A Simplified Amplification‐Free Strategy with Lyophilized CRISPR‐CcrRNA System for Drug‐Resistant <i>Salmonella</i> Detection

Bao, Qiyu; Sun, Jiadi; Fu, Xuran; Sheng, Lina; Ye, Yongli; Ji, Jian; Zhang, Yinzhi; Wang, Jiasheng; Ping, Jianfeng; Sun, Xiulan

doi:10.1002/smll.202207343

Cited by 7 publications

(2 citation statements)

References 44 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In the future, we will integrate an automatic magnetofluidic operation into the processor to enhance the automation of the LIAMT assay [ 43 ] . In addition, we will further lyophilize the reagents in the LIAMT device to simplify the device operation [ 44 , 45 ] . Overall, our simple, portable, sensitive, and self‐contained LIAMT platform is a promising tool for rapid detection of infectious disease at the point‐of‐care, especially in resource‐limited settings.…”

Section: Discussionmentioning

confidence: 99%

Palm‐Sized Lab‐In‐A‐Magnetofluidic Tube Platform for Rapid and Sensitive Virus Detection

Li,

Zhang,

Zhang

et al. 2024

Advanced Science

View full text Add to dashboard Cite

Simple, sensitive, and accurate molecular diagnostics are critical for preventing rapid spread of infection and initiating early treatment of diseases. However, current molecular detection methods typically rely on extensive nucleic acid sample preparation and expensive instrumentation. Here, a simple, fully integrated, lab‐in‐a‐magnetofluidic tube (LIAMT) platform is presented for “sample‐to‐result” molecular detection of virus. By leveraging magnetofluidic transport of micro/nano magnetic beads, the LIAMT device integrates viral lysis, nucleic acid extraction, isothermal amplification, and CRISPR detection within a single engineered microcentrifuge tube. To enable point‐of‐care molecular diagnostics, a palm‐sized processor is developed for magnetofluidic separation, nucleic acid amplification, and visual fluorescence detection. The LIAMT platform is applied to detect SARS‐CoV‐2 and HIV viruses, achieving a detection sensitivity of 73.4 and 63.9 copies µL−1, respectively. Its clinical utility is further demonstrated by detecting SARS‐CoV‐2 and HIV in clinical samples. This simple, affordable, and portable LIAMT platform holds promise for rapid and sensitive molecular diagnostics of infectious diseases at the point‐of‐care.

show abstract

Section: Discussionmentioning

confidence: 99%

Palm‐Sized Lab‐In‐A‐Magnetofluidic Tube Platform for Rapid and Sensitive Virus Detection

Li,

Zhang,

Zhang

et al. 2024

Advanced Science

View full text Add to dashboard Cite

show abstract

“…8 However, the traditional LFIA with a colorimetric readout (colloidal gold) confronted some shortcomings in terms of qualitative results, insufficient sensitivity, and poor accuracy. 9 Therefore, fluorescent materials with excellent optical properties, such as carbon dots, 10 quantum dot beads (QBs), 11 and time-resolved fluorescent microspheres, 12 had been introduced into LFIA for improving the sensitivity in a quantitative way. 13 However, these fluorescent materials suffered from the aggregationinduced quenching (ACQ) effect, 14 resulting in low fluorescence signals in the aggregated state owing to intermolecular π−π interactions or other nonradiative channels to form radical conjugates.…”

Section: ■ Introductionmentioning

confidence: 99%

High-Performance Fluorescent Microspheres Based on Fluorescence Resonance Energy Transfer Mode for Lateral Flow Immunoassays

Wang,

Zhang,

Xiao

et al. 2023

Anal. Chem.

View full text Add to dashboard Cite

Nucleic Acid Enzyme‐Activated CRISPR‐Cas12a With Circular CRISPR RNA for Biosensing

Chang

et al. 2023

Small

View full text Add to dashboard Cite

Abstractclustered regularly interspaced short palindromic repeats (CRISPR)‐Cas systems are increasingly used in biosensor development. However, directly translating recognition events for non‐nucleic acid targets by CRISPR into effective measurable signals represents an important ongoing challenge. Herein, it is hypothesized and confirmed that CRISPR RNAs (crRNAs) in a circular topology efficiently render Cas12a incapable of both site‐specific double‐stranded DNA cutting and nonspecific single‐stranded DNA trans cleavage. Importantly, it is shown that nucleic acid enzymes (NAzymes) with RNA‐cleaving activity can linearize the circular crRNAs, activating CRISPR‐Cas12a functions. Using ligand‐responsive ribozymes and DNAzymes as molecular recognition elements, it is demonstrated that target‐triggered linearization of circular crRNAs offers great versatility for biosensing. This strategy is termed as “NAzyme‐Activated CRISPR‐Cas12a with Circular CRISPR RNA (NA3C).” Use of NA3C for clinical evaluation of urinary tract infections using an Escherichia coli‐responsive RNA‐cleaving DNAzyme to test 40 patient urine samples, providing a diagnostic sensitivity of 100% and specificity of 90%, is further demonstrated.

show abstract

A Simplified Amplification‐Free Strategy with Lyophilized CRISPR‐CcrRNA System for Drug‐Resistant Salmonella Detection

Cited by 7 publications

References 44 publications

Palm‐Sized Lab‐In‐A‐Magnetofluidic Tube Platform for Rapid and Sensitive Virus Detection

Palm‐Sized Lab‐In‐A‐Magnetofluidic Tube Platform for Rapid and Sensitive Virus Detection

High-Performance Fluorescent Microspheres Based on Fluorescence Resonance Energy Transfer Mode for Lateral Flow Immunoassays

Nucleic Acid Enzyme‐Activated CRISPR‐Cas12a With Circular CRISPR RNA for Biosensing

Contact Info

Product

Resources

About