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Completely revised new edition of the definitive reference on disorders of hemoglobin.
The Atlas of Intellectual Disability Syndromes presents a concise description of 150 clinically distinctive syndromes caused by genes on the X chromosome. Each entry includes photographs and a differential matrix of similar syndromes. Appendices identify syndromes with common features and provide the location or mapping limits and function of responsible genes.
Presents clinical, biochemical, and genetic information concerning those metabolic anomalies grouped under inborn errors of metabolism.
Provides a core knowledgebase for those with minimal exposure to hematologic molecular biology, fully revised and updated Molecular Hematology brings together the most up-to-date and reliable information on the molecular basis of major hematologic diseases. Edited and authored by leading experts in the field, this volume demonstrates the clinical relevance of molecular biology in the diagnosis and treatment of blood disorders. Concise, accessible chapters address key topics in modern hematology, such as lymphoma genetics, molecular coagulation, thrombophilia, pharmacogenomics, platelet disorders, hemophilia, anemia, and multiple myeloma. Chapters introduce and summarize specific hematologic diseases, explore the pathogenesis of the disorder, highlight new and emerging molecular strategies, and more. Now in its fifth edition, Molecular Hematology is fully revised to incorporate contemporary hematology research and practice. Entirely new chapters cover topics such as CAR-T cell technology, COVID, cancer cell biology, gene therapy and gene editing in clinical practice, as well as the impact of molecular research on the diagnosis and treatment of various malignant hematologic diseases. This edition includes updated suggested readings and a wealth of new full-color charts, graphs, and illustrations throughout. Covers the molecular biology of different blood diseases, their pathogeneses, and current molecular research and therapies Illustrates the impact of molecular research on hematologic investigations and therapeutics Discusses how progress in basic science and therapeutics has improved the diagnosis and care of patients with various hematologic disorders Surveys recent developments in cancer-cell biology, with an emphasis on leukemia and lymphoma Includes access to a companion Digital Edition providing search across the book, downloadable illustrations, and notation tools Molecular Hematology is a must-have resource for established and trainee clinicians, clinical scientists and researchers, medical students, and upper-level undergraduates in the fields of hematology, oncology, and molecular biology.
No longer simple line drawings on a page, molecular structures can now be viewed in full-figured glory, often in color and even with interactive possibilities. Anatomy of Gene Regulation is the first book to present the parts and processes of gene regulation at the three-dimensional level. Vivid structures of nucleic acids and their companion proteins are revealed in full-color, three-dimensional form. Beginning with a general introduction to three-dimensional structures, the book looks at the organization of the genome, the structure of DNA, DNA replication and transcription, splicing, protein synthesis, and ultimate protein death. Throughout, the text employs a discussion of genetics and structural mechanics. The concise and unique synthesis of information will offer insight into gene regulation, and into the development of methods to interfere with regulation at diseased states. This textbook and its accompanying web site are appropriate for both undergraduate and graduate students in genetics, molecular biology, structural biology, and biochemistry courses.
In evolution, most genes survive and spread within populations because they increase the ability of their hosts (or their close relatives) to survive and reproduce. But some genes spread in spite of being harmful to the host organism—by distorting their own transmission to the next generation, or by changing how the host behaves toward relatives. As a consequence, different genes in a single organism can have diametrically opposed interests and adaptations.Covering all species from yeast to humans, Genes in Conflict is the first book to tell the story of selfish genetic elements, those continually appearing stretches of DNA that act narrowly to advance their own replication at the expense of the larger organism. As Austin Burt and Robert Trivers show, these selfish genes are a universal feature of life with pervasive effects, including numerous counter-adaptations. Their spread has created a whole world of socio-genetic interactions within individuals, usually completely hidden from sight.Genes in Conflict introduces the subject of selfish genetic elements in all its aspects, from molecular and genetic to behavioral and evolutionary. Burt and Trivers give us access for the first time to a crucial area of research—now developing at an explosive rate—that is cohering as a unitary whole, with its own logic and interconnected questions, a subject certain to be of enduring importance to our understanding of genetics and evolution.
1. Non-viral gene therapy / Sean M. Sullivan -- 2. Adenoviral vectors / Stuart A. Nicklin and Andrew H. Baker -- 3. Retroviral vectors and integration analysis / Cynthia C. Bartholomae [und weitere] -- 4. Lentiviral vectors / Janka Matrai, Marinee K.L. Chuah and Thierry VandenDriessche -- 5. Herpes simplex virus vectors / William F. Goins [und weitere] -- 6. Adeno-Associated Viral (AAV) vectors / Nicholas Muzyczka -- 7. Regulatory RNA in gene therapy / Alfred. S. Lewin -- 8. DNA integrating vectors (Transposon, Integrase) / Lauren E. Woodard and Michele P. Calos -- 9. Homologous recombination and targeted gene modification for gene therapy / Matthew Porteus -- 10. Gene switches for pre-clinical studies in gene therapy / Caroline Le Guiner [und weitere] -- 11. Gene therapy for central nervous system disorders / Deborah Young and Patricia A. Lawlor -- 12. Gene therapy of hemoglobinopathies / Angela E. Rivers and Arun Srivastava -- 13. Gene therapy for primary immunodeficiencies / Aisha Sauer, Barbara Cassani and Alessandro Aiuti -- 14. Gene therapy for hemophilia / David Markusic, Babak Moghimi and Roland Herzog -- 15. Gene therapy for obesity and diabetes / Sergei Zolotukhin and Clive H. Wasserfall -- 16. Gene therapy for Duchenne muscular dystrophy / Takashi Okada and Shin'ichi Takeda -- 17. Cancer gene therapy / Kirsten A.K. Weigel-Van Aken -- 18. Gene therapy for autoimmune disorders / Daniel F. Gaddy, Melanie A. Ruffner and Paul D. Robbins -- 19. Gene therapy for inherited metabolic storage diseases / Cathryn Mah -- 20. Retinal diseases / Shannon E. Boye, Sanford L. Boye and William W. Hauswirth -- 21. A brief guide to gene therapy treatments for pulmonary diseases / Ashley T. Martino, Christian Mueller and Terence R. Flotte -- 22. Cardiovascular disease / Darin J. Falk, Cathryn S. Mah and Barry J. Byrne
Nucleotide Sequences 1986/1987, Volume I: Primates presents data that reflect the information found in GenBank Release 44.0 of August 1986. This book provides information pertinent to the unique international collaboration between two leading nucleotide sequence data libraries, one based in Europe and one in the United States. Organized into one section, this volume begins with an overview of the sequences, some basic identifying information, and some of the biological annotations. This text then discusses the EMBL Nucleotide Sequence Data Library, an international center of fundamental research with its main focus in the fields of cell biology, molecular structures, instrumentation, and differentiation. This book discusses as well the GenBank database. This book is a valuable resource for molecular biologists and other investigators collecting the large number of reported DNA and RNA sequences and making them available in computer-readable form.
Bacillus anthracis causes anthrax in all mammals, including humans. Depending upon the route of entry of B. anthracis spores, infection can result in cutaneous lesions, which are readily treatable with antibiotics, or systemic lethal disease, which is nearly always fatal. The continuing worldwide incidence of anthrax in animal populations, the risk of human infection associated with animal outbreaks, and the threat of use of B. anthracis as a biological weapon warrant continued investigation of this organisms and its virulence mechanims. Furthermore, B. anthracis is an excellent model system for inverstigation of virulence gene expression by bacteria.