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Author: Monica Justice Publisher: Springer Science & Business Media ISBN: 1402050577 Category : Science Languages : en Pages : 98
Book Description
The Second Georgia Genetics Symposium was held color. Soon after, he joined the sta? of The Jackson in September 2000, and the development of this Laboratory in Bar Harbor, Maine. book took place over the nearly 4 years that ensued. Much of Bill’s research at the lab was centered During this time, many advances in the Genome around investigating phenotypic variability within Project and mouse mutagenesis were made. In the highly inbred strains, and in that connection he book overview, we discuss the development of the developed the technique of ovarian transplanta- Genome Project (which is the context for the sym- tion (even using embryonic donors) and a genetic posium), the role the mouse was playing at that scheme whereby graft compatibility could be time, how that role has evolved, and how the combined with the ability to distinguish o?spring chapters of the book address issues in mouse func- from donor and regenerated host ovaries. His tional genetics. Many of the chapters in this book work was in?uenced by the second World War, will provide useful resources for years to come. ?rst because The Jackson Laboratory turned into Of greater impact, our keynote speaker, the a production colony for the military, primarily to mutagenesis pioneer William L. (Bill) Russell, produce mice for typhoid testing, and secondly, passed away on July 23, 2003.
Author: Monica Justice Publisher: Springer Science & Business Media ISBN: 1402050577 Category : Science Languages : en Pages : 98
Book Description
The Second Georgia Genetics Symposium was held color. Soon after, he joined the sta? of The Jackson in September 2000, and the development of this Laboratory in Bar Harbor, Maine. book took place over the nearly 4 years that ensued. Much of Bill’s research at the lab was centered During this time, many advances in the Genome around investigating phenotypic variability within Project and mouse mutagenesis were made. In the highly inbred strains, and in that connection he book overview, we discuss the development of the developed the technique of ovarian transplanta- Genome Project (which is the context for the sym- tion (even using embryonic donors) and a genetic posium), the role the mouse was playing at that scheme whereby graft compatibility could be time, how that role has evolved, and how the combined with the ability to distinguish o?spring chapters of the book address issues in mouse func- from donor and regenerated host ovaries. His tional genetics. Many of the chapters in this book work was in?uenced by the second World War, will provide useful resources for years to come. ?rst because The Jackson Laboratory turned into Of greater impact, our keynote speaker, the a production colony for the military, primarily to mutagenesis pioneer William L. (Bill) Russell, produce mice for typhoid testing, and secondly, passed away on July 23, 2003.
Author: Publisher: ISBN: Category : Languages : en Pages :
Book Description
Random insertional mutagenesis can reveal a lot of insight in specific gene function and phenotypical consequences of the affected gene. The generation of such mutations in the model organism mouse is due to the striking synteny of mouse and human genomes especially interesting with respect to human genetic diseases. In this work, the establishment of a transposon-based mutagenic in vivo screen was the goal. The combination of this method with recombinase techniques even enables the directed mutagenesis of critical regions, to identify new candidate genes.
Author: Yoichi Gondo Publisher: Elsevier Inc. Chapters ISBN: 0128072245 Category : Medical Languages : en Pages : 1108
Book Description
To create and establish mutant mice as models for human diseases and traits, various forward and reverse genetics tools are currently available. Newly developed tools of high-throughput identification of novel mutations and site-directed mutagenesis, or gene targeting, in the mouse genome have caused forward and reverse genetics, respectively, to rapidly expand during the last two decades. Worldwide efforts including a variety of international consortiums have been producing many useful mutant mouse strains for functional genomics to elucidate the mechanisms behind diseases and traits. Resource centers and public databases have also been built to enhance their utilities. The modeling has started from Mendelian monogenic traits and has expanded to more complex quantitative traits as well. Multidisciplinary integration among, for example, molecular, cellular, and developmental biology; genetics; genomics; medicine; statistics; and informatics must be orchestrated to fully utilize the resources and knowledge of model mice.
