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Duplicated passages of source code - code clones - are a common property of software systems. While clones are beneficial in some situations, their presence causes various problems for software maintenance. Most of these problems are strongly related to change and include, for example, the need to propagate changes across duplicated code fragments and the risk of inconsistent changes to clones that are meant to evolve identically. Hence, we need a sophisticated analysis of clone evolution to better understand, assess, and manage duplication in practice. This thesis introduces Clone Evolution Graphs as a technique to model clone relations and their evolution within the history of a system. We present our incremental algorithm for efficient and automated extraction of Clone Evolution Graphs from a system's history. The approach is shown to scale even for large systems with long histories making it applicable to retroactive analysis ofclone evolution as well as live tracking of clones during software maintenance.We have used Clone Evolution Graphs in several studies to analyze versatile aspects of clone evolution in open-source as well as industrial systems. Our results show that the characteristics of clone evolution are quite different between systems, highlighting the need for a sophisticated technique like Clone Evolution Graphs to track clones and analyze their evolution on a per-system basis. We have also shown that Clone Evolution Graphs are well-suited to analyze the change behavior of individual clones and can be used to identify problematic clones within a system. In general, the results of our studies provide new insights into how clones evolve, how they are changed, and how they are removed.
From this collection, readers will gain a clearer picture of the history of cloning in agriculture and animal science, the various biological procedures that are encompassed by the term "cloning," the philosophical arguments in support of and opposed to cloning humans, and the considerations that should inform discussions about public policy matters related to cloning research and to human cloning itself.
Transgenic methodologies continue to evolve and have dramatically influenced a cross section of disciplines. They are recognized as instrumental in expanding our understanding of gene expression, regulation and function. This book covers the aspects of gene transfer in animals-from molecular methods to whole animal considerations across a host of species. The book starts with an introduction of what are transgenic animals. Chapter 1 methods and applications related to transgenic application. Chapter 2 describes the Use of Transgenic Animals in Biotechnology as Prospects and Problems. Chapter 3 study about Transgenic Animals in Agriculture. Chapter 4 depicts about the Gene Replacement and Transgenic Animals. This chapter give insight on Specific Sites in Cloned Genes Can Be Altered in Vitro and DNA that can be transferred into Eukaryotic Cells in Various Ways. Chapter 5 discuss about basics of cloning. Chapter 6 tells about the Reproductive Cloning. Chapter 7 tells about the Cloning of Domestic Animals. Chapter 8 depicts about the Surface Epigenetic Reprogramming. Chapters 9 devoted to Animal Health Risks. This chapter focus on the critical biological systems approach to the analysis of clone animal. Chapter 10 describes the development of the Risk Assessment Methodology required for cloning.
This is the first book organized around code clone analysis. To cover the broad studies of code clone analysis, this book selects past research results that are important to the progress of the field and updates them with new results and future directions. The first chapter provides an introduction for readers who are inexperienced in the foundation of code clone analysis, defines clones and related terms, and discusses the classification of clones. The chapters that follow are categorized into three main parts to present 1) major tools for code clone analysis, 2) fundamental topics such as evaluation benchmarks, clone visualization, code clone searches, and code similarities, and 3) applications to actual problems. Each chapter includes a valuable reference list that will help readers to achieve a comprehensive understanding of this diverse field and to catch up with the latest research results. Code clone analysis relies heavily on computer science theories such as pattern matching algorithms, computer language, and software metrics. Consequently, code clone analysis can be applied to a variety of real-world tasks in software development and maintenance such as bug finding and program refactoring. This book will also be useful in designing an effective curriculum that combines theory and application of code clone analysis in university software engineering courses.
