Cell and Molecular Biology and Imaging of Stem Cells features original and review articles written by experts who have made significant contributions to stem cell biology and imaging. Chapters cover a broad spectrum of aspects of the field, including Stem cells from the Amniotic Fluid and Placenta, Biomaterials as Artificial Niches for Pluripotent Stem Cell Engineering, Low-Intensity Ultrasound in Stem Cells and Tissue Engineering, Mammalian Neo-Oogenesis from Ovarian Stem Cells, Oct4-EGFP Transgenic Pigs as a New Tool for Visualization of Pluripotent and Reprogrammed Cells, Regulation of Adult Intestinal Stem Cells, Stem Cell Therapy for Veterinary Orthopedic Lesions, Sex Steroid Combinations in Regenerative Medicine for Brain and Heart Diseases, Hair Follicle Stem Cells, The Potential of Using Induced Pluripotent Stem Cells in Skin Diseases, Mitochondrial Differentiation in Early Embryo Cells and Pluripotent Stem Cells, and The Role of Centrosomes in Cancer Stem Cell Functions. Cell and Molecular Biology and Imaging of Stem Cells addresses a wide variety of cell and molecular topics in unprecedented detail, and is a must-read for graduate students and academic and industry professionals in the expanding field of stem cell biology. Reviews new imaging tools and markers for cell and molecular imaging in stem cell biology. Covers novel aspects of stem cell imaging in reproductive biology and stem cell niches Includes chapters on the developing area of centrosome biology as it applies to embryonic and adult stem differentiation
Finally, a stand-alone, all-inclusive textbook on yeast biology. Based on the feedback resulting from his highly successful monograph, Horst Feldmann has totally rewritten he contents to produce a comprehensive, student-friendly textbook on the topic. The scope has been widened, with almost double the content so as to include all aspects of yeast biology, from genetics via cell biology right up to biotechnology applications. The cell and molecular biology sections have been vastly expanded, while information on other yeast species has been added, with contributions from additional authors. Naturally, the illustrations are in full color throughout, and the book is backed by a complimentary website. The resulting textbook caters to the needs of an increasing number of students in biomedical research, cell and molecular biology, microbiology and biotechnology who end up using yeast as an important tool or model organism.
An integrative view of the evolution of genetics and the natural world Even in this advanced age of genomics, the evolutionary process of unicellular and multicellular organisms is continually in debate. Evolutionary Biology, Cell–Cell Communication, and Complex Disease challenges current wisdom by using physiology to present an integrative view of the nature, origins, and evolution of fundamental biological systems. Providing a deeper understanding of the way genes relate to the traits of living organisms, this book offers useful information applying evolutionary biology, functional genomics, and cell communication studies to complex disease. Examining the 4.5 billion-year evolution process from environment adaptations to cell-cell communication to communication of genetic information for reproduction, Evolutionary Biology hones in on the «why and how» of evolution by uniquely focusing on the cell as the smallest unit of biologic structure and function. Based on empirically derived data rather than association studies, Evolutionary Biology covers: A model for forming testable hypotheses in complex disease studies The integrating role played by the evolution of metabolism, especially lipid metabolism The evolutionary continuum from development to homeostasis Regeneration and aging mediated by signaling molecules Ambitious and game-changing Evolutionary Biology suggests that biology began as a mechanism for reducing energy within the cell, defying the Second Law of Thermodynamics. An ideal text for those interested in forward thinking scientific study, the insights presented in Evolutionary Biology help practitioners effectively comprehend the evolutionary process.
This third in the Current Topics in Molecular Cell Biology and Molecular Medicine Series contains a careful selection of new and updated, high-quality articles from the well-known Meyer's Encyclopedia, describing new perspectives in stem cell research. The 26 chapters are divided into four sections: Basic Biology, Stem Cells and Disease, Stem Cell Therapy Approaches, and Laboratory Methods, with the authors chosen from among the leaders in their respective fields. This volume represents an essential guide for students and researchers seeking an overview of the field.
Annual Plant Reviews, Volume 8 In the last few years, the new analytical tools associated with molecular biology, biochemistry, spectroscopy, microscopy, immunology, genomics and proteomics have been employed to investigate plant cell wall structure and function, providing a degree of resolution that was, until recently, unattainable. This has resulted in a growing awareness of the critical role of plant cell walls in a broad range of developmental events, adding strength and diversity to cell wall-related scientific research. This volume provides an overview of our current understanding of plant cell walls, drawing on the recent advances of plant molecular biology. It incorporates the identification of a rapidly growing number of genes and the proteins responsible for plant wall synthesis, restructuring, degradation and wall-associated signal transduction. The book bridges the biochemistry-oriented cell wall literature and the new technology-driven approaches. This is a book for academic and industrial researchers in plant cell biology, biochemistry, developmental biology, genetics and molecular biology.
