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1. Metabolic Flux Analysis Based on 13C-Labeling Experiments and Integration of the Information with Gene and Protein Expression Patterns

   The recent progress on metabolic systems engineering was reviewed, in particular focusing on the metabolic flux analysis (MFA) based on the...

   Kazuyuki Shimizu in Recent Progress of Biochemical and Biomedical Engineering in Japan II

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2. Transgenic Birds for the Production of Recombinant Proteins

   Transgenic birds were expected to be an excellent transgenic bioreactor for the production of recombinant pharmaceutical proteins. However, the only...

   Masamichi Kamihira, Ken-ichi Nishijima, Shinji Iijima in Recent Progress of Biochemical and Biomedical Engineering in Japan II

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3. Vertebrate Limb Regeneration

   In this chapter, we have touched upon some of the key processes of vertebrate limb regeneration from the formation of the wound epithelium to pattern...

   Mindy K. Call, Panagiotis A. Tsonis in Regenerative Medicine I

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4. Mammalian Fetal Organ Regeneration

   The develo** fetus has the remarkable ability to heal dermal skin wounds by regenerating normal epidermis and dermis with restoration of the...

   Amy S. Colwell, Michael T. Longaker, H. Peter Lorenz in Regenerative Medicine I

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5. Regenerative Capacity and the Develo** Immune System

   Many components of the vertebrate immune system have evolved with dual, interrelated functions of both protecting injured tissues from infection and...

   Anthony L. Mescher, Anton W. Neff in Regenerative Medicine I

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6. Tissue Engineering Strategies for Bone Regeneration

   Bone loss due to trauma or disease is an increasingly serious health problem. Current clinical treatments for critical-sized defects are problematic...

   Amit S. Mistry, Antonios G. Mikos in Regenerative Medicine II

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7. Stem Cells in CNS and Cardiac Regeneration

   The central nervous system (CNS) and the heart muscle regenerate poorly after injury, yet evidence is mounting that both harbor cells capable of...

   David L. Stocum in Regenerative Medicine I

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8. Comparative genomics and gene finding in fungi -- Supplement

   Online Supplement to Chapter 1

   Marina Axelson-Fisk, Per Sunnerhagen in Comparative Genomics

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9. Somatic and Zygotic Embryogenesis in Avocado

   Avocado is a species widely cultivated for its highly nutritious fruit. Currently, soil-borne diseases such as Phytophthora root rot are severe...

   C. Sánchez-Romero, B. Márquez-Martín, F. Pliego-Alfaro in Somatic Embryogenesis

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10. Differential Gene Expression During Somatic Embryogenesis

    Somatic embryogenesis is a complex developmental program in which somatic cells are induced for a commitment towards forming totipotent...

    P. Suprasanna, V. A. Bapat in Somatic Embryogenesis

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11. Embryogenesis in Catharanthus roseus: Roles of Some External Factors in Proliferation, Maturation and Germination of Embryos

    Catharanthus roseus is an important medicinal plant that contains two well-known anticancerous alkaloids, vincristine and vinblastine. Cell...

    A. Junaid, A. Mujib, ... M. P. Sharma in Somatic Embryogenesis

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12. Participation of Plant Hormones in Determination and Progression of Somatic Embryogenesis

    In vitro culture protocols have been developed for many species, mainly using empirical approaches, to induce somatic embryogenesis from various...

    Víctor M. Jiménez, Clément Thomas in Somatic Embryogenesis

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13. Storage Proteins and Peroxidase Activity During Zygotic and Somatic Embryogenesis of Firs (Abies sp.)

    Somatic embryogenesis was initiated from immature embryos of Abies concolor (Gord. et Glend), A. numidica De Lann. and A. cilicica Carr., A....

    A. Kormut'ák, B. Vooková in Somatic Embryogenesis

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14. Protein Markers for Somatic Embryogenesis

    The capacity for somatic embryogenesis is a remarkable property of plant cells. Somatic embryogenesis is the process by which somatic cells...

    Magdalena I. Tchorbadjieva in Somatic Embryogenesis

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15. 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

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16. 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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17. 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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18. 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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19. 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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20. 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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