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CRISPR-Cas9 genome editing techniques have many potential applications. The use of the CRISPR-Cas9-gRNA complex for genome editing [10] was the AAAS's choice for Breakthrough of the Year in 2015. [11] Many bioethical concerns have been raised about the prospect of using CRISPR for germline editing, especially in human embryos. [12]
A significant breakthrough occurred in 2012 when it was discovered that gRNA could guide the Cas9 endonuclease to introduce target-specific cuts in double-stranded DNA. This discovery led to the 2020 Nobel Prize awarded to Jennifer Doudna and Emmanuelle Charpentier for their contributions to the development of CRISPR-Cas9 gene-editing technology.
Type-II CRISPR systems [7] are characterized by the single signature nuclease Cas9. [8] In type-II CRISPR systems crRNA and tracrRNA (trans-activating CRISPR RNA) can form a complex known as the guide RNA or gRNA. [9] The crRNA within the gRNA is what matches up with the target sequence or protospacer after the PAM is found. Once the match is ...
See: Guide RNA, CRISPR. Complementary base pairing between the sgRNA and genomic DNA allows targeting of Cas9 or dCas9. A small guide RNA (sgRNA), or gRNA is an RNA with around 20 nucleotides used to direct Cas9 or dCas9 to their targets. gRNAs contain two major regions of importance for CRISPR systems: the scaffold and spacer regions.
The CRISPR-CAS9 system has the ability to either upregulate or downregulate genes. The dCas9 proteins are a component of the CRISPR-CAS9 system and these proteins can repress certain areas of a plant gene. This happens when dCAS9 binds to repressor domains, and in the case of the plants, deactivation of a regulatory gene such as AtCSTF64, does ...
Targeted gene knockout using CRISPR/Cas9 requires the use of a delivery system to introduce the sgRNA and Cas9 into the cell. Although a number of different delivery systems are potentially available for CRISPR, [ 37 ] [ 38 ] genome-wide loss-of-function screens are predominantly carried out using third generation lentiviral vectors.
A common delivery method for CRISPR/Cas9 in plants is Agrobacterium-based transformation. [63] T-DNA is introduced directly into the plant genome by a T4SS mechanism. Cas9 and gRNA-based expression cassettes are turned into Ti plasmids, which are transformed in Agrobacterium for plant application. [63]
The CRISPR-Cas9 system consists of an enzyme called Cas9 and a special piece of guide RNA (gRNA). Cas9 acts as a pair of ‘molecular scissors’ that can cut the DNA at a specific location in the genome so that genes can be added or removed. The guide RNA has complementary bases to those at the target location, so it binds only there.
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