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Evolutionary Bioinformatics
Books on bioinformatics which began appearing in the mid 80s primarily served gene-hunters, and biologists who wished to construct family trees showing tidy lines of descent. Given the great pharmaceutical industry interest in genes, this trend has continued in most subsequent texts. These deal extensively with the exciting topic of gene discovery and searching databases, but hardly consider genomes as information channels through which multiple forms and levels of information, including genic information, have passed through the generations.
Unravelling the Double Helix
DNA. The double helix; the blueprint of life; and, during the early 1950s, a baffling enigma that could win a Nobel Prize. Everyone knows that James Watson and Francis Crick discovered the double helix. In fact, they clicked into place the last piece of a huge jigsaw puzzle that other researchers had assembled over decades. Researchers like Maurice Wilkins (the 'Third Man of DNA') and Rosalind Franklin, famously demonised by Watson. Not forgetting the 'lost heroes' who fought to prove that DNA is the stuff of genes, only to be airbrushed out of history. In Unravelling the Double Helix, Professor Gareth Williams sets the record straight. He tells the story of DNA in the round, from its discovery in pus-soaked bandages in 1868 to the aftermath of Watson's best-seller The Double Helix a century later. You don't need to be a scientist to enjoy this book. It's a page-turner that unfolds like a detective story, with suspense, false leads and treachery, and a fabulous cast of noble heroes and back-stabbing villains. But beware: some of the science is dreadful, and the heroes and villains may not be the ones you expect.
Plant Cell Biology
Plant Cell Biology, Second Edition: From Astronomy to Zoology connects the fundamentals of plant anatomy, plant physiology, plant growth and development, plant taxonomy, plant biochemistry, plant molecular biology, and plant cell biology. It covers all aspects of plant cell biology without emphasizing any one plant, organelle, molecule, or technique. Although most examples are biased towards plants, basic similarities between all living eukaryotic cells (animal and plant) are recognized and used to best illustrate cell processes. This is a must-have reference for scientists with a background in plant anatomy, plant physiology, plant growth and development, plant taxonomy, and more. - Include...
Genetics For Dummies
"Want to know more about genetics? This non-intimidating guide gets you up to speed on all the fundamentals. From dominant and recessive inherited traits to the DNA double-helix, you get clear expectations in easy-to-understand terms. Plus, you'll see how people are applying genetic science to fight disease, develop new products, solve crimes ... and even clone cats." -- back cover.
A History of the Life Sciences, Revised and Expanded
A clear and concise survey of the major themes and theories embedded in the history of life science, this book covers the development and significance of scientific methodologies, the relationship between science and society, and the diverse ideologies and current paradigms affecting the evolution and progression of biological studies. The author d
The Principles of Clinical Cytogenetics
In the summer of 1989, one of us (SLG), along with his mentor, Dorothy Warb- ton, attended the Tenth International Workshop on Human Gene Mapping. The me- ing was held at Yale University in celebration of the first such event, which also took place there. This meeting was not open to the general public; one had to have contributed to mapping a gene to be permitted to attend. The posters, of course, were therefore all related to gene mapping, and many were covered with pretty, colorful pictures of a novel, fluorescent application of an old technology, in situ hybridization. Walking through the room, Dorothy remarked that, because of this new FISH technique, ch- mosomes, which had become yeste...
Introduction to Genetics: A Molecular Approach
Introduction to Genetics: A Molecular Approach is a new textbook for first and second year undergraduates. It first presents molecular structures and mechanisms before introducing the more challenging concepts and terminology associated with transmission genetics.
Vital Forces
Vital Forces tells the history of the 'biochemical revolution', a period of unprecedentedly rapid advance in human knowledge that profoundly affected our view of life and laid the foundation for modern medicine and biotechnology. The story is told in a clear, engaging, and absorbing manner. This delightful work relates the fascinating and staggering advances in concepts and theories over the last 200 years and introduces the major figures of the times. Vital Forces also describes the discovery of the molecular basis of life through the stories of the scientists involved, including such towering figures as Louis Pasteur, Gregor Mendel, Linus Pauling, and Francis Crick. Combining science and biography into a seamless chronological narrative, the author brings to life the successes and failures, collaborations and feuds, and errors and insights that produced the revolution in biology. - Vividly describes dramatic scientific discoveries, personalities, feuds and rivalries - Answers a general readers quest to understand the nature of life, and the relevance of biochemistry/molecular biology to modern medicine, industry and agriculture
