| 論文作者 |
Ma, QL; Zhang, YH; Chen, L; Bao, YS; Guo, W; Feng, KY; Huang, T; Cai, YD |
| 摘要 |
PurposeAnti-CRISPR (Acr) proteins can evade CRISPR-Cas immunity, yet their molecular determinants remain poorly understood. This study aimed to uncover key features driving Acr activity, thereby advancing both fundamental knowledge and the rational design of robust CRISPR-based tools.Experimental designWe compiled a binary-encoded matrix of 761 InterPro-annotated domains and binding-site features for known Acr proteins. Seven feature ranking algorithms were applied to prioritize determinant features, and an incremental feature selection strategy, coupled with four distinct classifiers, was used to identify optimal subsets. Consensus key features were defined by intersecting the top subsets across all methods.ResultsKey identified features include the DUF2829 domain, the Lambda repressor-like domain and Sulfolobus islandicus virus proteins, the Cro/C1-type helix-turn-helix domain, phage protein, and replication initiator A. These findings illuminate novel structural modules and regulatory motifs that underpin Acr inhibition.ConclusionsThis study provides critical theoretical support for deciphering Acr mechanisms and offers actionable insights for engineering next-generation CRISPR-Cas applications in clinical and biotechnological settings.Summary The CRISPR system is a part of the antiviral immune defense initially discovered in bacteria and archaea. At present, the CRISPR system has become the cornerstone of genome editing technologies such as CRISPR-Cas9, widely used in clinical, agricultural, and biological research. Anti-CRISPR proteins are a group of proteins that inhibit the normal activity of CRISPR-Cas system in certain bacteria or archaea and avoid having the phages' genomes destroyed by the prokaryotic cells. The anti-CRISPR protein family has various components, but with similar functions to help exogenous DNA escape from the immune system. This study tried to uncover molecular mechanisms for anti-CRISPR proteins. |
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