Rolling circle extension-assisted loop-mediated isothermal amplification (Rol-LAMP) method for locus-specific and visible detection of RNA N6-methyladenosine

Abstract: N6-methyladenosine (m6A) is the most prevalent RNA modification in eukaryotic mRNAs. Currently available detection methods for locus-specific m6A marks rely on RT-qPCR, radioactive methods, or high-throughput sequencing. Here, we develop a non-qPCR, ultrasensitive, isothermal, and naked-eye visible method for m6A detection based on rolling circle amplification (RCA) and loop-mediated isothermal amplification (LAMP), named m6A-Rol-LAMP, to verify putative m6A sites in transcripts obtained from the high-throughp… Show more

“…Fortunately, in order to address these challenges, a wide range of isothermal amplification strategies have been extensively developed, including rolling circle amplification (RCA), 1 4 , 1 5 exponential isothermal amplification (EXPAR), 16,17 hybridization chain reaction (HCR), 18,19 and catalytic hairpin assembly (CHA). 20−23 However, the DNA walker, as an intriguing type of nanodevices inspired by the concept of natural walker, represents a dynamic molecular system comprised of DNA strands that autonomously move along a predetermined track, leading to improve the local concentration and signal amplification.…”

“…Fortunately, in order to address these challenges, a wide range of isothermal amplification strategies have been extensively developed, including rolling circle amplification (RCA), , exponential isothermal amplification (EXPAR), , hybridization chain reaction (HCR), , and catalytic hairpin assembly (CHA). − However, the DNA walker, as an intriguing type of nanodevices inspired by the concept of natural walker, represents a dynamic molecular system comprised of DNA strands that autonomously move along a predetermined track, leading to improve the local concentration and signal amplification. − The ability of DNA walkers to perform programmable and controllable motion has significant implications in various fields, including nanoscale assembly, molecular biosensor, programmed synthesis, and so on. − Furthermore, compared to one-dimensional (1D) and two-dimensional (2D) track DNA walkers, the three-dimensional (3D) track DNA walker has exhibited remarkable advancements in nucleic acid amplification, featuring a higher walking efficiency, improving the probe loading capacity, and synchronously enhancing sensitivity. , Therefore, by employing a well-designed track, precise identification and multicycle amplification of target exomiRNAs can be achieved for the efficacious detection of exomiRNAs.…”

Enhancing 3D DNA Walker-Induced CRISPR/Cas12a Technology for Highly Sensitive Detection of ExomicroRNA Associated with Osteoporosis

“…Fortunately, in order to address these challenges, a wide range of isothermal amplification strategies have been extensively developed, including rolling circle amplification (RCA), 1 4 , 1 5 exponential isothermal amplification (EXPAR), 16,17 hybridization chain reaction (HCR), 18,19 and catalytic hairpin assembly (CHA). 20−23 However, the DNA walker, as an intriguing type of nanodevices inspired by the concept of natural walker, represents a dynamic molecular system comprised of DNA strands that autonomously move along a predetermined track, leading to improve the local concentration and signal amplification.…”

“…Fortunately, in order to address these challenges, a wide range of isothermal amplification strategies have been extensively developed, including rolling circle amplification (RCA), , exponential isothermal amplification (EXPAR), , hybridization chain reaction (HCR), , and catalytic hairpin assembly (CHA). − However, the DNA walker, as an intriguing type of nanodevices inspired by the concept of natural walker, represents a dynamic molecular system comprised of DNA strands that autonomously move along a predetermined track, leading to improve the local concentration and signal amplification. − The ability of DNA walkers to perform programmable and controllable motion has significant implications in various fields, including nanoscale assembly, molecular biosensor, programmed synthesis, and so on. − Furthermore, compared to one-dimensional (1D) and two-dimensional (2D) track DNA walkers, the three-dimensional (3D) track DNA walker has exhibited remarkable advancements in nucleic acid amplification, featuring a higher walking efficiency, improving the probe loading capacity, and synchronously enhancing sensitivity. , Therefore, by employing a well-designed track, precise identification and multicycle amplification of target exomiRNAs can be achieved for the efficacious detection of exomiRNAs.…”

Enhancing 3D DNA Walker-Induced CRISPR/Cas12a Technology for Highly Sensitive Detection of ExomicroRNA Associated with Osteoporosis

“…When increasing the oligo mixture from 1.25 to 20 pmol, m 6 A-MazF-SAT can distinguish as low as 10% m 6 A (125 fmol; Figure C) to 1% m 6 A (2 fmol; Figure S7) in 200 min. Next, Oligo-1-m 6 A ranging from 100 fmol to 1.5 pmol was tested, which covers most of the RNA targets in biological samples. , All tested oligo amounts can provide m 6 A-MazF-SAT amplification signals, and the fluorescent results exhibited a good linear relationship against the oligo amounts (Figures D and S6B), the equation of which was the relative fluorescence units (RFU) = 0.0083 × m – 0.1688 with R 2 = 0.9857.…”

“…Subsequently, Li et al developed a locusspecific and visible m 6 A detection method, m 6 A-Rol-LAMP, which can qualify and quantify single-base m 6 A targets. 19 Benefiting from the isothermal amplification, m 6 A-Rol-LAMP is sensitive and easy to operate; however, a certain degree of false positive signal remained to be addressed to achieve more accurate m 6 A detection.…”

“…The most commonly used m 6 A detection methods are mass spectrometry as well as high-throughput sequencing based on m 6 A antibody enrichment, such as MeRIP-seq and miCLIP-seq, which can provide the approximate localization of m 6 A or single-base recognition of m 6 A but with complex procedure, respectively. − Recently, locus-specific m 6 A detection methods (e.g., SCARLET, SELECT, and AD-seq) have been developed. − However, SCARLET requires radioactive labeling, which is challenging to operate and time-consuming; SELECT based on the features of m 6 A selectively hinders single-base elongation and nick ligation, which is prone to false-positive results. Subsequently, Li et al developed a locus-specific and visible m 6 A detection method, m 6 A-Rol-LAMP, which can qualify and quantify single-base m 6 A targets . Benefiting from the isothermal amplification, m 6 A-Rol-LAMP is sensitive and easy to operate; however, a certain degree of false positive signal remained to be addressed to achieve more accurate m 6 A detection.…”

Isothermal Amplification-Based Detection of Single-Base RNA N6-Methyladenosine

Visualization and Quantification of Single‐Base m⁶A Methylation