CRISPR System from Encounter with a Mysterious Repeated Sequence to Genome Editing Technology

Subject Areas : cellular , molecular

Mojtaba Sohrabi ¹ (Department of microbiology, Qom Branch, Islamic Azad University,Qom,Iran)
Zahrasadat Monzavi ² (student, MS in Biotechnology, Department of Biotechnology, Qom Branch, Islamic Azad University, Qom, Iran)
zahra abdolahi ³ (student, MS in Biotechnology, Department of Biotechnology, Qom Branch, Islamic Azad University, Qom, Iran)
hamed salmani ⁴ (student, MS in Biotechnology, Department of Biotechnology, Qom Branch, Islamic Azad University, Qom, Iran)
somayeh dehghani sanij ⁵ (Lecture, MsC in Microbiology, Department of microbiology, Qom Branch, Islamic Azad University, Qom, Iran.)
Abbas Morovvati ⁶ (management and teacher)

Received: 2019-04-13 Accepted : 2019-12-05 Published : 2019-10-23

Keywords: repeated sequence, genome editing, archaea, casposon,

Abstract :

Clustered regularly interspaced short palindromic repeat (CRISPR)- Cas systems are well-known acquired immunity systems that are widespread in archaea and bacteria. The RNA-guided nucleases from CRISPR-Cas systems are currently regarded as the most reliable tools for genome editing and engineering. The first hint of their existence came in 1987, when an unusual repetitive DNA sequence, which subsequently was defined as a CRISPR, was discovered in the Escherichia coli genome during an analysis of genes involved in phosphate metabolism. Similar sequence patterns were then reported in a range of other bacteria as well as in halophilic archaea, suggesting an important role for such evolutionarily conserved clusters of repeated sequences. A critical step toward functional characterization of the CRISPR-Cas systems was the recognition of a link between CRISPRs and the associated Cas proteins, which were initially hypothesized to be involved in DNA repair in hyperthermophilic archaea. Comparative genomics, structural biology, and advanced biochemistry could then work hand in hand, not only culminating in the explosion of genome editing tools based on CRISPR-Cas9 and other class II CRISPR-Cas systems but also providing insights into the origin and evolution of this system from mobile genetic elements denoted casposons. To celebrate the 30th anniversary of the discovery of CRISPR, this minireview briefly discusses the fascinating history of CRISPR-Cas systems, from the original observation of an enigmatic sequence in E. coli to genome editing in humans.

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CRISPR System from Encounter with a Mysterious Repeated Sequence to Genome Editing Technology