Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.30.2 (endonuclease)
 18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Strand displacement amplification (9SDA) is an isothermal in vitro method of amplifying a DNA sequence prior to its detection. We have combined SDA with fluorescence polarization detection. A 5'-fluorescein-labelled oligodeoxynucleotide detector probe hybridizes to the amplification product that rises in concentration during SDA and the single- to double strand conversion is monitored through an increase in fluorescence polarization. Detection sensitivity can be enhanced by using a detector probe containing an EcoRI recognition sequence at its 5'-end that is not homologous to the target sequence. During SDA the probe is converted to a fully double-stranded form that specifically binds a genetically modified form of the endonuclease EcoRI which lacks cleavage activity but retains binding specificity. We have applied this SDA detection system to a target sequence specific for Mycobacterium tuberculosis.
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PMID:DNA detection by strand displacement amplification and fluorescence polarization with signal enhancement using a DNA binding protein. 862 61

We herein describe a simple and versatile approach to use conventional nicking endonuclease (NEase) for programmable sequence-specific cleavage of DNA, termed aligner-mediated cleavage (AMC), and its application to DNA isothermal exponential amplification (AMC-based strand displacement amplification, AMC-SDA). AMC uses a hairpin-shaped DNA aligner (DA) that contains a recognition site in its stem and two side arms complementary to target DNA. Thus, it enables the loading of an NEase on DA's stem, localization to a specific locus through hybridization of the side arms with target DNA, and cleavage thereof. By using just one NEase, it is easy to make a break at any specific locus and tune the cleavage site to the single-nucleotide scale. This capability also endows the proposed AMC-SDA with excellent universality, since the cleavage of target DNA, followed by a polymerase-catalyzed extension along a particular primer as a key step for initiating SDA, no longer relies on any special sequence. Moreover, this manner of initiation facilitates the adoption of 3'-terminated primers, thus making AMC-SDA highly sensitive and highly specific, as well as simple primer design.
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PMID:Aligner-mediated cleavage of nucleic acids and its application to isothermal exponential amplification. 2973 89

MicroRNAs (miRNAs) play an important role in the regulation of various biological processes and have been used as potential biomarkers for biomedical research and clinical diagnosis. Here, nicking-mediated rolling circle amplification (N-RCA)/symmetric isothermal circular strand-displacement amplification (S-SDA)-integrated combined cascade amplification (rs-CCA) was proposed for let-7a miRNA detection. Via introducing a palindromic fragment-integrated recognition sites for nicking endonuclease Nt.AlWI into the padlock probe, the hybridization of target miRNA can induce N-RCA and continuously generate the nicked fragments (NFs). Because the released NFs each have a palindromic sequence and daughter nicking site at the 3' end, they hybridize with each other, followed by alternately extension by polymerase and nicking by endonuclease. This leads to S-SDA effect, and the released single-stranded products in turn hybridize with NFs, accomplishing the rs-CCA process. When the Sybr Green I dyes intercalate into double-stranded DNA products, the amplified fluorescence signal is achieved. Thus, the target miRNA can be detected down to 5 pM. Importantly, the rs-CCA system is capable of distinguishing the single base difference between target miRNAs, indicating the high sequence specificity. Moreover, its potential application in disease diagnosis was demonstrated via detecting target miRNA in complex biological matrix and analyzing the total RNAs extracted from HeLa cells. As a proof-of-concept building, the impressive rs-CCA scheme is expected to provide a valuable insight into constructing powerful signal amplification strategies via sophisticated combination of biotechnologies available for nucleic acid manipulation and significantly benefit biomedical research and disease diagnostics.
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PMID:Ultrasensitive assay based on a combined cascade amplification by nicking-mediated rolling circle amplification and symmetric strand-displacement amplification. 3056 47