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1. Somatic Embryogenesis in Rose: Gene Expression and Genetic Transformation

   Induction of somatic embryogenesis in roses involves several critical steps requiring specific tissue culture media compositions and particular...

   S. S. Korban in Somatic Embryogenesis

   Chapter
   

2. Cytological, Physiological and Biochemical Aspectsof Somatic Embryo Formation in Flax

   The cytological, physiological and some biochemical aspects of somatic embryo formation in flax are discussed. From the review it is obvious that...

   Anna Pret'ová, Jozef Šamaj, Bohuš Obert in Somatic Embryogenesis

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3. Why Somatic Plant Cells Start to form Embryos?

   Embryogenesis in plants is not restricted to the fertilized egg cell but can be naturally or artificially induced in many different cell types,...

   Attila Fehér in Somatic Embryogenesis

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4. Environmental Design Considerationsfor Somatic Embryogenesis

   In addition to the biomolecular, physiological, and biochemical aspects of somatic embryogenesis, careful design of environmental conditions is...

   Takanori Hoshino, Joel L. Cuello in Somatic Embryogenesis

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5. Origin, Development and Structure of Somatic Embryosin Selected Bulbous Ornamentals: BAP as Inducer

   Somatic embryogenesis in three important ornamentals is discussed in this chapter. Direct somatic embryo development on the explant tissues...

   A. Mujib, S. Banerjee, P. D. Ghosh in Somatic Embryogenesis

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6. Somatic Embryogenesis in Genera Medicago: an Overview

   This chapter outlines the details of somatic embryogenesis in genera Medicago. Various factors that influence the process of somatic embryo...

   A. Iantcheva, M. Vlahova, A. Atanassov in Somatic Embryogenesis

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7. Somatic Embryogenesis of Pine Species: From Functional Genomics to Plantation Forestry

   Several economically important tree species belong to the genus Pinus and many of them form the ecological base of forest ecosystems. Pine wood is...

   Hely Häggman, Jaana Vuosku, ... Karoliina Niemi in Somatic Embryogenesis

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8. Telomeres in fungi

   Telomeres are the functional elements concluding and defining each linear chromosome in eukaryotes. They play an essential role in protecting genetic...

   Marita Cohn, Gianni Liti, David BH Barton in Comparative Genomics

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9. The genome of the filamentous fungus Ashbya gossypii: annotation and evolutionary implications

   The 9.2 Mb genome of the filamentous fungus Ashbya gossypii consists of seven chromosomes carrying 4718 protein coding genes, 194 tRNA genes, at...

   Sophie Brachat, Fred Dietrich, ... Peter Philippsen in Comparative Genomics

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10. Schizosaccharomyces pombe comparative genomics; from sequence to systems

    The fission yeast Schizosaccharomyces pombe is becoming increasingly important as a model for the characterization and study of many globally...

    Valerie Wood in Comparative Genomics

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11. Higher Harmonic Generation Microscopy

    Higher harmonic-generation, including second harmonic generation and third harmonic generation, leaves no energy deposition to the interacted matters...

    Chi-Kuang Sun in Microscopy Techniques

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12. Plant Cells: Secondary Metabolite Heterogeneity and Its Manipulation

    This chapter proposes the concept of rational manipulation of secondary metabolite heterogeneity in plant cell cultures. The heterogeneity of...

    Jian-Jiang Zhong, Cai-Jun Yue in Biotechnology for the Future

    Chapter
    

13. Genome evolution: Lessons from Genolevures

    In the past years, yeast genome-sequencing programs have been widely developed. Two of them, namely Genolevures I and II, were devoted to the...

    Monique Bolotin-Fukuhara, Serge Casaregola, Michel Aigle in Comparative Genomics

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14. Recent Progress in Microbial Cultivation Techniques

    Recent advances in the improvement of microbial cultivation are reviewed, with emphasis on biochemical engineering techniques as a means of obtaining...

    Enoch Y. Park in Recent Progress of Biochemical and Biomedical Engineering in Japan I

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15. High Rate Production of Hydrogen/Methane from Various Substrates and Wastes

    To treat soluble and solid wastes and recover energy from them, high rate methane fermentation, especially using the UASB (upflow anaerobic sludge...

    Naomichi Nishio, Yutaka Nakashimada in Recent Progress of Biochemical and Biomedical Engineering in Japan I

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16. Structural features of fungal genomes

    Eighteen fungal genomes have been sequenced to date from a variety of taxonomic groups, with fifteen Ascomycota, two Basidomycota and one...

    Phatthanaphong Wanchanthuek, Peter F. Hallin, ... David Ussery in Comparative Genomics

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17. Comparison of Molecular Mechanisms of Somatic and Zygotic Embryogenesis

    Somatic embryogenesis has been used as a model system to understand the mechanisms regulating plant embryogenesis. The morphological and...

    Miho Ikeda, Hiroshi Kamada in Somatic Embryogenesis

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18. Importance of Cytoskeleton and Cell Wall in Somatic Embryogenesis

    Both the cytoskeleton composed of microtubules and actin microfilaments as well as cell wall components such as arabinogalactan proteins and...

    Jozef Šamaj, Milan Bobák, ... Anna Pret'ová in Somatic Embryogenesis

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19. Gametic Embryogenesis in Triticum: a Study of Some Critical Factors in Haploid (Microspore) Embryogenesis

    This review of embryogenesis from microspores in two types of wheat examines the influences of various procedures used to induce and produce...

    L. Cistué, K. J. Kasha in Somatic Embryogenesis

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20. Comparative genomics and gene finding in fungi

    In the spring of 2005, we had access to 18 fully sequenced fungal genomes, and more are coming rapidly. New approaches and methods are being...

    Marina Axelson-Fisk, Per Sunnerhagen in Comparative Genomics

    Chapter