Publisher's Synopsis
The Power and Peril of Gene Editing
CRISPR/Cas9 Technology
The must-read summary of "A Crack in Creation: Gene Editing and the Unthinkable Power to Control Evolution" by Jennifer A. Doudna and Samuel H. Sternberg.
This complete summary of Jennifer Doudna and Samuel Sternberg's book tells the story of CRISPR and "gene-editing." CRISPR is a cutting-edge gene-editing technology that mimics what happens naturally in bacteria. It enables scientists to "play god" with plant or animal DNA, with unlimited power and peril.
The technology of gene editing is the most important advance in our era. The possibility of forever altering the genetic composition of humankind is frightening. Yet we can't overlook the opportunities that may lead to inventions for cures of HIV, debilitating genetic diseases, and cancers, and end food shortages.
The book will demystify this exciting area of science and inspire you to seek answers to tough moral and ethical questions on the use of this technology.
This guide includes:
- Book Summary-The summary helps you understand the key ideas and recommendations.
- Online Videos-On-demand replay of public lectures, and seminars on the topics covered in the chapter.
Value-added of this guide:
- Save time
- Understand key concepts
- Expand your knowledge
Read this summary and get involved in the debate on the moral and ethical issues on the use of this technology.
Tags: genetics; genetic diseases; muscular dystrophy;sickle cell disease; HIV; genetically modified organisms; gmo; transgenic mouse; DNA; RNA; gene editing; gene therapy; germ cells; somatic cells; germline editing; ex vivo therapy; in vivo therapy; ivf; in vitro fertilization; bacterial immune system; CRISPR; CRISPR-Cas9 system; beta-thalassemia; CCR5; genome; chromosomes; bacteriophages; genetic code; argiculture; cancer; cancer immunotherapy; gene drive; gene-edited crops; gene-edited animals; preimplantation genetic diagnosis; DNA repair; double helix; homologous recombination; recombinant DNA; de-extinction; mutation; dna mutation; repeating sequences; double muscling; human embryos; triploid; ethics; germline modification; human genome; gene expression; gene insertion; gene deletion; gene knockout; gene knock-in; gene splicing; gene targeting; genetic research; genetic engineering;in vivo gene editing; ex vivo gene editing; mitochondria; reproduction; replication; therapeutics; transcription; translation; viral vectors; viruses; CRISPR-Cas immune system
