A rapid and ultrasensitive CRISPR/Cas12a-based assay for the accurate identification of T-even type phages.

Phage contamination poses a significant threat to industrial fermentation, leading to substantial economic losses. Virulent T-even type phages (T2/T4/T6) represent particularly concerning biological hazards in fermentation systems. This paper developed a novel CRISPR/Cas12a-based system integrated with recombinase polymerase amplification (RPA), enabling ultrasensitive identification of T-even type phages.

Temperature-Modulation Categorization of Argonaute-Based Bioreactions Coupled with Amplification Methods for Nucleic Acid Detection.

Argonaute (Ago), a programmable nuclease, has recently emerged as a promising tool for nucleic acid detection. To achieve higher sensitivity, a nucleic acid amplification step is often introduced into the Ago-based detection system, leading the process suffered from the issues of temperature compatibility and device complexity. To address these limitations, integrating multiple reactions within a portable temperature control device shows significant potential to streamline the development and practical application of these systems.

Highly efficient loop cleavage for human papillomavirus detection with a novel thermophilic Argonaute from Thermus brockianus.

Argonaute proteins (Agos), endowed with the capacity to cleave DNA or RNA under the guidance of small nucleic acid guides, have emerged as versatile biotechnological tools. This study endeavored to characterize a novel thermophilic Argonaute protein from Thermus brockianus (TbAgo), revealing its proficiency as a DNA-guided DNA endonuclease. Demonstrating high catalytic efficiency and precision at 65 °C, TbAgo possessed compatibility with loop-mediated isothermal amplification (LAMP) method, whose optimal temperature is also around 65 °C.

DNAzyme-Triggered Equilibrium Transfer with Self-Activated CRISPR-Cas12a Biosensor Enables One-Pot Diagnosis of Nucleic Acids.

Integrating recombinase-polymerase amplification (RPA) with CRISPR-Cas12a holds significant potential to simplify and improve nucleic acid diagnostic procedures. However, current strategies face limitations, such as complexity, reduced efficiency, and potential compromises in Cas12a activity. In response, we developed a NAzyme-triggered quilibrium transfer with a elf-activated SPR-Cas12a iosnso (DESCRIBER) for integrated nucleic acid detection.

Magnetofluid-integrated biosensors based on DNase-dead Cas12a for visual point-of-care testing of HIV-1 by an up and down chip.

The CRISPR Cas system, as a novel nucleic acid detection tool, is often hindered by cumbersome experimental procedures, complicated reagent transfer processes, and associated aerosol pollution risks. In this study, an integrated nucleic acid detection platform named "up and down chip" was developed, which combined RT-RAA technology for nucleic acid amplification, DNase-dead Cas12a-modified magnetic beads for specific recognition of target nucleic acid, and HRP-TMB chromogenic reaction for signal output in different chambers of a single microfluidic chip. The magnetic beads were migrated in an up-and-down manner between different chambers through magnetic driving, achieving a "sample-in, result-out" detection mode.

CRISPR Cas12a-enabled biosensors coupled with commercial pregnancy test strips for the visible point-of-care testing of SARS-CoV-2.

The rapid spread of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has promoted the development of nucleic acid diagnosis technology. Several platforms with isothermal amplification methods have achieved sensitive and specific detection of SARS-CoV-2. However, they still suffer from complicated operations, delicate instruments, and unintuitive signal output modes.

Characterization and application of a thermophilic Argonaute from archaeon Thermococcus thioreducens.

Prokaryotic Argonaute proteins (pAgos) play an important role in host defense against invading genetic elements. The functional diversities make pAgos very promising in development of novel nucleic acid manipulation tools and attract increasing attentions. Here, we reported the in vitro characterization of an Argonaute protein from archaeon Thermococcus thioreducens (TtrAgo) and its example of application in hepatitis B virus DNA detection.

Microfluidic Ruler-Readout and CRISPR Cas12a-Responded Hydrogel-Integrated Paper-Based Analytical Devices (μReaCH-PAD) for Visible Quantitative Point-of-Care Testing of Invasive Fungi.

Invasive fungi (IF) have become a significant problem affecting human health. However, the culture-based assay of IF, known as the most commonly used clinical diagnostic method, suffers from time consumption, complicated operation, and the requirement of trained operators, which may cause the delay diagnosis of the disease. In this report, a microfluidic ruler-readout and CRISPR Cas12a-responded hydrogel-integrated paper-based analytical device (μReaCH-PAD) was established for visible and quantitative point-of-care testing of IF.

A CRISPR-Cas12a-derived biosensor enabling portable personal glucose meter readout for quantitative detection of SARS-CoV-2.

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has spread rapidly throughout the whole world and caused significant difficulties in the prevention and control of the epidemic. In this case, several detection methods have been established based on nucleic acid diagnostic techniques and immunoassays to achieve sensitive and specific detection of SARS-CoV-2. However, most methods are still largely dependent on professional instruments, highly trained operators, and centralized laboratories.

CRISPR-Cas12a-Assisted Multicolor Biosensor for Semiquantitative Point-of-Use Testing of the Nopaline Synthase Terminator in Genetically Modified Crops by Unaided Eyes.

Existing methods of detecting foreign genes and their expression products from genetically modified organisms (GMOs) suffer from the requirement of professional equipment and skillful operators. The same problem stays for the CRISPR-Cas12a system, although it has been emerging as a powerful tool for nucleic acid detection due to its remarkable sensitivity and specificity. In this report, a portable platform for the visible detection of GMOs based on CRISPR-Cas12a was established, which relies on a color change of gold nanorods (GNRs) caused by the invertase-glucose oxidase cascade reaction and the Fenton reaction for signal readout.

Enhanced production of 5-hydroxytryptophan through the regulation of L-tryptophan biosynthetic pathway.

5-Hydroxytryptophan (5-HTP) is the precursor of the neurotransmitter serotonin and has been used for the treatment of various diseases such as depression, insomnia, chronic headaches, and binge eating associated obesity. The production of 5-HTP had been achieved in our previous report, by the development of a recombinant strain containing two plasmids for biosynthesis of L-tryptophan (L-trp) and subsequent hydroxylation. In this study, the L-trp biosynthetic pathway was further integrated into the E.