Your search keyword '"Nanopore long read sequencing"' showing total 4 results

1. Genome-wide survey of tandem repeats by nanopore sequencing shows that disease-associated repeats are more polymorphic in the general population

Author

Satomi Mitsuhashi, Martin C. Frith, and Naomichi Matsumoto

Subjects

Nanopore long read sequencing, Tandem repeats, Triplet repeat disease, Genome-wide analysis, Internal medicine, RC31-1245, Genetics, QH426-470

Abstract

Abstract Background Tandem repeats are highly mutable and contribute to the development of human disease by a variety of mechanisms. It is difficult to predict which tandem repeats may cause a disease. One hypothesis is that changeable tandem repeats are the source of genetic diseases, because disease-causing repeats are polymorphic in healthy individuals. However, it is not clear whether disease-causing repeats are more polymorphic than other repeats. Methods We performed a genome-wide survey of the millions of human tandem repeats using publicly available long read genome sequencing data from 21 humans. We measured tandem repeat copy number changes using tandem-genotypes. Length variation of known disease-associated repeats was compared to other repeat loci. Results We found that known Mendelian disease-causing or disease-associated repeats, especially CAG and 5′UTR GGC repeats, are relatively long and polymorphic in the general population. We also show that repeat lengths of two disease-causing tandem repeats, in ATXN3 and GLS, are correlated with near-by GWAS SNP genotypes. Conclusions We provide a catalog of polymorphic tandem repeats across a variety of repeat unit lengths and sequences, from long read sequencing data. This method especially if used in genome wide association study, may indicate possible new candidates of pathogenic or biologically important tandem repeats in human genomes.

Published

2021

2. Genome-wide survey of tandem repeats by nanopore sequencing shows that disease-associated repeats are more polymorphic in the general population.

Author

Mitsuhashi, Satomi, Frith, Martin C., and Matsumoto, Naomichi

Subjects

*TANDEM repeats, *SHORT tandem repeat analysis, *NUCLEOTIDE sequencing

Abstract

Background: Tandem repeats are highly mutable and contribute to the development of human disease by a variety of mechanisms. It is difficult to predict which tandem repeats may cause a disease. One hypothesis is that changeable tandem repeats are the source of genetic diseases, because disease-causing repeats are polymorphic in healthy individuals. However, it is not clear whether disease-causing repeats are more polymorphic than other repeats. Methods: We performed a genome-wide survey of the millions of human tandem repeats using publicly available long read genome sequencing data from 21 humans. We measured tandem repeat copy number changes using tandem-genotypes. Length variation of known disease-associated repeats was compared to other repeat loci. Results: We found that known Mendelian disease-causing or disease-associated repeats, especially CAG and 5′UTR GGC repeats, are relatively long and polymorphic in the general population. We also show that repeat lengths of two disease-causing tandem repeats, in ATXN3 and GLS, are correlated with near-by GWAS SNP genotypes. Conclusions: We provide a catalog of polymorphic tandem repeats across a variety of repeat unit lengths and sequences, from long read sequencing data. This method especially if used in genome wide association study, may indicate possible new candidates of pathogenic or biologically important tandem repeats in human genomes. [ABSTRACT FROM AUTHOR]

Published

2021

3. Phylogenomics of Dengue Virus Isolates Causing Dengue Outbreak, São Tomé and Príncipe, 2022.

Author

Lázaro L, Winter D, Toancha K, Borges A, Gonçalves A, Santos A, do Nascimento M, Teixeira N, Sequeira YS, Lima AK, da Costa Pina B, de Sousa AB, May J, Neto RMA, and Schuldt K

Subjects

Humans, Sao Tome and Principe, Phylogeny, Genotype, Disease Outbreaks, Dengue Virus genetics, Dengue epidemiology

Abstract

We determined that the dengue outbreak in São Tomé and Príncipe during 2022 was caused by dengue virus serotype 3 genotype III. Phylogenomic analyses showed that the outbreak strain was closely related to the newly identified GIII-American-II lineage and that the virus probably was introduced from the Americas.

Published

2024

4. Genome-wide survey of tandem repeats by nanopore sequencing shows that disease-associated repeats are more polymorphic in the general population

Author

Satomi Mitsuhashi, Martin C. Frith, and Naomichi Matsumoto

Subjects

lcsh:Internal medicine, lcsh:QH426-470, Population, Genome-wide association study, Computational biology, Biology, Genome, DNA sequencing, symbols.namesake, Tandem repeat, Genome-wide analysis, Genetics, lcsh:RC31-1245, education, Genetics (clinical), Repeat unit, education.field_of_study, High-Throughput Nucleotide Sequencing, Tandem repeats, Sequence Analysis, DNA, Nanopore long read sequencing, Nanopore Sequencing, lcsh:Genetics, Triplet repeat disease, Mendelian inheritance, symbols, Human genome, Nanopore sequencing, Genome-Wide Association Study, Research Article

Abstract

Background Tandem repeats are highly mutable and contribute to the development of human disease by a variety of mechanisms. It is difficult to predict which tandem repeats may cause a disease. One hypothesis is that changeable tandem repeats are the source of genetic diseases, because disease-causing repeats are polymorphic in healthy individuals. However, it is not clear whether disease-causing repeats are more polymorphic than other repeats. Methods We performed a genome-wide survey of the millions of human tandem repeats using publicly available long read genome sequencing data from 21 humans. We measured tandem repeat copy number changes using . Length variation of known disease-associated repeats was compared to other repeat loci. Results We found that known Mendelian disease-causing or disease-associated repeats, especially CAG and 5′UTR GGC repeats, are relatively long and polymorphic in the general population. We also show that repeat lengths of two disease-causing tandem repeats, in ATXN3 and GLS, are correlated with near-by GWAS SNP genotypes. Conclusions We provide a catalog of polymorphic tandem repeats across a variety of repeat unit lengths and sequences, from long read sequencing data. This method especially if used in genome wide association study, may indicate possible new candidates of pathogenic or biologically important tandem repeats in human genomes.

Published

2019