparative Biology5.4 Why Annelid Development Is Interesting for Metazoan Evo-Devo Biologists; 5.5 Case Study 1: Segmentation; 5.6 Case Study 2: Spiral Cleavage and Axis Specification; 5.7 Tools for Analyzing Molecular Mechanisms of Development; 5.8 The Future of the Annelid Model Systems for Evo-Devo; 6. Evolution, Development and Ecology of Capitella sp. I: A Waxing Model for Polychaete Studies; 6.1 Introduction; 6.2 Speciation Studies; 6.3 Capitella Sp. 1 Morphology; 6.4 Replacement of Lost Segments and Reproductive Trade-Offs6.5 Metatrochophores, Ciliary Bands and Musculature6.6 Gene Expression during the Specification and Differentiation of Germ Layers; 6.7 Sex among the Vermes; 6.8 Annelids and the Segmentation Debate; 6.9 A-P Polarity-Hox and ParaHox Genes; 6.10 Annelid Genomics: Draft Genome Sequence; 6.11 The Future-Where Is This Going?; 7. Stem Cell Genesis and Differentiation in Leech; 7.1 Introduction; 7.2 Stem Cell Genesis and Development; 7.3 Factors Affecting Stem Cell Genesis; 7.4 Stem Cell Differentiation; 7.5 Gene Expression; 7.6 Conclusion; Part III Neurobiology and Regeneration8. Cellular and Behavioral Properties of Learning in Leech and Other Annelids8.1 Introduction; 8.2 Learning in the Leech Whole-Body Shortening Reflex and Role of the S Interneuron; 8.3 Role of the S Interneuron: Modulation of Excitability; 8.4 Learning in the Leech Swim Circuit; 8.5 Using the Leech to Study Intrinsic Forms of Sensitization; 8.6 Synaptic Plasticity in Leech CNS; 8.7 Conclusions; 9. Development, Regeneration and Immune Responses of the Leech Nervous System; 9.1 Introduction; 9.2 Background; 9.3 Recent Work on the Development of the Nervous System9.4 Neuronal Regeneration and RepairAnnelids offer a diversity of experimentally accessible features making them a rich experimental subject across the biological sciences, including evolutionary development, neurosciences and stem cell research. This volume introduces the Annelids and their utility in evolutionary developmental biology, neurobiology, and environmental/ecological studies, including extreme environments. The book demonstrates the variety of fields in which Annelids are already proving to be a useful experimental system. Describing the utility of Annelids as a research model, this book is an invaluable resourceAnnelidaBiologyAnnelida.Biology.592.6592/.6Shain Daniel H1672769MiAaPQMiAaPQMiAaPQBOOK9910830082203321Annelids in modern biology4036320UNINA