AI Article Synopsis
- Selfish genetic elements are a common feature in all living organisms, prompting the evolution of defense mechanisms, such as CRISPR-Cas systems, to counteract these genetic parasites.
- CRISPR-Cas systems, particularly Type III, are designed to recognize and destroy foreign RNA, but they are less understood due to their complex mechanisms compared to other CRISPR types.
- This review outlines the historical progression of Type III CRISPR research, discusses its structural and functional components, and uses AlphaFold2 modeling to propose that the HRAMP protein may share ancestry with Type III CRISPR-Cas systems.
Article Abstract
The emergence and persistence of selfish genetic elements is an intrinsic feature of all living systems. Cellular organisms have evolved a plethora of elaborate defense systems that limit the spread of such genetic parasites. CRISPR-Cas are RNA-guided defense systems used by prokaryotes to recognize and destroy foreign nucleic acids. These systems acquire and store fragments of foreign nucleic acids and utilize the stored sequences as guides to recognize and destroy genetic invaders. CRISPR-Cas systems have been extensively studied, as some of them are used in various genome editing technologies. Although Type III CRISPR-Cas systems are among the most common CRISPR-Cas systems, they are also some of the least investigated ones, mostly due to the complexity of their action compared to other CRISPR-Cas system types. Type III effector complexes specifically recognize and cleave RNA molecules. The recognition of the target RNA activates the effector large subunit - the so-called CRISPR polymerase - which cleaves DNA and produces small cyclic oligonucleotides that act as signaling molecules to activate auxiliary effectors, notably non-specific RNases. In this review, we provide a historical overview of the sometimes meandering pathway of the Type III CRISPR research. We also review the current data on the structures and activities of Type III CRISPR-Cas systems components, their biological roles, and evolutionary history. Finally, using structural modeling with AlphaFold2, we show that the archaeal HRAMP signature protein, which heretofore has had no assigned function, is a degenerate relative of Type III CRISPR-Cas signature protein Cas10, suggesting that HRAMP systems have descended from Type III CRISPR-Cas systems or their ancestors.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8527444 | PMC |
| http://dx.doi.org/10.1134/S0006297921100114 | DOI Listing |
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