Detection of Tetracycline with a CRISPR/Cas12a Aptasensor Using a Highly Efficient Fluorescent Polystyrene Microsphere Reporter System

Yee, Bong Jing; Zakaria, Siti Nurul Azian; Chandrawati, Rona; Ahmed, Minhaz Uddin

doi:10.1021/acssynbio.4c00200

ACS Synth. Biol.

2024

DOI: 10.1021/acssynbio.4c00200

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Detection of Tetracycline with a CRISPR/Cas12a Aptasensor Using a Highly Efficient Fluorescent Polystyrene Microsphere Reporter System

Bong Jing Yee,

Siti Nurul Azian Zakaria,

Rona Chandrawati

et al.

Abstract: CRISPR-based diagnostics use the CRISPR-Cas system transcleavage activity to identify specific target sequences. When activated, this activity cleaves surrounding reporter molecules, producing a detectable signal. This technique has great specificity, sensitivity, and rapid detection, making it an important molecular diagnostic tool for medical and infectious disease applications. Despite its potential, the present CRISPR/Cas system has challenges with its single-stranded DNA reporters, characterized by low st… Show more

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Cited by 4 publications

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Nanomaterials as signal amplifiers in CRISPR/Cas biosensors: A path toward multiplex point-of-care diagnostics

Arshad,

Yee,

Ting

et al. 2024

Microchemical Journal

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Nanomaterials as signal amplifiers in CRISPR/Cas biosensors: A path toward multiplex point-of-care diagnostics

Arshad,

Yee,

Ting

et al. 2024

Microchemical Journal

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Amplification-free nucleic acids detection with next-generation CRISPR/dx systems

Lau,

Huang,

Zhu

2024

Critical Reviews in Biotechnology

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Mitigating Antibiotic Resistance: The Utilization of CRISPR Technology in Detection

Zhang,

Huang,

Zhang

et al. 2024

Biosensors

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Antibiotics, celebrated as some of the most significant pharmaceutical breakthroughs in medical history, are capable of eliminating or inhibiting bacterial growth, offering a primary defense against a wide array of bacterial infections. However, the rise in antimicrobial resistance (AMR), driven by the widespread use of antibiotics, has evolved into a widespread and ominous threat to global public health. Thus, the creation of efficient methods for detecting resistance genes and antibiotics is imperative for ensuring food safety and safeguarding human health. The clustered regularly interspaced short palindromic repeats (CRISPR) and CRISPR-associated proteins (Cas) systems, initially recognized as an adaptive immune defense mechanism in bacteria and archaea, have unveiled their profound potential in sensor detection, transcending their notable gene-editing applications. CRISPR/Cas technology employs Cas enzymes and guides RNA to selectively target and cleave specific DNA or RNA sequences. This review offers an extensive examination of CRISPR/Cas systems, highlighting their unique attributes and applications in antibiotic detection. It outlines the current utilization and progress of the CRISPR/Cas toolkit for identifying both nucleic acid (resistance genes) and non-nucleic acid (antibiotic micromolecules) targets within the field of antibiotic detection. In addition, it examines the current challenges, such as sensitivity and specificity, and future opportunities, including the development of point-of-care diagnostics, providing strategic insights to facilitate the curbing and oversight of antibiotic-resistance proliferation.

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Detection of Tetracycline with a CRISPR/Cas12a Aptasensor Using a Highly Efficient Fluorescent Polystyrene Microsphere Reporter System

Cited by 4 publications

References 59 publications

Nanomaterials as signal amplifiers in CRISPR/Cas biosensors: A path toward multiplex point-of-care diagnostics

Nanomaterials as signal amplifiers in CRISPR/Cas biosensors: A path toward multiplex point-of-care diagnostics

Amplification-free nucleic acids detection with next-generation CRISPR/dx systems

Mitigating Antibiotic Resistance: The Utilization of CRISPR Technology in Detection

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