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1. Transcriptome analysis in abiotic stress conditions in higher plants

   Drought, high salinity, and low temperature are major environmental factors that limit plant productivity. Plants respond and adapt to these stresses...

   Motoaki Seki, Ayako Kamei, ... Kazuo Shinozaki in Plant Responses to Abiotic Stress

   Chapter
   

2. Signal transduction in plant cold acclimation

   Temperate plants respond to low temperature by activating a cold acclimation program leading to enhanced tolerance to freezing temperatures. This...

   Pekka Heino, E. Tapio Palva in Plant Responses to Abiotic Stress

   Chapter
   

3. Plant salt tolerance

   Soil salinity adversely affects crop productivity and quality. The success of breeding programs aimed at salinity tolerant crop varieties is limited...

   Viswanathan Chinnusamy, Jian-Kang Zhu in Plant Responses to Abiotic Stress

   Chapter
   

4. Plant responses to heat stress

   The heat stress response is characterized by inhibition of normal transcription and translation, higher expression of heat shock proteins (hsps) and...

   Priti Krishna in Plant Responses to Abiotic Stress

   Chapter
   

5. Sensors of abiotic stress in Synechocystis

   Systematic mutagenesis of histidine kinases in combination with DNA microarray technology has allowed us to identify sensors for cold, hyperosmotic...

   Koji Mikami, Iwane Suzuki, Norio Murata in Plant Responses to Abiotic Stress

   Chapter
   

6. Abscisic acid signalling

   Signalling of abscisic acid (ABA) in plants is characterized by an amazing number of secondary messengers that are part of the pathway or modulate...

   Alexander Christmann, Erwin Grill, Michael Meinhard in Plant Responses to Abiotic Stress

   Chapter
   

7. Aging and mitochondrial dysfunction in the filamentous fungus Podospora anserina

   In the filamentous fungus Podospora anserina, mitochondria play a paramount role in life span control and aging. During aging, these organelles...

   Heinz D. Osiewacz in Model Systems in Aging

   Chapter
   

8. The human Werner Syndrome as a model system for aging

   The aging process is one of the most challenging biological pathways to understand. Applications of model systems for aging have contributed...

   Wen-Hsing Cheng, Patricia L. Opresko, ... and Vilhelm A. Bohr in Model Systems in Aging

   Chapter
   

9. Aging and the programmed death phenomena

   Biochemical mechanisms of the programmed death phenomena are considered at levels of unicellular organisms, mitochondria, cells, groups of cells, and...

   Vladimir P. Skulachev in Model Systems in Aging

   Chapter
   

10. Taxonomy and phylogenetic diversity among the yeasts

    Yeasts are among the economically and scientifically most important eukaryotic microorganisms known. At present, there are 1,500 recognized species,...

    Cletus P. Kurtzman, Jure Piškur in Comparative Genomics

    Chapter
    

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

    Online Supplement to Chapter 1

    Marina Axelson-Fisk, Per Sunnerhagen in Comparative Genomics

    Chapter
    

12. 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

    Chapter
    

13. 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

    Chapter
    

14. 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

    Chapter
    

15. 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

    Chapter
    

16. 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

    Chapter
    

17. 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

    Chapter
    

18. 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
    

19. 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

    Chapter
    

20. 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

    Chapter