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W2887778638 abstract "In conventional DNA‐computation methods involving logic gate operations, the output molecules are detected and decoded mainly by gel electrophoresis or fluorescence measurements. To employ rapid and label‐free decoding, nanopore technology, an emerging methodology for single‐molecule detection or DNA sequencing, is proposed as a candidate for electrical and simple decoding of DNA computations. This review describes recent approaches to decoding DNA computation using label‐free and electrical nanopore measurements. Several attempts have been successful in DNA decoding with the nanopore either through enzymatic reactions or in water‐in‐oil droplets. Additionally, DNA computing combined with nanopore decoding has clinical applications, including microRNA detection for early diagnosis of cancers. Because this decoding methodology is still in development and not yet widely accepted, this review aims to inform the scientific community regarding usefulness." @default.
W2887778638 created "2018-08-22" @default.
W2887778638 creator A5033831861 @default.
W2887778638 date "2018-08-31" @default.
W2887778638 modified "2023-09-30" @default.
W2887778638 title "Nanopore Decoding of Oligonucleotides in DNA Computing" @default.
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W2887778638 cites W1965229072 @default.
W2887778638 cites W1966789782 @default.
W2887778638 cites W1972485988 @default.
W2887778638 cites W1976275264 @default.
W2887778638 cites W1977312644 @default.
W2887778638 cites W1980301976 @default.
W2887778638 cites W1986292487 @default.
W2887778638 cites W1986373434 @default.
W2887778638 cites W1987630123 @default.
W2887778638 cites W1989050496 @default.
W2887778638 cites W1989767423 @default.
W2887778638 cites W1991595317 @default.
W2887778638 cites W1992436825 @default.
W2887778638 cites W1994534146 @default.
W2887778638 cites W1994660369 @default.
W2887778638 cites W2005615084 @default.
W2887778638 cites W2007772656 @default.
W2887778638 cites W2013563297 @default.
W2887778638 cites W2022417198 @default.
W2887778638 cites W2022943108 @default.
W2887778638 cites W2025583382 @default.
W2887778638 cites W2026775037 @default.
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W2887778638 cites W2031191277 @default.
W2887778638 cites W2031214412 @default.
W2887778638 cites W2032062499 @default.
W2887778638 cites W2032711662 @default.
W2887778638 cites W2050723389 @default.
W2887778638 cites W2052650510 @default.
W2887778638 cites W2058659693 @default.
W2887778638 cites W2059205219 @default.
W2887778638 cites W2059648430 @default.
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W2887778638 cites W2118579429 @default.
W2887778638 cites W2125021618 @default.
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W2887778638 cites W2127407003 @default.
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W2887778638 cites W2159635590 @default.
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W2887778638 cites W2171372763 @default.
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W2887778638 cites W2315037307 @default.
W2887778638 cites W2317461078 @default.
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W2887778638 cites W4210493499 @default.
W2887778638 cites W4211132533 @default.
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W2887778638 doi "https://doi.org/10.1002/biot.201800091" @default.
W2887778638 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30076732" @default.
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