Author: Jean Louis Guénet Publisher: Springer ISBN: 3662442876 Category : Science Languages : en Pages : 408
Book Description
This book, written by experienced geneticists, covers topics ranging from the natural history of the mouse species, its handling and reproduction in the laboratory, and its classical genetics and cytogenetics, to modern issues including the analysis of the transcriptome, the parental imprinting and X-chromosome inactivation. The strategies for creating all sorts of mutations, either by genetic engineering or by using mutagens, are also reviewed and discussed in detail. Finally, a last chapter outlines the methodology used for the analysis of complex or quantitative traits. The authors also discuss the importance of accurate phenotyping, which is now performed in the mouse clinics established worldwide and identify the limits of the mouse model, which under certain circumstances can fail to present the phenotype expected from the cognate condition in the human model. For each chapter an up-to-date list of pertinent references is provided. In short, this book offers an essential resource for all scientists who use or plan to use mice in their research.
Author: Eugene J. Eisen Publisher: World Scientific ISBN: 1860945651 Category : Science Languages : en Pages : 364
Book Description
The sequencing of the mouse genome has placed the mouse front and center as the most important mammalian genetics model. However, no recent volume has detailed the genetic contributions the mouse has made across the spectrum of the life sciences; this book aims to fill that vacuum. Mouse genetics research has made enormous contributions to the understanding of basic genetics, human genetics, and livestock genetics and breeding. The wide-ranging topics in the book include the mouse genome sequencing effort, molecular dissection of quantitative traits, embryo biotechnology, ENU mutagenesis, and genetics of disease resistance, and have been written by experts in their respective fields.Chapter 1: The Beginnings - Ode To A Wee Mouse (58 KB)
Author: Ralf Kühn Publisher: Humana Press ISBN: 9781627038348 Category : Science Languages : en Pages : 516
Book Description
Following the completion of the mouse and human genome sequences, a major challengeisthefunctionalcharacterizationofeverymammaliangeneandthedeciph- ing of their molecular interaction network. The mouse offers many advantages for the use of genetics to study human biology and disease, unmatched among other m- mals. Its development, body plan, physiology, behavior, and diseases have much in common, based on the fact that 99% of the human genes have a mouse ortholog. The investigation of gene function using mouse models is based on many years of tech- logical development. In the two decades since gene targeting in murine embryonic stem (ES) cells was first described by Mario Capecchi and colleagues, more than 3000 predesigned mouse mutants have been developed. To date, a variety of mouse mutagenesis techniques, either gene- or phenotype-driven, are used as systematic approaches. The availability of the genome sequence supports gene-driven approaches such as gene-trap and targeted mutagenesis in ES cells, allowing efficient and precise gene disruption. In combination with the use of site-specific DNA recombinases, in particular the Cre/loxP system, gene disruptioncan be directed to specific cell types in conditionalmousemutants. Furthermore,chemicalandtransposonmutagenesisofthe mouse genome enables us to perform phenotype-driven screens for the unbiased identification of phenotype–genotype correlations involved in models of human d- ease. Over the next several years, the mouse genome will be systematically altered, and the techniques for achieving predesigned manipulations will be constantly developed further and improved. The second edition of Gene Knockout Protocols brings together distinguished c- tributorswithextensiveexperienceinthegenetargetingandmousegeneticsfields.
