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Advances in Sponge Science : Physiology, Chemical and Microbial Diversity, Biotechnology /
Advances in Marine Biology has been providing in-depth and up-to-date reviews on all aspects of marine biology since 1963 -- over 45 years of outstanding coverage! The series is well-known for both its excellence of reviews and editing. Now edited by Michael Lesser, with an internationally renowned...
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Amsterdam ; Boston, MA :
Elsevier/Academic Press,
2012.
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| Colección: | Advances in marine biology ;
v. 62. |
| Temas: | |
| Acceso en línea: | Texto completo Texto completo |
Tabla de Contenidos:
- Front Cover; Advances in Sponge Science: Physiology, Chemical and Microbial Diversity, Biotechnology; Copyright; Contributors to Volume 62; Contents; Preface; Series Contents for Last Fifteen Years; Chapter 1: The Physiology and Molecular Biology of Sponge Tissues; 1. Introduction; 2. General Organization of Sponges; 2.1. Gross morphology; 2.2. Body wall overview; 2.3. Cells, tissues, and regionalization; 3. The Choanoderm Epithelium; 3.1. Overview of the aquiferous system; 3.2. Choanocyte structure; 3.3. Organization of choanocyte chambers-Terminology; 3.4. Choanocyte function-Feeding
- 3.5. Choanocyte differentiation and turnover3.6. Control over flow; 4. The Pinacoderm Epithelium; 4.1. Pinacoderm description and overview of function; 4.2. Pinacocytes-Terminology; 4.3. Cilia and flagella-Function and location in the sponge; 4.4. Pinacoderm: Role in sealing and osmoregulation; 4.5. Cell adhesion and cell junctions; 4.5.1. Molecules in sponge cell junctions-Overview; 4.5.2. Adherens junctions; 4.5.3. Occluding junctions; 4.6. The basement membrane: Differences among sponge epithelia; 4.7. Pinacoderm function: Biomineralization; 4.8. Pinacoderm development
- 5. The Aquiferous System5.1. Differentiation of porocytes and canals; 5.2. Role of Wnt in canal differentiation and polarity in sponges; 6. Epithelia as Sensory and Contractile Tissues; 6.1. Overview of sensory and coordinating tissues; 6.2. Molecules involved in coordination and signal transduction; 6.3. Gene expression as an indicator of sensory epithelia; 7. Tissue Formation During Sponge Development; 7.1. Overview of embryogenesis and larval morphogenesis in sponges; 7.2. Regulatory genes in development; 7.3. Gene expression during early embryogenesis
- 7.4. Gene expression during gastrulation and formation of larval layers7.5. Developmental gene expression in larvae; 7.6. Gene expression patterns in juvenile and adult sponge tissues and cells; 8. The Immune System; 8.1. Molecules with a potential role in the immune response in sponges; 9. Conclusions; References; Chapter 2: Sponge-Microbe Symbioses...; 1. Introduction; 2. Diversity of Sponge-Microbe Associations; 2.1. Approaches to measuring diversity; 2.2. Microbial perspectives on the diversity of sponge-microbe associations
- 2.3. Host perspectives on the diversity of sponge-microbe associations2.4. Is there a uniform community of bacterial symbionts?; 3. Specificity of Sponge-Microbe Associations; 3.1. Sponge-specific sequence clusters; 3.2. Comparisons of host and symbiont phylogenies; 3.2.1. Case study: S. spongiarum; 3.2.2. Case study: O. spongeliae; 3.3. Specificity is influenced by ecological interactions and dispersal; 4. Modes of Symbiont Transmission; 4.1. Vertical transmission; 4.2. Horizontal transmission; 4.3. Leaky vertical transmission