Abstract
CRISPR-Cas system was first mentioned in 1987, and over the years have been studied so active that now it becomes the state-of-the-art tool for genome editing. Its working principle is based on Cas nuclease ability to bind short RNA, which targets it to complementary DNA or RNA sequence for highly precise cleavage. This alone or together with donor DNA allows to modify targeted sequence in different ways. Considering the many limitations of using native CRISPR-Cas systems, scientists around the world are working on creating modified variants to improve their specificity and efficiency in different objects. In addition, the use of the Cas effectors' targeting function in complex systems with other proteins is a promising work direction, as a result of which new tools are created with features such as single base editing, editing DNA without break and donor DNA, activation and repression of transcription, epigenetic regulation, modifying of different repair pathways involvement etc. In this review, we decided to consider in detail exactly this issue of variants of Cas effectors, their modifications and fusion molecules, which improve DNA-targeting and expand the scope of Cas effectors.
Published Version
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