Leveraging CRISPR-Cas-Enhanced Isothermal Amplification Tools for Quick Identification of Pathogens Causing Livestock Diseases.

Abstract

Prompt and accurate diagnosis of infectious pathogens of livestock origin is of utmost importance for epidemiological surveillance and effective therapeutic strategy formulation. Among various methods, nucleic acid-based detection of pathogens is the most sensitive and specific; but the majority of these assays need expensive equipment and skilled workers. Due to the rapid advancement of clustered regularly interspaced short palindromic repeats-CRISPR-associated protein (CRISPR-Cas)-based nucleic acid detection methods, these are now being widely used for pathogen detection. CRISPR-Cas is a bacterial counterpart of "adaptive immunity", generally used for editing genome. Many CRISPR systems have been modified for nucleic acid detection due to their excellent selectivity in detecting DNA and RNA sequences. The combination of CRISPR with suitable isothermal amplification technologies has made it more sensitive, specific, versatile, and reproducible for the detection of pathogen nucleic acids at the point of care. Amplification of pathogen nucleic acid by isothermal amplification followed by CRISPR-Cas-based detection has several advantages, including short sample-to-answer times and no requirement for laboratory set-up. They are also significantly less expensive than the existing nucleic acid detection methods. This review focuses on the recent trends in the use of this precision diagnostic method for diagnosis of a wide range of animal pathogens with or without zoonotic potential, particularly various isothermal amplification strategies, and visualization methods for sensing bacteria, viruses, and parasites of veterinary and public health importance.