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Retraction for Mustafa and Makhawi, "SHERLOCK and DETECTR: CRISPR-Cas Systems as Potential Rapid Diagnostic Tools for Emerging Infectious Diseases". [PDF]
American Society for Microbiology.
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Application of CRISPR-Cas systems in neuroscience
2021CRISPR-Cas systems have, over the years, emerged as indispensable tools for Genetic interrogation in contexts of clinical interventions, elucidation of genetic pathways and metabolic engineering and have pervaded almost every aspect of modern biology.
Deepro Bonnerjee, Sangram Bagh
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RNA-targeting CRISPR–Cas systems
Nature Reviews Microbiology, 2022CRISPR-Cas is a widespread adaptive immune system in bacteria and archaea that protects against viral infection by targeting specific invading nucleic acid sequences. Whereas some CRISPR-Cas systems sense and cleave viral DNA, type III and type VI CRISPR-Cas systems sense RNA that results from viral transcription and perhaps invasion by RNA viruses ...
Sam P. B. van Beljouw+3 more
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Enhancing CRISPR/Cas systems with nanotechnology
Trends in Biotechnology, 2023CRISPR/Cas systems have revolutionized biology and medicine, and have led to new paradigms in disease diagnostics and therapeutics. However, these complexes suffer from key limitations regarding barriers to cellular entry, stability in biological environments, and off-target effects.
Rupali Chowdhry+5 more
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CRISPR/Cas System: An Introduction
2021The process of altering genetic code to modify DNA precisely and efficiently within a cell is known as genome editing. All techniques used for changing a gene in a cell are based on cutting of double-stranded DNA through DNA endonucleases at specific site.
Aftab Ahmad, Nayla Munawar
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Enzyme and Microbial Technology, 2020
Cyanobacteria are photosynthetic microorganisms that are capable of converting CO2 to value-added chemicals. Engineering of cyanobacteria with synthetic biology tools, including the CRISPR-Cas system, has allowed an opportunity for biological CO2 utilization.
Napisa Pattharaprachayakul+3 more
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Cyanobacteria are photosynthetic microorganisms that are capable of converting CO2 to value-added chemicals. Engineering of cyanobacteria with synthetic biology tools, including the CRISPR-Cas system, has allowed an opportunity for biological CO2 utilization.
Napisa Pattharaprachayakul+3 more
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The CRISPR/Cas System in Human Cancer
2023The use of CRISPR as a genetic editing tool modified the oncology field from its basic to applied research for opening a simple, fast, and cheaper way to manipulate the genome. This chapter reviews some of the major uses of this technique for in vitro- and in vivo-based biological screenings, for cellular and animal model generation, and new derivative
Martín Hérnan, Bonamino+1 more
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An introduction and use of the CRISPR-Cas systems
2021Clusters of regularly interspaced short palindromic repeats (CRISPR) and CRISPR associated proteins (Cas) system (CRISPR-Cas) is a rapidly evolving field of targeted genome engineering. The type II CRISPR-Cas9 is used for genome editing of many organisms. Single guide RNA (sgRNA) can bind to Cas9 protein that can target desired sequences in presence of
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CRISPR-Cas system and coevolution of bacteria and phages
Hereditas (Beijing), 2011In response to the challenge from phages, bacteria evolve a number of defense systems against phage invasion. Meanwhile, the phages evolve multiple counter-defense mechanism as well under the selection pressure from bacteria. The evolution relationship between bacteria and phages, as well as the functional mechanism, still remains to be uncovered.
Bo Du, Tie-Min Li
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