Development and validation of LAMP primer sets for rapid identification of Aspergillus fumigatus carrying the cyp51A TR46 azole resistance gene

Infections due to triazole-resistant Aspergillus fumigatus are increasingly reported worldwide and are associated with treatment failure and mortality. The principal class of azole-resistant isolates is characterized by tandem repeats of 34 bp or 46 bp within the promoter region of the cyp51A gene. Loop-mediated isothermal amplification (LAMP) is a widely used nucleic acid amplification system that is fast and specific. Here we describe a LAMP assay method to detect the 46 bp tandem repeat insertion in the cyp51A gene promoter region based on novel LAMP primer sets. It also differentiated strains with TR46 tandem repeats from those with TR34 tandem repeats. These results showed this TR46-LAMP method is specific, rapid, and provides crucial insights to develop novel antifungal therapeutic strategies against severe fungal infections due to A. fumigatus with TR46 tandem repeats.

Improving RT-LAMP Detection of SARS-CoV-2 RNA through Primer Set Selection and Combination

Reverse transcription loop-mediated isothermal amplification (RT-LAMP) has emerged as a viable molecular diagnostic method to expand the breadth and reach of nucleic acid testing, particularly for SARS-CoV-2 detection and surveillance. While rapidly growing in prominence, RT-LAMP remains a relatively new method compared to the standard RT-qPCR, and contribution to our body of knowledge on designing LAMP primer sets and assays can have significant impact on its utility and adoption. Here we evaluate 18 LAMP primer sets for SARS-CoV-2, comparing speed and sensitivity with different LAMP formulations and conditions across more than 5,000 RT-LAMP reactions and identifying several primer sets with similar high sensitivity for different SARS-CoV-2 gene targets. Significantly we observe a consistent sensitivity enhancement by combining primer sets for different targets, confirming and building on earlier work to create a simple, general approach to building better and more sensitive RT-LAMP assays.

Development and Validation of LAMP Primer Sets for Rapid Identification of Aspergillus Fumigatus Carrying the cyp51A TR46 Azole Resistance Gene

Infections due to triazole resistant Aspergillus fumigatus are increasingly reported worldwide and are associated with treatment failure and mortality. The principal class of azole resistant isolates is characterized by the presence of tandem repeats of 34 bp or 46 bp within the promoter region of the cyp51A gene. Loop-mediated isothermal amplification (LAMP) is a widely used nucleic acid amplification system which is fast and specific. Here 2 we describe a LAMP assay method to detect the 46 bp tandem repeat insertion in the cyp51A gene promoter region based on novel LAMP primer sets. It also differentiated strains with TR46 tandem repeats from those with TR34 tandem repeats. These results showed this TR46-LAMP method is specific, rapid, and also provides crucial insights to enable development of novel antifungal therapeutic strategies against severe fungal infections due to A. fumigatus with TR46 tandem repeats.

Development of a multiplex Loop-Mediated Isothermal Amplification (LAMP) assay for on-site diagnosis of SARS CoV-2

A newly identified coronavirus, designated as severe acute respiratory syndrome coronavirus 2 (SARS CoV-2), has spread rapidly from its epicenter in China to more than 150 countries across six continents. In this study, we have designed three reverse-transcription loop-mediated isothermal amplification (RT-LAMP) primer sets to detect the RNA-dependent RNA polymerase (RdRP), Envelope (E) and Nucleocapsid protein (N) genes of SARS CoV-2. For one tube reaction, the detection limits for five combination SARS CoV-2 LAMP primer sets (RdRP/E, RdRP/N, E/N, RdRP/E/N and RdRP/N/Internal control (actin beta)) were evaluated with a clinical nasopharyngeal swab sample. Among the five combination, the RdRP/E and RdRP/N/IC multiplex LAMP assays showed low detection limits. The sensitivity and specificity of the RT-LAMP assay were evaluated and compared to that of the widely used Allplex™ 2019-nCoV Assay (Seegene, Inc., Seoul, South Korea) and PowerChek™ 2019-nCoV Real-time PCR kit (Kogenebiotech, Seoul, South Korea) for 130 clinical samples from 91 SARS CoV-2 patients and 162 NP specimens from individuals with (72) and without (90) viral respiratory infections. The multiplex RdRP (FAM)/N (CY5)/IC (Hex) RT-LAMP assay showed comparable sensitivities (RdRP: 93.85%, N: 94.62% and RdRP/N: 96.92%) to that of the Allplex™ 2019-nCoV Assay (100%) and superior to those of PowerChek™ 2019-nCoV Real-time PCR kit (RdRP: 92.31%, E: 93.85% and RdRP/E: 95.38%).

Development and Validation of LAMP Primer Sets for Rapid and Correct Identification of Aspergillus fumigatus Carrying the cyp51A TR46 Azole Resistance Gene

Infections due to triazole-resistant Aspergillus fumigatus are increasingly reported worldwide and are associated with treatment failure and mortality. The principal class of azole-resistant isolates is characterized by the presence of tandem repeats of 34 bp or 46 bp (TR34 or TR46) within the promoter region of the cyp51A gene. Loop-mediated isothermal amplification (LAMP) is a widely >used nucleic acid amplification system with high rapidity and specificity. In this paper, we report a new LAMP assay method to detect the 46 bp tandem repeat insertion in the cyp51A gene promoter region named TR46-LAMP assay, based on the use of newly designed specific LAMP primer sets. TR46 is a high-prevalence allele that is associated with the occurrence of multi-triazole resistance of A. fumigatus in patients as well as isolates from the environment. This newly designed TR46-LAMP assay was validated as a useful method for specific detection of azole-resistant A. fumigatus isolates bearing TR462 as well as TR463 in the cyp51A gene promoter region. It could also differentiate azole-resistant isolates of TR46 tandem repeats from those with TR34 tandem repeats in cyp51A genes. These results showed this TR46-LAMP method is specific, rapid, and also provides crucial insights to enable the development of novel antifungal therapeutic strategies against severe fungal infections due to A. fumigatus with TR46 tandem repeats.

Evaluation of combined effect of micronutrients and rhizobial inoculation on mungbean productivity

In present study, Loop Mediated Isothermal Amplification (LAMP) assay was conducted for diagnosis Nosema bombycis, the pebrine disease pathogen in domestic silkworm, Bombyx mori. Nine isolates of N. bombycis were collected from infected silkworms in rearing areas in Khon Kaen province, Thailand. N. bombycis genomic DNAs were extracted by boiling method and used as templates in LAMP and PCR reactions. A LAMP primer set was designed specific to N. bombycis small subunit ribosomal RNA (SSU rRNA) gene. The results revealed that the optimal condition was constantly performed at 63oC for 1 hour. The product was directly visualized by naked eye and confirmed with agarose gel eletrophoresis. LAMP assay is more sensitive than traditional PCR, since LAMP was able to detect the least 10 spores/ml while PCR needs 100 spores/ml. In addition, the present novel LAMP primer set was specific only to N. bombycis proven by the negative results when other B. mori pathogen DNAs were tested. In conclusion, the LAMP assay demonstrated a great potential alternative method in diagnosis N. bombycis with high sensitivity, rapidity and accuracy which can apply for pebrine disease surveillance.