Saiki, R. Okay. et al. Enzymatic amplification of beta-globin genomic sequences and restriction website evaluation for prognosis of sickle cell anemia. Science 230, 1350–1354 (1985).
Gill, P. & Ghaemi, A. Nucleic acid isothermal amplification applied sciences: a evaluate. Nucleosides Nucleotides Nucleic Acids 27, 224–243 (2008).
Asiello, P. J. & Baeumner, A. J. Miniaturized isothermal nucleic acid amplification, a evaluate. Lab Chip 11, 1420–1430 (2011).
Haleyur Giri Setty, M. Okay. & Hewlett, I. Okay. Level of care applied sciences for HIV (2014).
Notomi, T. et al. Loop-mediated isothermal amplification of DNA. Nucleic Acids Res 28, E63 (2000).
Poon, L. L. et al. Delicate and cheap molecular take a look at for falciparum malaria: Defecting Plasmodium falciparum DNA straight from heat-treated blood by loop-mediated isothermal amplification. Scientific Chemistry (2006).
Ohtsuka, Okay., Yanagawa, Okay., Takatori, Okay. & Hara-Kudo, Y. Detection of Salmonella enterica in naturally contaminated liquid eggs by loop-mediated isothermal amplification, and characterization of Salmonella isolates. Utilized and Environmental Microbiology (2005).
Curtis, Okay. A., Rudolph, D. L. & Owen, S. M. Fast detection of HIV – 1 by reverse – transcription, loop – mediated isothermal amplification (RT – LAMP). Journal of Virological Strategies (2008).
Kiddle, G. et al. GMO detection utilizing a bioluminescent actual time reporter (BART) of loop mediated isothermal amplification (LAMP) appropriate for subject use. BMC Biotechnology 12, 15 (2012).
Watthanapanpituck, Okay., Kiatpathomchai,W., Chu, E. & Panvisavas, N. Identification of human DNA in forensic proof by loop-mediated isothermal amplification mixed with a colorimetric gold nanoparticle hybridization probe. Worldwide Journal of Authorized Drugs (2014).
Nagamine, Okay., Hase, T. & Notomi, T. Accelerated response by loop-mediated isothermal amplification utilizing loop primers. Mol Cell Probes 16, 223–229 (2002).
Gandelman, O., Jackson, R., Kiddle, G. & Tisi, L. Loop-mediated amplification accelerated by stem primers. Int J Mol Sci 12, 9108–9124 (2011).
Martineau, R. L. et al. Improved Efficiency of Loop-Mediated Isothermal Amplification Assays by way of Swarm Priming. Analytical Chemistry (2017).
Kaneko, H., Kawana, T., Fukushima, E. & Suzutani, T. Tolerance of loop-mediated isothermal amplification to a tradition medium and organic substances. J Biochem Biophys Strategies 70, 499–501 (2007).
Tani, H. et al. Method for quantitative detection of particular DNA sequences utilizing alternately binding quenching probe aggressive assay mixed with loop-mediated isothermal amplification. Anal Chem 79, 5608–5613 (2007).
Kubista, M. et al. The actual-time polymerase chain response (2006).
Holland, P. M., Abramson, R. D., Watson, R. & Gelfand, D. H. Detection of particular polymerase chain response product by using the 5′-Three′ exonuclease exercise of Thermus aquaticus DNA polymerase. Proc Natl Acad Sci USA 88, 7276–7280 (1991).
Tyagi, S. & Kramer, F. R. Molecular Beacons: Probes that Fluoresce Upon Hybridization. Nature Biotechnology 14, 303–308 (1996).
Chou, P. H., Lin, Y. C., Teng, P. H., Chen, C. L. & Lee, P. Y. Actual-time target-specific detection of loop-mediated isothermal amplification for white spot syndrome virus utilizing fluorescence power transfer-based probes. J Virol Strategies 173, 67–74 (2011).
Mori, Y., Nagamine, Okay., Tomita, N. & Notomi, T. Detection of loop-mediated isothermal amplification response by turbidity derived from magnesium pyrophosphate formation. Biochem Biophys Res Commun 289, 150–154 (2001).
Tomita, N., Mori, Y., Kanda, H. & Notomi, T. Loop-mediated isothermal amplification (LAMP) of gene sequences and easy visible detection of merchandise. Nat Protoc Three, 877–882 (2008).
Goto, M., Honda, E., Ogura, A., Nomoto, A. & Hanaki, Okay. Colorimetric detection of loop-mediated isothermal amplification response by utilizing hydroxy naphthol blue. Biotechniques 46, 167–172 (2009).
Kouguchi, Y., Fujiwara, T., Teramoto, M. & Kuramoto, M. Homogenous, real-time duplex loop-mediated isothermal amplification utilizing a single fluorophore-labeled primer and an intercalator dye: Its utility to the simultaneous detection of Shiga toxin genes 1 and a pair of in Shiga toxigenic Escherichia coli isolates. Mol Cell Probes 24, 190–195 (2010).
Kubota, R. et al. Molecular diagnostics in a teacup: Non-Instrumented Nucleic Acid Amplification (NINA) for speedy, low price detection of Salmonella enterica. Chin Sci Bull 58, 1162–1168 (2013).
Gandelman, O. A. et al. Novel bioluminescent quantitative detection of nucleic acid amplification in real-time. PLoS ONE 5 (2010).
