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CRISPR technology has been extensively used in vitro and in vivo as a tool in basic research for genetic editing (e.g., genome encoding, silencing, enhancing, and modification). Although there are many technical and ethical challenges to overcome, such as off-target effects, delivery tool selection, and safety concerns, scientists are working to improve this technology. CRISPR technology is promising for practical applications as well as for laboratory work and basic research. Currently, CRISPR is being used successfully in microbial detection, disease diagnosis, and manufacturing of agricultural products, food, industrial products, and medicinal products. The development of medicinal products using CRISPR will open a new era for human therapeutics and may bring hope for the recovery of ill patients. This book provides a comprehensive overview of CRISPR technology. It examines its discovery, improvement, and implications, explores its technology and applications, and discusses perspectives and challenges.

CRISPR (Genetics)

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CRISPR technology has been extensively used in vitro and in vivo as a tool in basic research for genetic editing (e.g., genome encoding, silencing, enhancing, and modification). Although there are many technical and ethical challenges to overcome, such as off-target effects, delivery tool selection, and safety concerns, scientists are working to improve this technology. CRISPR technology is promising for practical applications as well as for laboratory work and basic research. Currently, CRISPR is being used successfully in microbial detection, disease diagnosis, and manufacturing of agricultural products, food, industrial products, and medicinal products. The development of medicinal products using CRISPR will open a new era for human therapeutics and may bring hope for the recovery of ill patients. This book provides a comprehensive overview of CRISPR technology. It examines its discovery, improvement, and implications, explores its technology and applications, and discusses perspectives and challenges.

CRISPR (Genetics)

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CRISPR technology has been extensively used in vitro and in vivo as a tool in basic research for genetic editing (e.g., genome encoding, silencing, enhancing, and modification). Although there are many technical and ethical challenges to overcome, such as off-target effects, delivery tool selection, and safety concerns, scientists are working to improve this technology. CRISPR technology is promising for practical applications as well as for laboratory work and basic research. Currently, CRISPR is being used successfully in microbial detection, disease diagnosis, and manufacturing of agricultural products, food, industrial products, and medicinal products. The development of medicinal products using CRISPR will open a new era for human therapeutics and may bring hope for the recovery of ill patients. This book provides a comprehensive overview of CRISPR technology. It examines its discovery, improvement, and implications, explores its technology and applications, and discusses perspectives and challenges.

CRISPR (Genetics)

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Not since the atomic bomb as a technology so alarmed its inventors that they warned the world about its use. Not, that is, until 2015, when biologist Jennifer Doudna called for a worldwide moratorium on the use of the gene-editing tool CRISPR - a revolutionary new technology that she helped create - to make heritable changes in human embryos. The cheapest, simplest, most effective way of manipulating DNA ever known, CRISPR may well give us the cure to HIV, genetic diseases, and some cancers. Yet even the tiniest changes to DNA could have myriad, unforeseeable consequences - to say nothing of the implications of intentionally mutating embryos to create 'better' humans.

CRISPR (GENETICS) --- GENE EDITING

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Histology. Cytology --- CRISPR (Genetics) --- Genetics --- Clustered Regularly Interspaced Short Palindromic Repeats. --- Gene Editing. --- Genetic Research. --- Research --- Moral and ethical aspects --- Moral and ethical aspects. --- Research. --- Research, Genetic --- Genome Editing --- Base Editing --- Editing, Base --- Editing, Gene --- Editing, Genome --- CRISPR-Associated Protein 9 --- Mutagenesis, Site-Directed --- CRISPR-Cas Systems --- CRISPR Arrays --- CRISPR Clusters --- CRISPR Elements --- CRISPR Loci --- CRISPR Locus --- CRISPR Sequences --- CRISPR Spacer Sequences --- CRISPR Spacers --- CRISPR-Cas Loci --- CRISPRs --- Clustered Regularly Interspaced Short Palindromic Repeat --- Array, CRISPR --- Arrays, CRISPR --- CRISPR --- CRISPR Array --- CRISPR Cas Loci --- CRISPR Cluster --- CRISPR Element --- CRISPR Sequence --- CRISPR Spacer --- CRISPR Spacer Sequence --- CRISPR-Cas Locus --- Cluster, CRISPR --- Clusters, CRISPR --- Element, CRISPR --- Elements, CRISPR --- Loci, CRISPR --- Loci, CRISPR-Cas --- Locus, CRISPR --- Locus, CRISPR-Cas --- Sequence, CRISPR --- Sequence, CRISPR Spacer --- Sequences, CRISPR --- Sequences, CRISPR Spacer --- Spacer Sequence, CRISPR --- Spacer Sequences, CRISPR --- Spacer, CRISPR --- Spacers, CRISPR --- CRISPR-Associated Proteins --- Genetic research --- Biology --- Embryology --- Mendel's law --- Adaptation (Biology) --- Breeding --- Chromosomes --- Heredity --- Mutation (Biology) --- Variation (Biology) --- Clustered Regularly Interspaced Short Palindromic Repeats (Genetics) --- Immunogenetics --- Nucleotide sequence