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Can long-read sequencing tackle the barriers, which the next-generation could not? A review

Nikolett Szakállas, Barbara Kinga Barták, Gábor Valcz, Zsófia Brigitta Nagy, István Takács, Béla Molnár

2024Pathology & Oncology Research11 citationsDOIOpen Access PDF

Abstract

The large-scale heterogeneity of genetic diseases necessitated the deeper examination of nucleotide sequence alterations enhancing the discovery of new targeted drug attack points. The appearance of new sequencing techniques was essential to get more interpretable genomic data. In contrast to the previous short-reads, longer lengths can provide a better insight into the potential health threatening genetic abnormalities. Long-reads offer more accurate variant identification and genome assembly methods, indicating advances in nucleotide deflect-related studies. In this review, we introduce the historical background of sequencing technologies and show their benefits and limits, as well. Furthermore, we highlight the differences between short- and long-read approaches, including their unique advances and difficulties in methodologies and evaluation. Additionally, we provide a detailed description of the corresponding bioinformatics and the current applications.

Topics & Concepts

Computational biologyIdentification (biology)DNA sequencingData scienceComputer scienceSequence (biology)BiologyGeneticsGeneBotanyGenomics and Phylogenetic StudiesGenomics and Rare DiseasesCancer Genomics and Diagnostics
Can long-read sequencing tackle the barriers, which the next-generation could not? A review | Litcius