Iwamoto, T., Sonobe, T. & Hayashi, Okay. Loop-mediated isothermal amplification for direct detection of Mycobacterium tuberculosis advanced, M. avium, and M. intracellulare in sputum samples. J Clin Microbiol 41, 2616–2622 (2003).
Parida, M. M. Fast and real-time detection applied sciences for rising viruses of biomedical significance. J Biosci 33, 617–628 (2008).
Seyrig, G. et al. Choice of fluorescent DNA dyes for real-time LAMP with moveable and easy optics. J Microbiol Strategies 119, 223–227 (2015).
Njiru, Z. Okay. et al. Loop-mediated isothermal amplification (LAMP) technique for speedy detection of Trypanosoma brucei rhodesiense. PLoS Negl Trop Dis 2, e147 (2008).
Mori, Y., Kitao, M., Tomita, N. & Notomi, T. Actual-time turbidimetry of LAMP response for quantifying template DNA. J Biochem Biophys Strategies 59, 145–157 (2004).
Tanner, N. A., Zhang, Y. & Evans, T. C. Visible detection of isothermal nucleic acid amplification utilizing pH-sensitive dyes. Biotechniques 58, 59–68 (2015).
Fischbach, J., Xander, N. C., Frohme, M. & Glökler, J. F. Shining a lightweight on LAMP assays–a comparability of LAMP visualization strategies together with the novel use of berberine. Biotechniques 58, 189–194 (2015).
Liu, W. et al. Institution of an correct and quick detection technique utilizing molecular beacons in loop-mediated isothermal amplification assay. Scientific Experiences 7 (2017).
Mori, Y., Hirano, T. & Notomi, T. Sequence particular visible detection of LAMP reactions by addition of cationic polymers. BMC Biotechnol 6, Three (2006).
Torimura, M. et al. Fluorescence-quenching phenomenon by photoinduced electron switch between a fluorescent dye and a nucleotide base. Anal Sci 17, 155–160 (2001).
Zerilli, F. et al. Methylation-specific loop-mediated isothermal amplification for detecting hypermethylated DNA in simplex and multiplex codecs. Clin Chem 56, 1287–1296 (2010).
Spinelli, O. et al. Easy, speedy and correct molecular prognosis of acute promyelocytic leukemia by loop mediated amplification expertise. Oncoscience 2, 50–58 (2015).
Aonuma, H. et al. A single fluorescence-based LAMP response for figuring out a number of parasites in mosquitoes. Experimental Parasitology (2010).
Stratakos, A. C., Linton, M., Millington, S. & Grant, I. R. A loop-mediated isothermal amplification technique for speedy direct detection and differentiation of nonpathogenic and verocytotoxigenic Escherichia coli in beef and bovine faeces. Journal of Utilized Microbiology (2017).
Tanner, N. A., Zhang, Y. & Evans, T. C. Simultaneous a number of goal detection in real-time loop-mediated isothermal amplification. Biotechniques 53, 81–89 (2012).
Jiang, Y. S. et al. Strong Strand Trade Reactions for the Sequence-Particular, Actual-Time Detection of Nucleic Acid Amplicons. Analytical Chemistry (2015).
Waiwijit, U. et al. Graphene oxide primarily based fluorescence resonance power switch and loop-mediated isothermal amplification for white spot syndrome virus detection. J Biotechnol 212, 44–49 (2015).
Ball, C. S. et al. Quenching of Unincorporated Amplification Sign Reporters in Reverse-Transcription Loop-Mediated Isothermal Amplification Enabling Vibrant, Single-Step, Closed-Tube, and Multiplexed Detection of RNA Viruses. Anal Chem 88, 3562–3568 (2016).
Nkouawa, A., Sako, Y., Okamoto, M. & Ito, A. Easy identification of human taenia species by multiplex loop-mediated isothermal amplification together with dot enzyme-linked immunosorbent assay. American Journal of Tropical Drugs and Hygiene (2016).
Gadkar, V. J., Goldfarb, D. M., Gantt, S. & Tilley, P. A. Actual-time Detection and Monitoring of Loop Mediated Amplification (LAMP) Response Utilizing Self-quenching and De-quenching Fluorogenic Probes. Scientific Experiences (2018).
Hardinge, P., Kiddle, G., Tisi, L. & Murray, J. A. H. Optimised LAMP permits single copy detection of 35Sp and NOSt in transgenic maize utilizing Bioluminescent Assay in Actual Time (BART). Scientific Experiences (2018).
Vogelstein, B. & Kinzler, Okay. W. Digital PCR. Proc Natl Acad Sci USA 96, 9236–9241 (1999).
Gansen, A., Herrick, A. M., Dimov, I. Okay., Lee, L. P. & Chiu, D. T. Digital LAMP in a pattern self-digitization (SD) chip. Lab Chip 12, 2247–2254 (2012).
Torres, C. et al. LAVA: an open-source strategy to designing LAMP (loop-mediated isothermal amplification) DNA signatures. BMC Bioinformatics 12, 240 (2011).
Salinas, N. R. & Little, D. P. Electrical LAMP: Digital Loop-Mediated Isothermal AMPlification. ISRN Bioinformatics (2012).
Gleave, A. P. A flexible binary vector system with a T-DNA organisational construction conducive to environment friendly integration of cloned DNA into the plant genome. Plant Mol Biol 20, 1203–1207 (1992).
Lee, D., La Mura, M., Allnutt, T. R. & Powell, W. Detection of genetically modified organisms (GMOs) utilizing isothermal amplification of goal DNA sequences. BMC Biotechnol 9, 7 (2009).