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CRISPR-Enhanced Photocurrent Polarity Switching for Dual-lncRNA Detection Combining Deep Learning for Cancer Diagnosis

Ruiying Yang, Jiangying Ji, Lihua Ding, Xinxin Yuan, Lingbo Qu, Yongjun Wu, Yuling Li

2024Analytical Chemistry34 citationsDOI

Abstract

Abnormal expression in long noncoding RNAs (lncRNAs) is closely associated with cancers. Herein, a novel CRISPR/Cas13a-enhanced photocurrent-polarity-switching photoelectrochemical (PEC) biosensor was engineered for the joint detection of dual lncRNAs, using deep learning (DL) to assist in cancer diagnosis. After target lncRNA-activated CRISPR/Cas13a cleaves to induce DNAzyme bidirectional walkers with the help of cofactor Mg 2+, nitrogen-doped carbon–Cu/Cu 2 O octahedra are introduced into the biosensor, producing a photocurrent in the opposite direction of CdS quantum dots (QDs). The developed PEC biosensor shows high specificity and sensitivity with limits of detection down to 25.5 aM for lncRNA HOTAIR and 53.1 aM for lncRNA MALAT1. More importantly, this platform for the lncRNA joint assay in whole blood can successfully differentiate cancers from healthy people. Furthermore, the DL model is applied to explore the potential pattern hidden in data of the established technology, and the accuracy of DL cancer diagnosis can acquire 93.3%. Consequently, the developed platform offers a new avenue for lncRNA joint detection and early intelligent diagnosis of cancer.

Topics & Concepts

CRISPRChemistryPolarity (international relations)PhotocurrentComputational biologyDual roleLong non-coding RNADual (grammatical number)DeoxyribozymeCancerCancer researchNanotechnologyRNAGeneCombinatorial chemistryOptoelectronicsDNABiochemistryGeneticsBiologyPhysicsArtLiteratureMaterials scienceCellCRISPR and Genetic EngineeringCancer-related molecular mechanisms researchRNA and protein synthesis mechanisms
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