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1. Gene Therapy and Gene Delivery Systems as Future Human Therapeutics

   David V. Schaffer, Weichang Zhou in Gene Therapy and Gene Delivery Systems

   Chapter
   

2. 12 Baker’s Yeast: a rising foundation for eukaryotic sphingolipid-mediated cell signaling

   Saccharomyces cerevisiae has been an invaluable tool for the dissection of sphingolipid metabolic pathways and cloning of enzymes involved in...

   L. Ashley Cowart, Yusuf A. Hannun in Lipid Metabolism and Membrane Biogenesis

   Chapter
   

3. 1 Phospholipid synthesis in mammalian cells

   Phospholipids are the main components of biological membranes and as such act as the major permeability barrier between cells and the extracellular...

   Christopher R. McMaster, Trevor R. Jackson in Lipid Metabolism and Membrane Biogenesis

   Chapter
   

4. 2 Phospholipid synthesis and dynamics in plant cells

   Phospholipids represent the second family of lipids after the galactolipids in photosynthetic tissues and the first in non-photosynthetic tissues....

   Jean-Jacques Bessoule, Patrick Moreau in Lipid Metabolism and Membrane Biogenesis

   Chapter
   

5. Modeling Calcium Waves

   We present an introduction to the mathematics of calcium waves, both intracellular and intercellular. After a discussion of the earlier models I...

   James Sneyd, Krasimira Tsaneva-Atanasova in Understanding Calcium Dynamics

   Chapter
   

6. Regulation of IP 3 Receptors by IP 3 and Ca 2+

   Inositol 1,4,5-trisphosphate ( IP 3) receptors are intracellular Ca 2+ channels that mediate release of Ca 2+ from intracellular stores. The channels...

   Colin W. Taylor, Jane E. Swatton in Understanding Calcium Dynamics

   Chapter
   

7. Hormone-Mediated Intercellular Calcium Signalling in an Insect Salivary Gland – Pathways and Mechanisms

   The salivary glands of the blowfly Calliphora vicina are a favourable preparation for investigations into spatio-temporal Ca 2+ dynamics in an intact...

   Bernhard Zimmermann, Bernd Walz in Understanding Calcium Dynamics

   Chapter
   

8. From Simple to Complex Ca 2+ Oscillations: Regulatory Mechanisms and Theoretical Models

   Intracellular Ca 2+ oscillations most often appear as regular spikes. However, complex Ca 2+ oscillations in the form of bursting or chaos have also...

   G. Dupont, G. Houart, A. Goldbeter in Understanding Calcium Dynamics

   Chapter
   

9. 11 Plant sphingolipids

   Plants contain a multiplicity of sphingolipid metabolites, such as long-chain bases, long-chain base phosphates, ceramides, glycosylceramides,...

   Petra Sperling, Dirk Warnecke, Ernst Heinz in Lipid Metabolism and Membrane Biogenesis

   Chapter
   

10. 5 Sterol metabolism and functions in higher plants

    Higher plants synthesize a bewildering array of sterols, with sitosterol, stigmasterol, and 24-methylcholesterol as major compounds. All plant...

    Marie-Andrée Hartmann in Lipid Metabolism and Membrane Biogenesis

    Chapter
    

11. 6 Sterol biochemistry and regulation in the yeast Saccharomyces cerevisiae

    Saccharomyces cerevisiae has been a major model system for the study of sterol biosynthesis and function. All of the genes encoding the enzymes...

    N. Douglas Lees, Martin Bard in Lipid Metabolism and Membrane Biogenesis

    Chapter
    

12. 7 Mammalian ACAT and DGAT2 gene families

    Mammalian isozymes of ACAT, DGAT, and MGAT are encoded by the ACAT and DGAT2 gene families. These enzymes catalyze the synthesis of neutral lipid...

    Dong Cheng, Jay Liu, ... Ta-Yuan Chang in Lipid Metabolism and Membrane Biogenesis

    Chapter
    

13. 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

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14. 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

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15. 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
    

16. Cholera toxin: mechanisms of entry into host cells

    Cholera toxin moves from the plasma membrane to the ER of host cells to cause disease. Trafficking in this pathway depends on toxin binding to...

    David E. Saslowsky, Michael Kothe, Wayne I. Lencer in Microbial Protein Toxins

    Chapter
    

17. The Ustilago maydis killer toxins

    Killer toxins are small proteins secreted by a number of fungi that are lethal to susceptible cells (generally fungi of the same or related species)....

    Jeremy Bruenn in Microbial Protein Toxins

    Chapter
    

18. Biosynthesis and function of 1-methyladenosine in transfer RNA

    Determining the function of single nucleotide modifications in tRNA has been elusive because so many tRNA modification enzymes are not essential for...

    James T. Anderson, Louis Droogmans in Fine-Tuning of RNA Functions by Modification and Editing

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19. Transfer RNA modifications and modifying enzymes in Saccharomyces cerevisiae

    Transfer RNAs are adaptor molecules, which decode mRNA into protein and, thereby, play a central role in gene expression. During the maturation of a...

    Marcus J.O. Johansson, Anders S. Byström in Fine-Tuning of RNA Functions by Modification and Editing

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20. Checkpoint and Coordinated Cellular Responses to DNA Damage

    The DNA damage and replication checkpoints are signaling mechanisms that regulate and coordinate cellular responses to genotoxic conditions. The...

    **aohong H. Yang, Lee Zou in Cell Cycle Regulation

    Chapter