2023
DOI: 10.3389/fmicb.2023.1043967
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Portable nanopore-sequencing technology: Trends in development and applications

Abstract: Sequencing technology is the most commonly used technology in molecular biology research and an essential pillar for the development and applications of molecular biology. Since 1977, when the first generation of sequencing technology opened the door to interpreting the genetic code, sequencing technology has been developing for three generations. It has applications in all aspects of life and scientific research, such as disease diagnosis, drug target discovery, pathological research, species protection, and … Show more

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Cited by 24 publications
(22 citation statements)
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“…Newer technologies, such as the portable nanopore sequencing devices could overcome some of these issues and provide immediate data at the time of donation, which could ultimately guide decision making on use of donor organs. 22 We limited the reporting of our post-transplantation outcomes to the islet transplant cohort because (a) comprehensive assessment of beta-cell function using a mixed meal tolerance test is not performed routinely following pancreas transplantation, and (b) technical factors such as thrombosis, pancreatitis and bleeding are accountable for a significant proportion of early graft losses following pancreas transplantation. This study was not powered to detect a relationship between markers of donor beta-cell death and isolated islet failure following pancreas transplantation.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…Newer technologies, such as the portable nanopore sequencing devices could overcome some of these issues and provide immediate data at the time of donation, which could ultimately guide decision making on use of donor organs. 22 We limited the reporting of our post-transplantation outcomes to the islet transplant cohort because (a) comprehensive assessment of beta-cell function using a mixed meal tolerance test is not performed routinely following pancreas transplantation, and (b) technical factors such as thrombosis, pancreatitis and bleeding are accountable for a significant proportion of early graft losses following pancreas transplantation. This study was not powered to detect a relationship between markers of donor beta-cell death and isolated islet failure following pancreas transplantation.…”
Section: Discussionmentioning
confidence: 99%
“…Such factors include the times between sample acquisition, centrifugation, storage on ice and storage at −70°C, with the latter being determined by the distance from the donor hospital to the central processing laboratory. Newer technologies, such as the portable nanopore sequencing devices could overcome some of these issues and provide immediate data at the time of donation, which could ultimately guide decision making on use of donor organs 22 …”
Section: Discussionmentioning
confidence: 99%
“…Nanopore sequencing is being used worldwide to quickly sequence and analyze SARS‐CoV‐2 viral genomes 24 . Rapid data sharing enables genomic epidemiological analysis, a key part of the global public health response to the COVID‐19 pandemic 25 . Nanopore technology has been used to rapidly sequence the emerging and reemerging pathogens including Zika, Ebola, and other pathogens in multiple outbreaks, where surveillance and genomic investigation capacities are limited 26–30 .…”
Section: Discussionmentioning
confidence: 99%
“…Translocation of nucleic acids too fast will increase the difficulty of clip identification. In early experiments in the development of nanopore sequencing, single‐stranded DNA passed through the nanopore at a rate of 1–10 bases per millisecond, making it difficult to detect the sequencing signal 10 . The unstable translocation rate also brings difficulties to subsequent data analysis.…”
Section: Molecular Mechanisms Of Nanopore Sequencingmentioning
confidence: 99%
“…The concept of nanopore sequencing, where singlestranded nucleic acids pass through a nanopore in a membrane under an electric field, was first proposed by David Deamer in the 1980s. 1 Despite initial skepticism, technological advances eventually made nanopore Technologies (ONT), founded in 2005 by Oxford professor Bayley and colleagues, 10 facilitated the commercialization of nanopore sequencing with the release of their MinION sequencer in 2014. 2 Currently, ONT has established a complete sequencing system process that includes advanced library preparation techniques combined with amplicon and other technologies, as well as numerous bioinformatics methods for analyzing and mining nanopore sequencing data.…”
Section: Introductionmentioning
confidence: 99%