Tremendous strides in decoding the human genome have been made over the last ten years. Large, chromosome-scale, genome-scale EST-sequencing and mapping techniques have dramatically expanded the base of identified genes and sequenced DNA. Gene isolation and cloning techniques that emerged earlier on, however, still remain effective mainstays for constructing dense transcript maps to isolate coding sequences and disease-associated genes contained within a specific chromosomal region. Positional Cloning by Exon Trapping and cDNA Selection examines two powerful methods for locating the coding region of a given gene by isolating gene fragments from individual clones or pools of genomic clones. This comprehensive guide details the exon-trapping and cDNA selection processes step by step-from isolating genomic templates and nuclear splicing, to verifying generated clones and sequenced data, to analyzing exon libraries and cDNA sublibraries. Procedures covered include: * Exon-trapping systems and descriptions of pSPL1 and pSPL3 vectors. * Exon amplification protocols for preparing vectors for cloning; subcloning genomic DNA into vectors; transformation, analysis, and transfection of sublibraries; RNA transcription; and PCR amplification and PCR product cloning. * Evaluation of exon libraries by PCR colony testing, identifying artifactual clones using Southern blot, and sequencing and mapping back candidate exons. * Isolation of genomic templates, such as COSMID-, P1-, PAC, and YAC DNA. * cDNA selection experiment protocols including cDNA screening, hybridization, and biotinylation; preparation of genomic and cDNA sources; and PCR cloning. * Clone analysis and analysis by hybridization. Positional Cloning by Exon Trapping and cDNA Selection offers researchers, scientists, and graduate students an invaluable tool for probing gene distribution and molecular organization. Most importantly, it provides a critical approach to isolating specific disease genes within a targeted genomic area.
Known worldwide as the standard introductory text to this important and exciting area of study, Gene Cloning and DNA Analysis: An Introduction, 8th Edition preserves the tradition of excellence created by previous editions. Comprehensive and authoritative, the book explores all of the topics crucial to an understanding of gene cloning in an approachable way. An easy-to-follow and user-friendly layout is presented in full-color throughout the volume, making it simple to absorb the clear and accessible material contained within. Gene Cloning and DNA Analysis: An Introduction, 8th Edition contains updated and extended coverage of gene editing strategies like CRISPR/Cas, rewritten chapters on DNA sequencing and genome studies, as well as new material on real-time PCR and typing of human disease mutations. Over 250 full-color illustrations are included to bring to life the comprehensive content. The book also covers topics like: The strategies used by researchers and industry practitioners to assemble genome sequences Next generation sequencing methods and descriptions of their applications in studying genomes and transcriptomes Includes the use and application of gene editing strategies Interbreeding between Neanderthals and Homo Sapiens Gene Cloning and DNA Analysis: An Introduction, 8th Edition is an invaluable introductory text for students in classes like genetics and genomics, molecular biology, biochemistry, immunology, and applied biology. It also belongs on the bookshelves of every professional who desires to improve their understanding of the basics of gene cloning or DNA analysis.
In nature clones occur naturally in plants, but not in animals. According to the National Human Genome Research Institute, animals must be scientifically manipulated through different processes to create an identical copy of the genetic material, known as cloning. This thought-provoking volume explores the history of cloning, the ethical issues it raises, where research may lead it in the future, and cloning's role in curing diseases, creating custom organs, improving food, and saving animals.
Sample: "What does language do? Or, what does culture do? Language and culture are non-genetic mechanisms for increasing the number of qualities across individuals, and language and culture also increase the capacity for intraspecific assortative mating across individuals in the human species (by increasing the number of dissimilarities and categories of similarities across individuals in the human species). It is interesting to consider functional analogies amongst animals and plants: Birdsong and feather colors in bird species, and the colors and shapes of angiosperm flowering plant species play similar functions in these species, i.e., they increase the number and differentiation of characteristics across individual organisms, thus increasing the capacity for assortative mating across individual organisms in bird species (intraspecific assortative mating), and increasing the capacity for assortative mating across angiosperm species and insect, bee, and bird species (interspecific assortative mating).""
Cloning has the potential to be an extremely valuable tool across many fields. In agriculture, the reproductive cloning of farm animals could prove to be advantageous. In clinical medicine, the employment of therapeutic cloning for cell, tissue, and organ replacement appears to be imminent. However, as with any advancement that is poised to touch h
Provides an introduction to genetic analysis. This book covers contemporary genetics, and helps students understand the essentials of genetics, featuring various experiments, teaching them how to analyze data, and how to draw their own conclusions