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Progress in Nucleic Acid Research and Molecular Biology
Progress in Nucleic Acid Research and Molecular Biology
The Search for the Gene
From Gregor Mendel's experiments on garden peas to the mammoth Human Genome Project of today--how did we get where we are in the science of genetics? In this intriguing book, Bruce Wallace examines the concept of the gene and recounts the history of genetic research, providing a concise transition from genetics to modern molecular biology.
Gene Action
This is the only book written by someone working in the field that deals with the history of gene action. As a college student, Werner Maas took a course in genetics in 1941 and wondered why so little was said about the biochemical action of genes in controlling the specific function of an organism. Just at that time, biochemists and geneticists began to investigate jointly the basis of gene action, especially in microorganisms. Thus, Maas was able to witness firsthand the spectacular developments that led in the next twenty-five years to a clear picture of the action of genes. The history of these remarkable discoveries is the core of this book. After 1965, building on insights gained from the work with microorganisms, studies of gene action turned to animals and plants and concentrated on processes not present in microorganisms, such as embryonic development, the role of genes in diseases, and the function of the nervous system. Because of the rapidity of technical advances made in handling genes, it has been possible to learn much about these complex processes. The last part of the book deals with these developments, which are ongoing parts of the history of gene action.
Genetics For Dummies
Reveals the connections between genetics and specific diseases Understand the science and the ethics behind genetics 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 explanations 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. Discover: What geneticists do How traits are passed on How genetic counseling works The basics of cloning The role of DNA in forensics The scoop on the Human Genome Project
Insulin - the Crooked Timber
Before the discovery of insulin, a diagnosis of Type 1 diabetes was a death sentence. To mark the centenary of this landmark in medicine, this book charts the journey of how insulin was transformed from what one clinician called 'thick brown muck' into the very first drug to be produced using genetic engineering, and which earned the founders of US biotech company Genentech a small fortune. Taking the reader on a fascinating journey, starting with the discovery of insulin in the 1920s through to the present day, Insulin - The Crooked Timber reveals a story of monstrous egos, toxic career rivalries, and a few unsung heroes and heroines. It discusses in detail the circumstances of Canadian sci...
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...
Mathematical Grammar of Biology
This seminal, multidisciplinary book shows how mathematics can be used to study the first principles of DNA. Most importantly, it enriches the so-called “Chargaff’s grammar of biology” by providing the conceptual theoretical framework necessary to generalize Chargaff’s rules. Starting with a simple example of DNA mathematical modeling where human nucleotide frequencies are associated to the Fibonacci sequence and the Golden Ratio through an optimization problem, its breakthrough is showing that the reverse, complement and reverse-complement operators defined over oligonucleotides induce a natural set partition of DNA words of fixed-size. These equivalence classes, when organized into a matrix form, reveal hidden patterns within the DNA sequence of every living organism. Intended for undergraduate and graduate students both in mathematics and in life sciences, it is also a valuable resource for researchers interested in studying invariant genomic properties.
The Annotated and Illustrated Double Helix
On the fiftieth anniversary of Watson and Crick receiving the Nobel Prize, a freshly annotated and illustrated edition of The Double Helix provides new insights into a scientific revolution. Published to mark the fiftieth anniversary of the Nobel Prize for Watson and Crick’s discovery of the structure of DNA, an annotated and illustrated edition of this classic book gives new insights into the personal relationships between James Watson, Frances Crick, Maurice Wilkins, and Rosalind Franklin, and the making of a scientific revolution.
Great Minds
A collection of interviews with 111 notable scientists, whose disciplines range from physics to chemistry to the biosciences, collected throughout the last 25 years.
