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Given the explosive development of new molecular marker techniques over the last decade, newcomers and experts alike in the field of DNA fingerprinting will find an easy-to-follow guide to the multitude of techniques available in DNA Fingerprinting in Plants: Principles, Methods, and Applications, Second Edition. Along with step-by-step annotated p
This exciting new book describes the use of DNA fingerprinting and its application in a wide area of plant and fungal research. It presents a thorough theoretical introduction to DNA fingerprinting, the practical aspects of extraction of DNA from the plant or fungus under study, and the statistical analysis of the data. An overview presents all species to which DNA fingerprinting is currently being applied and highlights many future technical developments.
Plant genotyping, or DNA fingerprinting of plants, is a technology that has matured and is poised for widespread practical application in the fields of breeding, commerce and research. This book examines the technologies available and their application in the analysis of:Wild plant populationsGermplasm collections Plant breedingContributors include leading research workers in this field from North America, Europe and Australasia.
Molecular cloning and DNA-based analysis have become part of every molecular life science laboratory. The rapid adoption of DNA-based techniques has been facilitated by the introduction of the polymerase chain reaction (PCR), which has made cloning and characterization of DNA quick and relatively simple. PCR is virtually part of every variation of the plethora of approaches used for DNA fingerprinting today. Plant DNA Fingerprinting: Methods and Protocols aims to bring together the different currently available genome-based techniques into one repository. This volume contains detailed protocols for the preparation of plant genomic DNA, fingerprinting of plants for the detection of intra-species variations, the use of DNA barcoding, as well as methods for the bioinformatic analysis of data. Also included are several discussions on the broader issues of genome-based approaches in order to provide a sound understanding of the principles of these methods. Written in the successful Methods in Molecular BiologyTM series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible protocols, and notes on troubleshooting and avoiding known pitfalls. Authoritative and easily accessible, Plant DNA Fingerprinting: Methods and Protocols is tailored principally for those who seek to augment their current methods of plant analysis and quality control using genome-based approaches as well as for scientists and researchers in different plant sciences.
This manual presents practical approaches to using DNA fingerprinting and genetic profiling to answer a variety of biological and medical questions. It provides detailed methodology for setting up and performing experiments and evaluating results. Extensive troubleshooting tips, helpful hints, and advice for daily practice are also included. This will be a useful guide for scientists and researchers engaged in genetic identification and relationship analyses.
The dichotomous key uses minimal morphological characters, followed by pictorial illustrations.
DNA and RNA fingerprinting based on arbitrarily primed PCR provides the most powerful tool for the study of genes. The basic techniques are described in detailed protocols including each step from template preparation to fingerprint visualization. Various protocols for the basic techniques allow to choose between alternative strategies. In addition to the general techniques specific research applications of particular interest are given such as gene mapping, detection of somatic mutations, gene abnormally expressed in tumors or differentially expressed genes by RNA fingerprinting.
Although DNA fingerprinting is a very young branch of molecular genetics, being barely six years old, its recent impact on science, law and politics has been dramatic. The application of DNA finger printing to forensic and legal medicine has guaranteed a high public profile for this technology, and indeed, scarcely a week goes by with out the press reporting yet another crime successfully solved by molec ular genetics. Less spectacularly, but equally importantly, DNA typing methods are steadily diffusing into an ever wider set of applications and research fields, ranging from medicine through to conservation biology. To date, two DNA fingerprinting workshops have been held in the UK, one in 1988 organised by Terry Burke at the University of Leicester, and the second in 1989 at the University of Nottingham, co-ordinated by David Parkin. In parallel with these workshops, which have provided an important focus for researchers, Bill Amos and Josephine Pemberton in Cambridge have established an informal newsletter "Fingerprint News" which is playing a major role as a forum for DNA fingerprinters. By 1989, it was clear that the field had broadened sufficiently to warrant a full international meeting. As a result, Gaudenz Dolf took on the task of organising the first, of what I hope will be many, International Symposium of DNA Fingerprinting held at Bern during Ist-3rd October 1990. The success of the meeting can be judged from the remarkable attendance, with 270 delegates from no less than 30 countries.
DNA profiling—commonly known as DNA fingerprinting—is often heralded as unassailable criminal evidence, a veritable “truth machine” that can overturn convictions based on eyewitness testimony, confessions, and other forms of forensic evidence. But DNA evidence is far from infallible. Truth Machine traces the controversial history of DNA fingerprinting by looking at court cases in the United States and United Kingdom beginning in the mid-1980s, when the practice was invented, and continuing until the present. Ultimately, Truth Machine presents compelling evidence of the obstacles and opportunities at the intersection of science, technology, sociology, and law.
This book contains the papers and posters presented at the Eucarpia Fruit Breeding Section Meeting held at Wädenswil/Einsiedeln, Switzerland from August 30 to September 3, 1993. It gives an overview of the latest trends in temperate fruit breeding in Europe and overseas. Three subjects were considered in special workshops: durability of scab resistance in apple, biotechnology and molecular markers. One important aim of modern fruit breeding is stable resistance to pests and diseases. Molecular markers might help to identify the genetic basis of important characters related to disease and pest resistance and components of yield and quality. Gene transfer has been successfully applied in several fruit species. However, public opinion in many countries does not favour this new technology and its products. Despite these new approaches, traditional breeding methods still predominate; many aspects of traditional breeding are considered in this book. Genetic resources and their exploitation are dealt with in a special chapter. Aspects of breeding minor crops such as walnut, almond, hippophae, cornel, etc. are also considered. Progress in Temperate Fruit Breeding is meant for fruit breeders, pomologists, lecturers, students and growers.