Description
TAYLOR & FRANCIS Genome Editing Tools And Gene Drives A Brief Overview (Pb 2022) by MUDZIWAPASI R.
Genome-editing methods are becoming routine tools for molecular and cell biologists. Such tools include ZFNs, CRISPR, megaTALs and TALENs. These tools are revolutionizing the creation of precisely manipulated genomes to modify the characteristics of organisms or cells. Additionally, gene drives have altered the way we understand inheritance laws. They give us the ability to have total control of the inheritance of traits of choice and importance. This succinct volume summarizes the history, principles and applications - as well as the advantages and disadvantages - of each of these tools and various kinds of gene drives. The book is part of a program to produce books helpful to students and faculties of science at colleges and universities. This volume in the Pocket Guides to Biomedical Sciences series will help demystify these technologies. The book fills the gap between established conventional methods and the novel and exciting newly introduced tools of genome editing and gene drives. It will help young scientists understand the emerging genome-editing tools and gene drives, thereby promoting related research and adoption.Key FeaturesExtensively reviews the current genome-editing tools and gene drivesClarifies the targeting mechanisms and specificity of genome-editing toolsDetails many different types of natural and synthetic gene drivesHighlights concerns with gene drives and genome-editing toolsRelated TitlesBrown, T. A. Genomes 4 (ISBN 978-0-8153-4508-4)Samuelsson, T. The Human Genome in Health and Disease: A Story in Four Letters (ISBN 978-0-8153-4591-6)Soh, J., et al. Genome Annotation (ISBN 978-1-4398-4117-4) Chapter 01 Genome editingChapter 02 Zinc Finger NucleasesChapter 03 TalensChapter 04 megaTALs/ meganucleases Chapter 05 CRISPRChapter 06 Comparison of ZFNs, TALENs, CRISPR, and megaTALsChapter 07 Gene DrivesChapter 08 Supernumerary B chromosomesChapter 09 Suppression drive Chapter 10 Maternal Effect Dominant Embryonic Arrest (Medea) systemChapter 11 Heritable microorganisms: WolbachiaChapter 12 CRISPR gene drivesChapter 13 The Killer-Rescue system