LoCKAmp: lab-on-PCB technology for <3 minute virus genetic detection.

The recent COVID-19 outbreak highlighted the need for lab-on-chip diagnostic technology fit for real-life deployment in the field. Existing bottlenecks in multistep analytical microsystem integration and upscalable, standardized fabrication techniques delayed the large-scale deployment of lab-on-chip solutions during the outbreak, throughout a global diagnostic test shortage. This study presents a technology that has the potential to address these issues by redeploying and repurposing the ubiquitous printed circuit board (PCB) technology and manufacturing infrastructure.

Rapid Cloning of Random Mutagenesis Libraries Using PTO-QuickStep.

PTO-QuickStep is a quick and easy molecular cloning technique that allows seamless point integration of a DNA fragment, encoding either a tag or a protein, into any position within a target plasmid. The entire process is conducted in a time-efficient and cost-effective manner, without the need of DNA gel purification and enzymatic restriction and ligation. PTO-QuickStep further innovates protein engineering by providing the possibility of integrating a random mutagenesis step (e.

Paper microfluidic implementation of loop mediated isothermal amplification for early diagnosis of hepatitis C virus.

The early diagnosis of active hepatitis C virus (HCV) infection remains a significant barrier to the treatment of the disease and to preventing the associated significant morbidity and mortality seen, worldwide. Current testing is delayed due to the high cost, long turnaround times and high expertise needed in centralised diagnostic laboratories. Here we demonstrate a user-friendly, low-cost pan-genotypic assay, based upon reverse transcriptase loop mediated isothermal amplification (RT-LAMP).

PTO-QuickStep: A Fast and Efficient Method for Cloning Random Mutagenesis Libraries.

QuickStep is a cloning method that allows seamless point integration of a DNA sequence at any position within a target plasmid using only Q5 High-Fidelity DNA Polymerase and DpnI endonuclease. This efficient and cost-effective method consists of two steps: two parallel asymmetric PCRs, followed by a megaprimer-based whole-plasmid amplification. To further simplify the workflow, enhance the efficiency, and increase the uptake of QuickStep, we replaced the asymmetric PCRs with a conventional PCR that uses phosphorothioate (PTO) oligos to generate megaprimers with 3' overhangs.

Rapid Construction of Recombinant Plasmids by QuickStep-Cloning.

QuickStep-Cloning is a novel molecular cloning technique that builds upon the concepts of asymmetric PCR and megaprimer-based amplification of whole plasmid. It was designed specifically to address the major drawbacks of previously reported cloning methods. The fully optimized protocol allows for a seamless integration of a long DNA fragment into any position within a plasmid of choice, in a time-efficient and cost-effective manner, without the need of a tedious DNA gel purification, a restriction digestion, and an enzymatic ligation.

QuickStep-Cloning: a sequence-independent, ligation-free method for rapid construction of recombinant plasmids.

Background: Molecular cloning is an essential step in biological engineering. Methods involving megaprimer-based PCR of a whole plasmid are promising alternatives to the traditional restriction-ligation-based molecular cloning. Their widespread use, however, is hampered by some of their inherent characteristics, e.