A rapid nucleic acid detection platform based on phosphorothioate-DNA and sulfur binding domain
Yuting Shuai, Yi Ju, Yuanhang Li, Dini Ma, Lan Jiang, Jingyu Zhang, Gao-Yi Tan, Xueting Liu, Shenlin Wang, Lixin Zhang, Guang Liu
Journal:Synthetic and Systems Biotechnology
IF:4.8
DOI:10.1016/j.synbio.2023.02.002
PMID:36875498
Published:2023-02-11
research field:
Abstract
Nucleic acid detection plays a key role in diverse diagnosis and disease control. Currently available nucleic acid detection techniques are challenged by trade-offs among speed, simplicity, precision and cost. Here, we described a novel method, designated SENSOR ( S ulfur DNA m e diated n ucleic acid s ensing platf or m), for rapid nucleic acid detection. SENSOR was developed from phosphorothioate (PT)-DNA and sulfur binding domain (SBD) which specifically binds double-stranded PT-modified DNA. SENSOR utilizes PT-DNA oligo and SBD as targeting module, which is linked with split luciferase reporter to generate luminescence signal within 10 min. We tested detection on synthesized nucleic acid and COVID-19 pseudovirus, achieving attomolar sensitivity combined with an amplification procedure. Single nucleotide polymorphisms (SNP) could also be discriminated. Indicating SENSOR a new promising nucleic acid detection technique.
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