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Insect Molecular Genetics
Developed as an introduction to new molecular genetic techniques, Insect Molecular Genetics also provides literature, terminology, and additional sources of information to students, researchers, and professional entomologists. Although most molecular genetics studies have employed Drosophila, this book applies the same techniques to other insects, including pest insects of economic importance. As a text, as a reference, as a primer, and as a review of a vast and growing literature, Insect Molecular Genetics is a valuable addition to the libraries of entomologists, geneticists, and molecular biologists. - Features offered by this unique reference source: Detailed illustrations - Suggested readings at the end of each chapter - Glossary of molecular genetic terms
The Practical Bioinformatician
Computer scientists have increasingly been enlisted as “bioinformaticians” to assist molecular biologists in their research. This book is a practical introduction to bioinformatics for these computer scientists. The chapters are in-depth discussions by expert bioinformaticians on both general techniques and specific approaches to a range of selected bioinformatics problems. The book is organized into clusters of chapters on the following topics:• Overview of modern molecular biology and a broad spectrum of techniques from computer science — data mining, machine learning, mathematical modeling, sequence alignment, data integration, workflow development, etc.• In-depth discussion of ...
Walking in Norfolk
A guidebook to 40 day walks in Norfolk. Exploring the coast, Fens, Brecks and Broads, the walks are suitable for beginner and experienced walkers alike. The circular walks range from 6 to 19km (4–12 miles) and can be enjoyed in 2–4 hours. Some routes use parts of long-distance paths, including the Peddars Way, Norfolk Coast Path, Boudica's Way and Weavers Way. 1:40,000 OS maps included for each walk Sized to easily fit in a jacket pocket Refreshment and public transport options are given for each walk Easy access from Norfolk, King’s Lynn and Great Yarmouth
Development, Growth and Evolution
This volume attempts to provide accessible accounts of these advances in developmental biology for the non-expert, together with contributions from hominid palaeontologists, which aim to bring this developmental perspective to bear on interpretation of the skeletal record of human evolution. This combined approach is, as yet, in its infancy but it is likely that it will impact significantly on palaeoanthropology and palaeontolgy in general.
Progress in Nucleic Acid Research and Molecular Biology
Nucleic acids are the fundamental building blocks of DNA and RNA and are found in virtually every living cell. Molecular biology is a branch of science that studies the physicochemical properties of molecules in a cell, including nucleic acids, proteins, and enzymes.Increased understanding of nucleic acids and their role in molecular biology will further many of the biological sciences including genetics, biochemistry, and cell biology.Progress in Nucleic Acid Research and Molecular Biology provides a forum for discussion of new discoveries, approaches, and ideas in molecular biology. It contains contributions from leaders in their fields and abundant references. - Provides a forum for discussion of new discoveries, approaches, and ideas in molecular biology - Includes contributions from leaders in the field - Contains abundant references
Renovating the Sacred
The English Reformation was no bolt of lightning out of a clear blue sky. Nor was it an event that was inevitable, smooth, or predictable. Rather, it was a process that had its turbulent beginnings in the late medieval period and extended through until the Restoration. This book places the emphasis not just on law makers or the major players, but also, and more importantly, on those individuals and parish communities that lived through the twists and turns of reform. It explores the unpredictable process of the English Reformation through the fabric, rituals and spaces of the parish church in the Diocese of Norwich c. 1450–1662, as recorded, through the churchwardens’ accounts and the material remains of the late medieval and early modern periods. It is through the uses and abuses of the objects, rituals, spaces of the parish church that the English Reformation became a reality in the lives of these faith communities that experienced it.
Advances in Genetics
This volume of Advances in Genetics furthers the serial's goal of presenting topics of interest to both human and molecular geneticists. Topics of interest in this volume include:Expression patterns of regulatory genes and the role they play in developmentHereditary ataxias and specific disease states where the genetic defect has been identifiedMinute genes, their mutations, and their molecular function in DrosophilaThe genetics and molecular biology of rhythm mutants and clock moleculesDouble strand breaks in DNA and their repair mechanisms - Expression patterns of regulatory genes and the role they play in development - Hereditary ataxias and specific disease states where the genetic defect has been identified - Minute genes, their mutations, and their molecular function in Drosophila - The genetics and molecular biology of rhythm mutants and clock molecules - Double-strand breaks in DNA and their repair mechanisms and lack of repair mechanisms resulting in human disorders
Perspectives on Genetics
For more than ten years, the distinguished geneticists James F. Crow and William F. Dove have edited the popular "Perspectives" column in Genetics, the journal of the Genetics Society of America. This book, Perspectives on Genetics, collects more than 100 of these essays, which cumulatively are a history of modern genetics research and its continuing evolution.
Dental Historian
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Computational Analysis of the Mammalian Cis-regulatory Landscape
Improvements in DNA sequencing technologies have made it possible to determine the genetic makeup of many organisms. Computational analyses of the massive amounts of sequence data available have produced many insights into evolutionary and developmental biology. For example, comparison of the full genome sequences of human and mouse discovered that the majority of functional sequence in the human genome does not code for protein. Much of this functional non-coding sequence appears to act in a regulatory role, dictating the precise tissues and developmental time points in which each protein should be produced. This dissertation describes three major contributions to the computational analysis...