Author: John P. Sundberg Publisher: CRC Press ISBN: 1420039075 Category : Medical Languages : en Pages : 336
Book Description
While mice have always been highly popular laboratory subjects, their suitability for genetic engineering has solidified their position as today's lab animal model of choice. However, their increased use in genetic studies has created a demand for input on phenotyping that is not always easily met. To improve the flow of information on the pathology of mice with spontaneous or genetically engineered mutations, prominent researchers organized a series of meetings. Recognizing other needs, the organizers gradually broadened their focus, until finally they expanded to provide an overview of the entire field of genetically engineered models. The Genetically Engineered Mice Handbook is an extension of those meetings. It offers an introduction for those entering into this area of research, while also serving as a resource for those presently employing mice as laboratory models. Highly comprehensive, this volume covers pertinent aspects of genetically engineered mice, including the use of models for developmental biology and the monitoring of laboratory colonies. With contributions from nearly five-dozen leading researchers, the text presents systematic approaches for analyzing mutant mice for specific medical applications, details a variety of methods for creating mutants and includes information that is particularly hard to access dealing with legal responsibilities. This essential reference examines commonly used traditional, as well as emerging, technologies To address the purpose of the original meeting, the Genetically Engineered Mice Handbook directs researchers to the best public websites, and offers instruction on how to use them. In the past, as their work dictated, researchers would seek out experts on particular organ systems. Now groups of experts work together to generate these websites, providing the latest data as well as discussions over points of debate. These sites do not eliminate the need for a trained pathologist, but they do provide reference materials for those lacking expertise in particular anatomic structures. They also offer much greater numbers of examples than are available in print, from which biomedical researchers can draw.
Author: Paul Wassarman Publisher: Academic Press ISBN: 9780123848819 Category : Science Languages : en Pages : 628
Book Description
This volume comprehensively covers new technologies and methodologies that have appeared for the study of mouse development. This volume is Part B of an update of volume 225, Guide to Techniques in Mouse Development, edited by P.M. Wassarman and M.L. DePamphilis and published in 1993. Comprehensively covers new techniques for the cryopreservation of gametes and embryos, production of transgenic and null (knockout) animals (use of ES cells), generation of conditional/inducible mutant animals, use of gene-trap mutagenesis, analysis of allele-specific expression, use of new reporter constructs, humanizing of transgenic animals, transcript profiling of mouse development, imaging of mouse development, and rederivation of animals and use of mouse genomics.
Author: Ralf Kühn Publisher: Humana Press ISBN: 9781934115268 Category : Science Languages : en Pages : 516
Book Description
Following the completion of the mouse and human genome sequences, a major challengeisthefunctionalcharacterizationofeverymammaliangeneandthedeciph- ing of their molecular interaction network. The mouse offers many advantages for the use of genetics to study human biology and disease, unmatched among other m- mals. Its development, body plan, physiology, behavior, and diseases have much in common, based on the fact that 99% of the human genes have a mouse ortholog. The investigation of gene function using mouse models is based on many years of tech- logical development. In the two decades since gene targeting in murine embryonic stem (ES) cells was first described by Mario Capecchi and colleagues, more than 3000 predesigned mouse mutants have been developed. To date, a variety of mouse mutagenesis techniques, either gene- or phenotype-driven, are used as systematic approaches. The availability of the genome sequence supports gene-driven approaches such as gene-trap and targeted mutagenesis in ES cells, allowing efficient and precise gene disruption. In combination with the use of site-specific DNA recombinases, in particular the Cre/loxP system, gene disruptioncan be directed to specific cell types in conditionalmousemutants. Furthermore,chemicalandtransposonmutagenesisofthe mouse genome enables us to perform phenotype-driven screens for the unbiased identification of phenotype–genotype correlations involved in models of human d- ease. Over the next several years, the mouse genome will be systematically altered, and the techniques for achieving predesigned manipulations will be constantly developed further and improved. The second edition of Gene Knockout Protocols brings together distinguished c- tributorswithextensiveexperienceinthegenetargetingandmousegeneticsfields.
Author: Monica Justice
Author: Monica Justice
Author: 
Author: Yoichi Gondo
Author: Jean Louis Guénet
Author: Eugene J. Eisen
Author: Francesca Cesari Weimar
Author: Ralf Kühn
Author: John P. Sundberg
Author: Paul Wassarman
Author: Ralf Kühn