Bøger i Blood Cell Biochemistry serien
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- Bog
- 1.781,95 kr.
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2.350,95 kr. This series of books, devoted to aspects of blood cell biochemistry, development, immu nology, and ultrastructure, has evolved and separated from the long-established Plenum series Subcellular Biochemistry.
- Bog
- 2.350,95 kr.
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2.325,95 kr. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . The Mononuclear Phagocyte System . 1 A Structural Approach to Classification . 6 . 3 Soluble Receptors . 1 Growth, Differentiation, and Modulation . 4 Secretory Responses and Biosynthesis of Effector Molecules . Concluding Remarks . 18 .
- Bog
- 2.325,95 kr.
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- Hematopoietic Cell Growth Factors and Their Receptors
2.428,95 kr. Historically, the field of hematopoietic growth factor research began with the work of Carnot and Deflandre-in 1906 they suggested that the rate of erythropoiesis is regulated by a humoral factor found in the blood, namely, erythropoietin.
- Bog
- 2.428,95 kr.
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2.222,95 kr. Basophils and mast cells are similar but unique secretory cells with a well-documented role in immediate-hypersensitivity reactions. Ultrastructural studies of rat mast cells historically precede and quantitatively exceed similar studies of basophils and mast cells of other species.
- Bog
- 2.222,95 kr.
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3.086,95 kr. The science of blood groups was born at the beginning of this century, when the field of immunology married that of genetics. The six consecutive editions of the unequaled Blood Groups in Man have long been considered as the bible of blood groupers.
- Bog
- 3.086,95 kr.
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- Bog
- 610,95 kr.
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- Hematopoiesis and Gene Therapy
1.735,95 kr. The chapters in this book evaluate the need for gene therapy in the hematopoietic system, discuss how efficient gene transfer and expression can be achieved in the target cells, highlight areas of difficulty to be addressed, and examine a number of potential applications of the gene therapy approach.
- Bog
- 1.735,95 kr.
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- Hematopoietic Cell Growth Factors and Their Receptors
2.233,95 kr. Historically, the field of hematopoietic growth factor research began with the work of Carnot and Deflandre-in 1906 they suggested that the rate of erythropoiesis is regulated by a humoral factor found in the blood, namely, erythropoietin.
- Bog
- 2.233,95 kr.
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2.226,95 kr. Basophils and mast cells are similar but unique secretory cells with a well-documented role in immediate-hypersensitivity reactions. Ultrastructural studies of rat mast cells historically precede and quantitatively exceed similar studies of basophils and mast cells of other species.
- Bog
- 2.226,95 kr.
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2.234,95 kr. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . The Mononuclear Phagocyte System . 1 A Structural Approach to Classification . 6 . 3 Soluble Receptors . 1 Growth, Differentiation, and Modulation . 4 Secretory Responses and Biosynthesis of Effector Molecules . Concluding Remarks . 18 .
- Bog
- 2.234,95 kr.
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2.245,95 kr. This series of books, devoted to aspects of blood cell biochemistry, development, immu nology, and ultrastructure, has evolved and separated from the long-established Plenum series Subcellular Biochemistry.
- Bog
- 2.245,95 kr.
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- Bog
- 1.731,95 kr.
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- Hematopoiesis and Gene Therapy
1.747,95 kr. Since the first concepts of gene therapy were formulated, the hemopoietic system has been considered the most natural first target tissue for genetic manipulation. The reasons for this include the fact that a very large number of inherited disorders (including some of the most common disorders, such as the hemoglobinopathies) are disorders of the hemopoietic system, and the large amount of experience in hematopoietic transplantation biology. The consequence of this resulted in the first clinical trial of gene therapy in 1989, where two children suffering from severe combined immune deficiency (ADA-SCID) were transplanted with T-cells express- ing adenosine deaminase (the defective enzyme in patients with this disorder). The partial success of this treatment was perhaps responsible for undue optimism among those proposing other gene therapy treatments within the hematopoietic system, and it has since become clear that there are a number of technical and biological difficulties to overcome before hematopoietic gene therapy becomes a mainstream therapeutic strategy. The chapters in this book evaluate the need for gene therapy in the hematopoietic system, discuss how efficient gene transfer and expression can be achieved in the target cells, highlight areas of difficulty to be addressed, and examine a number of potential applications of the gene therapy approach. The book begins with a chapter by Testa and colleagues, discussing the various sources of hematopoietic cells for both transplantation and gene therapy.
- Bog
- 1.747,95 kr.
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1.029,95 kr. Thermal Stability and the Suppression of Convection in a Rotating Fluid on Earth; W.A. Arnold, L.L. Regel. Convective Flows during Crystal Growth in a Centrifuge; V.A. Urpin. Removal of Convective Instabilities in Liquid Metals by Centrifugation; A. Chevy, et al. Growth of GaAs Single Crystals at High Gravity; B. Zhou, et al. Response of Temperature Oscillations in a Tin Melt to Centrifugal Effects; W.J. Ma, et al. Unsteady Thermal Convection of Melts in a 2D Horizontal Boat in a Centrifugal Field with Consideration of the Coriolis Effect; F. Tao, et al. Variation of Effective Impurity Segregation Coefficient in Tellurium Grown under High Gravity; I.I. Farbshtein, et al. Analysis of Impurity Distribution by Galvanomagnetic Method in InSb Obtained under High Gravity Conditions; I.I. Farbshtein, et al. Microstructural Development in PbSn Alloys Subjected to Highgravity during Controlled Directional Solidification; R.N. Grugel, et al. The Role of Thermal Stress in Vertical Bridgman Growth of CdZnTe Crystals; T. Lee, et al. Morphological Stability of Directional Solidification in a Centrifugal Field; V.S. Yuferev. 11 additional articles. Index.
