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1. Introduction

   Genetic algorithms (GAs) are powerful search techniques based on principles of evolution. They are now widely applied to solve problems in many...

   Ying-** Chen in Extending the Scalability of Linkage Learning Genetic Algorithms

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2. Linkage Learning Genetic Algorithm

   In order to handle linkage evolution and to tackle the ordering problem, Harik [47] took Holland’s call [53] for the evolution of tight linkage quite...

   Ying-** Chen in Extending the Scalability of Linkage Learning Genetic Algorithms

   Chapter
   

3. Preliminaries: Assumptions and the Test Problem

   After introducing the background and motivation of the linkage learning genetic algorithm, we will start to improve and understand the linkage...

   Ying-** Chen in Extending the Scalability of Linkage Learning Genetic Algorithms

   Chapter
   

4. Deconvolution Microscopy

   Since its introduction in 1983, deconvolution microscopy has become a key image-processing tool for visualizing the cellular structures of fixed and...

   Jean-Baptiste Sibarita in Microscopy Techniques

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5. Total Internal Reflection Fluorescence Microscopy in Single Molecule Nanobioscience

   Recent development in total internal reflection fluorescence microscopy (TIRFM) has made it possible to directly monitor the behaviors of...

   Tetsuichi Wazawa, Masahiro Ueda in Microscopy Techniques

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6. Tracking Movement in Cell Biology

   This article is an overview of techniques for measuring movement of proteins, vesicles and cells using digital image processing. Diverse techniques...

   Kota Miura in Microscopy Techniques

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7. 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

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8. Fluorescence Lifetime Imaging Microscopy (FLIM)

   Fluorescence lifetime imaging microscopy (FLIM) is a technique to map the spatial distribution of nanosecond excited state lifetimes within...

   Erik B. van Munster, Theodorus W. J. Gadella in Microscopy Techniques

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9. Spectral Imaging and Linear Unmixing in Light Microscopy

   Fluorescence microscopy is an essential tool for modern biological research. The wide range of available fluorophores and labeling techniques allows...

   Timo Zimmermann in Microscopy Techniques

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10. 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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11. Degradation and Preservation of Organic Matter in Marine Sediments

    Organic matter that is deposited in aquatic sediments is subject to an intense diagenetic reactor that determines how much organic carbon is...

    Stuart G. Wakeham, Elizabeth A. Canuel in Marine Organic Matter: Biomarkers, Isotopes and DNA

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12. 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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13. 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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14. 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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15. The Material-Independent Signatures of Life.Forensic Tools of Astrobiology

    Biological life is intimately related to the geochemical conditions on Earth and is fit for this planet’s energy flux. It has often been suggested...

    Popa Radu in Between Necessity and Probability: Searching for the Definition and Origin of Life

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16. The Early History of Bioenergy

    Energy is most commonly defined as the potential to do work. The maintenance of the living state requires a constant flow of energy through the...

    Popa Radu in Between Necessity and Probability: Searching for the Definition and Origin of Life

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17. Assembling the Early Puzzle of Life

    So far no theory, no approach, no set of formulas, and no blackboard scheme have been found satisfactory in explaining the origin of life. The...

    Popa Radu in Between Necessity and Probability: Searching for the Definition and Origin of Life

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18. 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

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19. 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

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20. 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

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