From genetics to ecology – the easy way to score higher in biology Are you a student baffled by biology? You're not alone. With the help of Biology Workbook For Dummies you'll quickly and painlessly get a grip on complex biology concepts and unlock the mysteries of this fascinating and ever-evolving field of study. Whether used as a complement to Biology For Dummies or on its own, Biology Workbook For Dummies aids you in grasping the fundamental aspects of Biology. In plain English, it helps you understand the concepts you'll come across in your biology class, such as physiology, ecology, evolution, genetics, cell biology, and more. Throughout the book, you get plenty of practice exercises to reinforce learning and help you on your goal of scoring higher in biology. Grasp the fundamental concepts of biology Step-by-step answer sets clearly identify where you went wrong (or right) with a problem Hundreds of study questions and exercises give you the skills and confidence to ace your biology course If you're intimidated by biology, utilize the friendly, hands-on information and activities in Biology Workbook For Dummies to build your skills in and out of the science lab.
Honorable mention – Biomedicine and Neuroscience, 2011 Prose Awards An examination of how the cell should be described in order to effectively process biological data «The fruitful pursuit of biological knowledge requires one to take Einstein's admonition [on science without epistemology] as a practical demand for scientific research, to recognize Waddington's characterization of the subject matter of biology, and to embrace Wiener's conception of the form of biological knowledge in response to its subject matter. It is from this vantage point that we consider the epistemology of the cell.» —from the Preface In the era of high biological data throughput, biomedical engineers need a more systematic knowledge of the cell in order to perform more effective data handling. Epistemology of the Cell is the first authored book to break down this knowledge. This text examines the place of biological knowledge within the framework of science as a whole and addresses issues focused on the specific nature of biology, how biology is studied, and how biological knowledge is translated into applications, in particular with regard to medicine. The book opens with a general discussion of the historical development of human understanding of scientific knowledge, the scientific method, and the manner in which scientific knowledge is represented in mathematics. The narrative then gets specific for biology, focusing on knowledge of the cell, the basic unit of life. The salient point is the analogy between a systems-based analysis of factory regulation and the regulation of the cell. Each chapter represents a key topic of current interest, including: Causality and randomness Translational science Stochastic validation: classification Stochastic validation: networks Model-based experimentation in biology Epistemology of the Cell is written for biomedical researchers whose interests include bioinformatics, biological modeling, biostatistics, and biological signal processing.
Because the concept and discoveries of cancer stem cells are relatively new, scientists and researchers need an introduction to this dynamic area. Cancer Stem Cells presents a consolidated account of the research done to date and recent progresses in the studies of cancer stem cells. Such a presentation facilitates a better understanding of and draws attention to stem cell and cancer biology – two fields that enhance, move, and evolve into each other continuously. It provides an informative study in designing approaches to apply stem cell principles to cancer biology while offering an overview of the challenges in developing combination stem and cancer biology targets for therapeutics. This book serves as a primer for new researchers in the field of cancer biology.
Understanding, identifying and influencing the biological systems are the primary objectives of chemical biology. From this perspective, metal complexes have always been of great assistance to chemical biologists, for example, in structural identification and purification of essential biomolecules, for visualizing cellular organelles or to inhibit specific enzymes. This inorganic side of chemical biology, which continues to receive considerable attention, is referred to as inorganic chemical biology. Inorganic Chemical Biology: Principles, Techniques and Applications provides a comprehensive overview of the current and emerging role of metal complexes in chemical biology. Throughout all of the chapters there is a strong emphasis on fundamental theoretical chemistry and experiments that have been carried out in living cells or organisms. Outlooks for the future applications of metal complexes in chemical biology are also discussed. Topics covered include: • Metal complexes as tools for structural biology • IMAC, AAS, XRF and MS as detection techniques for metals in chemical biology • Cell and organism imaging and probing DNA using metal and metal carbonyl complexes • Detection of metal ions, anions and small molecules using metal complexes • Photo-release of metal ions in living cells • Metal complexes as enzyme inhibitors and catalysts in living cells Written by a team of international experts, Inorganic Chemical Biology: Principles, Techniques and Applications is a must-have for bioinorganic, bioorganometallic and medicinal chemists as well as chemical biologists working in both academia and industry.