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Autori principali: Yu, Hannah, Golconda, Sarah, Lee, Ga-Eun, Xue, Dantong, Domínguez-Huerta, Guillermo, Wainaina, James M, Bolduc, Benjamin, Murthy, Shashanka, Kim, Shihyoung, Faith, Seth, Liu, Shan-Lu, Lee, Jiyoung, Oglesbee, Michael, Sullivan, Matthew B, Kim, Sanggu
Natura: Artículo científico
Lingua:en
Pubblicazione: Advanced science (Weinheim, Baden-Wurttemberg, Germany) 2025
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Accesso online:https://pubmed.ncbi.nlm.nih.gov/40936099/
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author Yu, Hannah
Golconda, Sarah
Lee, Ga-Eun
Xue, Dantong
Domínguez-Huerta, Guillermo
Wainaina, James M
Bolduc, Benjamin
Murthy, Shashanka
Kim, Shihyoung
Faith, Seth
Liu, Shan-Lu
Lee, Jiyoung
Oglesbee, Michael
Sullivan, Matthew B
Kim, Sanggu
author_facet Yu, Hannah
Golconda, Sarah
Lee, Ga-Eun
Xue, Dantong
Domínguez-Huerta, Guillermo
Wainaina, James M
Bolduc, Benjamin
Murthy, Shashanka
Kim, Shihyoung
Faith, Seth
Liu, Shan-Lu
Lee, Jiyoung
Oglesbee, Michael
Sullivan, Matthew B
Kim, Sanggu
Yu, Hannah
Golconda, Sarah
Lee, Ga-Eun
Xue, Dantong
Domínguez-Huerta, Guillermo
Wainaina, James M
Bolduc, Benjamin
Murthy, Shashanka
Kim, Shihyoung
Faith, Seth
Liu, Shan-Lu
Lee, Jiyoung
Oglesbee, Michael
Sullivan, Matthew B
Kim, Sanggu
collection PubMed - marine biology
contents CLAE: A High-Fidelity Nanopore Sequencing Strategy for Read-Level Viral Variant Detection and Environmental RNA Virus Discovery. Yu, Hannah Golconda, Sarah Lee, Ga-Eun Xue, Dantong Domínguez-Huerta, Guillermo Wainaina, James M Bolduc, Benjamin Murthy, Shashanka Kim, Shihyoung Faith, Seth Liu, Shan-Lu Lee, Jiyoung Oglesbee, Michael Sullivan, Matthew B Kim, Sanggu Nanopore Sequencing RNA Viruses Nanopores SARS-CoV-2 High-Throughput Nucleotide Sequencing High-fidelity (HF) long-read sequencing enables accurate profiling of microorganisms and pathogens at single-molecule resolution. However, current Oxford Nanopore Technologies (ONT)-a revolutionary platform offering real-time, portable sequencing at relatively low instrumental cost-suffer from severe read-length bias, limited accuracy (often
format Artículo científico
id pubmed_40936099
institution PubMed
language en
publishDate 2025
publisher Advanced science (Weinheim, Baden-Wurttemberg, Germany)
record_format pubmed
spellingShingle CLAE: A High-Fidelity Nanopore Sequencing Strategy for Read-Level Viral Variant Detection and Environmental RNA Virus Discovery.
Yu, Hannah
Golconda, Sarah
Lee, Ga-Eun
Xue, Dantong
Domínguez-Huerta, Guillermo
Wainaina, James M
Bolduc, Benjamin
Murthy, Shashanka
Kim, Shihyoung
Faith, Seth
Liu, Shan-Lu
Lee, Jiyoung
Oglesbee, Michael
Sullivan, Matthew B
Kim, Sanggu
Nanopore Sequencing
RNA Viruses
Nanopores
SARS-CoV-2
High-Throughput Nucleotide Sequencing
CLAE: A High-Fidelity Nanopore Sequencing Strategy for Read-Level Viral Variant Detection and Environmental RNA Virus Discovery. Yu, Hannah Golconda, Sarah Lee, Ga-Eun Xue, Dantong Domínguez-Huerta, Guillermo Wainaina, James M Bolduc, Benjamin Murthy, Shashanka Kim, Shihyoung Faith, Seth Liu, Shan-Lu Lee, Jiyoung Oglesbee, Michael Sullivan, Matthew B Kim, Sanggu Nanopore Sequencing RNA Viruses Nanopores SARS-CoV-2 High-Throughput Nucleotide Sequencing High-fidelity (HF) long-read sequencing enables accurate profiling of microorganisms and pathogens at single-molecule resolution. However, current Oxford Nanopore Technologies (ONT)-a revolutionary platform offering real-time, portable sequencing at relatively low instrumental cost-suffer from severe read-length bias, limited accuracy (often
title CLAE: A High-Fidelity Nanopore Sequencing Strategy for Read-Level Viral Variant Detection and Environmental RNA Virus Discovery.
topic Nanopore Sequencing
RNA Viruses
Nanopores
SARS-CoV-2
High-Throughput Nucleotide Sequencing
url https://pubmed.ncbi.nlm.nih.gov/40936099/