Scalable Alkaline Extraction Protocol for Microbial DNA Screening by PCR.

Abstract

In molecular diagnosis, DNA extraction kits are sample-specific and proprietary, preventing lateral distribution among similar facilities from different sectors to alleviate supply shortages during a crisis. Previous fast extraction protocols such as detergent-based ones allow fast DNA extraction for nucleic acid amplification tests (NAAT), mainly polymerase chain reaction (PCR). The use of NaOH (dense alkali) to rupture cells and nuclei and destabilize the conformation of DNases might alleviate shortages and costs while retaining enough robustness to treat complicated samples with minimal environmental and logistical footprint. Biological samples are hand-crushed using a pestle in 1.5 mL tubes with 360 μL of 0.2 M NaOH for 3-5 min and incubated at 75 °C for 10 min. For immediate use, 115.2 μL of 1 M Tris (pH 8) and 364.8 μL nuclease-free water are added, and the sample is vortexed for 10 s and spun at 10,000× g for 3 min; then, 700 μL is transferred to a clean microtube. Two serial dilutions follow, and all concentrations are used as templates for PCR. A refined, storable extract can be produced by adding 70 μL of HCl 1 M (instead of Tris-HCl) and one volume of cold isopropanol to the extract for standard precipitation. This method can increase throughput in emergencies by field deployment in resource-limited settings (RLS) or allow benchtop backup in cases of acquisition disruption or sample surge in established facilities. The crude extract can be used for immediate PCR in both benchtop and portable thermocyclers, thus allowing NAAT in resource-limited settings with low costs and waste footprint or during prolonged crises, where supply chain failures may occur. The refined version produces alcohol-precipitated nucleic acids, suitable for both immediate use and for storage or dispatch for spatiotemporally separate analysis while offering much better amplification quality with a small increase in time and minimal increase in expendables/chemicals needed. Key features • DNA extraction from different sample types using only boiling water and occasional mechanical assistance. • Crude extract serially diluted to bypass purification and quantification steps. • Refined extract is partly purified, more enriched, storable, and transportable and contributes to higher sensitivity. • Both versions decrease costs and the overall footprint of testing to increase sustainability in field operations and in standard lab environments under supply chain derailment.