- Bog
- 1.029,95 kr.
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1.051,95 kr. 1 Biochemical, Immunological, and Molecular Markers of Hemopoietic Precursor Cells.- 1. Introduction.- 2. Biochemical Markers.- 2.1. Terminal Deoxynucleotide Transferase.- 2.2. Enzymes in Nucleotide Metabolism.- 3. Immunological Markers.- 4. Molecular Markers.- 5. Analysis of Human Hemopoietic Ontogenesis by Immunological and Molecular Markers.- 6. New Opportunities for Immunological and Molecular Markers: Minimal Residual Disease Detection and Therapeutical Approaches.- 7. References.- 2 Cell Surface Markers in Leukemia and Lymphoma.- 1. Introduction.- 2. B Cells.- 2.1. Normal B-Cell Ontogeny.- 2.2. B-Cell Leukemias and Lymphomas.- 3. T Cells.- 3.1. Normal T-Cell Ontogeny.- 3.2. T-Cell Leukemias and Lymphomas.- 4. Myeloid Cells.- 4.1. Normal Myeloid Ontogeny.- 4.2. Myeloid Leukemias.- 5. Summary.- 6. References.- 3 Cytoskeletal Organization of Normal and Leukemic Lymphocytes and Lymphoblasts.- 1. Introduction.- 2. Microfilaments in Normal and Leukemic Lymphocytes and Lymphoblasts.- 2.1. Actin and Actin-Associated Proteins in Nonmuscle Cells.- 2.2. Actin Isoforms.- 2.3. Organization of Actin in Normal Lymphocytes.- 2.4. Interactions between Actin and Surface Antigens in Lymphocytes.- 2.5. Actin in Leukemic Lymphocytes and Lymphoblasts.- 3. Intermediate-Size Filaments in Normal and Leukemic Lymphocytes and Lymphoblasts.- 3.1. The Intermediate Filament System.- 3.2. Distribution of Vimentin in Lymphocytes in Normal Conditions.- 3.3. Vimentin in Neoplastic Lymphocytes and Lymphoblasts.- 3.4. Expression of Cytokeratin in Lymphoid Tissues.- 4. Microtubules in Lymphoid Cells.- 5. Organization of Spectrin in Lymphocytes.- 6. Conclusions.- 7. References.- 4 Signaling Events in T-Lymphocyte-Dependent B-Lymphocyte Activation.- 1. Introduction.- 2. B-Cell Antigen Receptor-Mediated Signaling.- 3. Molecular Bases of T-Cell-Mediated B-Cell Signaling.- 4. Biological Evidence for Ia-Mediated Signal Transduction.- 5. Biochemical Evidence for Ia-Mediated Signal Transduction.- 6. Conclusions.- 7. References.- 5 IgE Receptors on Lymphocytes and IgE-Binding Factors.- 1. Introduction.- 2. Historical Overview.- 3. Fc?RII on Lymphocytes.- 3.1. Fc?RII-Bearing Cells.- 3.2. Function of Fc?RII.- 3.3. Molecular Properties of Fc?RII.- 3.4. Regulation of Fc?RII Expression on Lymphocytes.- 4. IgE-Binding Factors.- 4.1. Rat.- 4.2. Murine.- 4.3. Human.- 5. Glycosylation-Regulating Factors: GEF and GIF.- 5.1. Rat.- 5.2. Murine.- 6. Interleukin 4 and Gamma Interferon.- 7. CD23 Antigen.- 8. Conclusion.- 9. References.- 6 Lymphocyte-Mediated Cytolysis: Role of Granule Mediators.- 1. Role of Granules and Perform in Lymphocyte-Mediated Killing.- 1.1. The Granule Exocytosis or Secretion Model for Cell Killing.- 1.2. Cytoplasmic Granules and Perform as Mediators of Cytotoxicity.- 1.3. A Family of Serine Esterases Localized in Lymphocyte Granules.- 1.4. Proteoglycans.- 1.5. Leukalexins and Cytokines Related to Tumor Necrosis Factor and Lymphotoxin.- 2. Other Candidate Mechanisms of Lymphocyte-Mediated Killing.- 3. Resistance of Lymphocytes to Self-Mediated Killing.- 4. Conclusion.- 5. References.- 7 CR1-Cytoskeleton Interactions in Neutrophils.- 1. Introduction.- 2. Detergent Extraction of Cells.- 3. Receptor-Cytoskeleton Interactions.- 4. The C3b Receptor (CR1).- 5. References.- 8 The Flow of Granular Organelles in Leukocyte Differentiation.- 1. Introduction.- 2. Biogenesis of Membrane-Bound Organelles.- 2.1. Introduction.- 2.2. Endoplasmic Reticulum.- 2.3. Golgi Complex.- 2.4. Lysosomes.- 2.5. Communication between Compartments: Endosomes.- 2.6. Secretory Granules.- 3. Leukocyte Granules are Major Determinants of Function.- 3.1. Neutrophils.- 3.2. Platelets.- 3.3. Cytotoxic Lymphocytes.- 4. Granules Interact with the Plasma Membrane.- 4.1. Neutrophils.- 4.2. Platelets.- 5. Pathology of Myeloid Granules and Plasma Membranes.- 5.1. Nonneoplastic.- 5.2. Leukemic.- 6. Conclusion.- 7. References.- 9 The Elusive Oxidase: The Respiratory Burst Oxidase of Human Phagocytes...
- Bog
- 1.051,95 kr.