Searching journal content for articles similar to Belchikov et al. 34 (11): 1735.

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  1. Method: De novo detection of somatic variants in high-quality long-read single-cell RNA sequencing data
    • Arthur Dondi,
    • Nico Borgsmüller,
    • Pedro F. Ferreira,
    • Brian J. Haas,
    • Francis Jacob,
    • Viola Heinzelmann-Schwarz,
    • Tumor Profiler Consortium,
    • and Niko Beerenwinkel
    Genome Res. April 2025 35: 900-913; Published in Advance March 19, 2025, doi:10.1101/gr.279281.124
    ....beerenwinkel@bsse.ethz.chAbstractIn cancer, genetic and transcriptomic variations generate clonal heterogeneity, leading to treatment resistance. Long-read single-cell RNA sequencing (LR scRNA-seq) has the potential to detect genetic and transcriptomic variations simultaneously. Here, we present LongSom, a computational workflow leveraging...
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  2. Research: Long-read single-cell RNA sequencing enables the study of cancer subclone-specific genotypes and phenotypes in chronic lymphocytic leukemia
    • Gage S. Black,
    • Xiaomeng Huang,
    • Yi Qiao,
    • Philip Moos,
    • Deepa Sampath,
    • Deborah M. Stephens,
    • Jennifer A. Woyach,
    • and Gabor T. Marth
    Genome Res. April 2025 35: 686-697; Published in Advance February 18, 2025, doi:10.1101/gr.279049.124
    ...of long-read scRNA-seq in elucidating both genomic and transcriptomic subclonal dynamics within a single assay.To demonstrate the utility of long-read scRNA-seq in identifying and classifying isoforms, we repeated the single-cell analysis using the isoform count matrix generated from the Iso-Seq pipeline...
  3. Perspective: Unraveling the hidden complexity of cancer through long-read sequencing
    • Qiuhui Li,
    • Ayse G. Keskus,
    • Justin Wagner,
    • Michal B. Izydorczyk,
    • Winston Timp,
    • Fritz J. Sedlazeck,
    • Alison P. Klein,
    • Justin M. Zook,
    • Mikhail Kolmogorov,
    • and Michael C. Schatz
    Genome Res. April 2025 35: 599-620; Published in Advance March 20, 2025, doi:10.1101/gr.280041.124
    ...sequencing is rapidly emerging as a transformative technology for cancer research by providing a comprehensive view across the , transcriptome, and epi, including the ability to detect alterations that previous technologies have overlooked. In this Perspective, we explore the current applications of long-read...
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  4. Method: Long-read RNA sequencing reveals allele-specific N6-methyladenosine modifications
    • Dayea Park and
    • Can Cenik
    Genome Res. April 2025 35: 999-1011; Published in Advance October 29, 2024, doi:10.1101/gr.279270.124
    ...variants in the transcriptome (Glinos et al. 2022). Furthermore, long-read sequencing enables comprehensive analysis of splicing (Tilgner et al. 2015, 2018; Joglekar et al. 2021) which has fundamental importance for determining mRNA modifications due to their dependence on splicing patterns and transcript...
  5. Method: Single-cell Rapid Capture Hybridization sequencing reliably detects isoform usage and coding mutations in targeted genes
    • Hongke Peng,
    • Jafar S. Jabbari,
    • Luyi Tian,
    • Changqing Wang,
    • Yupei You,
    • Chong Chyn Chua,
    • Natasha S. Anstee,
    • Noorul Amin,
    • Andrew H. Wei,
    • Nadia M. Davidson,
    • Andrew W. Roberts,
    • David C.S. Huang,
    • Matthew E. Ritchie,
    • and Rachel Thijssen
    Genome Res. April 2025 35: 942-955; Published in Advance January 10, 2025, doi:10.1101/gr.279322.124
    ...the transcriptome profile to isoform usage, mutations, and translocations in full-length transcripts at a single-cell level (Wu and Schmitz 2023).In recent years, several high-throughput methods have been developed to enable single-cell long-read sequencing. These approaches typically involve barcoding of c...
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  6. Method: Accurate fusion transcript identification from long- and short-read isoform sequencing at bulk or single-cell resolution
    • Qian Qin,
    • Victoria Popic,
    • Kirsty Wienand,
    • Houlin Yu,
    • Emily White,
    • Akanksha Khorgade,
    • Asa Shin,
    • Christophe Georgescu,
    • Catarina D. Campbell,
    • Arthur Dondi,
    • Niko Beerenwinkel,
    • Francisca Vazquez,
    • Aziz M. Al'Khafaji,
    • and Brian J. Haas
    Genome Res. April 2025 35: 967-986; Published in Advance March 14, 2025, doi:10.1101/gr.279200.124
    ...such as fusion detection in single cells.To further advance fusion transcript detection using long-read isoform sequencing, we developed a new method as part of the Cancer Transcriptome Analysis Toolkit (CTAT) called CTAT-LR-Fusion. CTAT-LR-Fusion is specifically developed for long-read RNA-seq with or without...
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  7. Research: Long-read transcriptome sequencing of CLL and MDS patients uncovers molecular effects of SF3B1 mutations
    • Alicja Pacholewska,
    • Matthias Lienhard,
    • Mirko Brüggemann,
    • Heike Hänel,
    • Lorina Bilalli,
    • Anja Königs,
    • Felix Heß,
    • Kerstin Becker,
    • Karl Köhrer,
    • Jesko Kaiser,
    • Holger Gohlke,
    • Norbert Gattermann,
    • Michael Hallek,
    • Carmen D. Herling,
    • Julian König,
    • Christina Grimm,
    • Ralf Herwig,
    • Kathi Zarnack,
    • and Michal R. Schweiger
    Genome Res. November 2024 34: 1832-1848; Published in Advance September 13, 2024, doi:10.1101/gr.279327.124
    ...and treatment options. We applied long-read transcriptome sequencing (LRTS) to 44 MDS and CLL patients, as well as two pairs of isogenic cell lines with and without SF3B1 mutations, and found >60% of novel isoforms. Splicing alterations were largely shared between cancer types and specifically affected...
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  8. Perspective: Challenges in identifying mRNA transcript starts and ends from long-read sequencing data
    • Ezequiel Calvo-Roitberg,
    • Rachel F. Daniels,
    • and Athma A. Pai
    Genome Res. November 2024 34: 1719-1734; doi:10.1101/gr.279559.124
    ...alternative transcript starts (TSSs) and ends (PASs), leading to different isoforms expressed from the same gene with variable cellular consequences. (B) Representative example of long-read RNA sequencing reads for CDC42 in K562 cells. To aid visualization, 280 randomly sampled reads from each sequencing...
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  9. Research: Transcription and potential functions of a novel XIST isoform in male peripheral glia
    • Kevin S. O'Leary,
    • Meng-Yen Li,
    • Kevyn Jackson,
    • Lijie Shi,
    • Elena Ezhkova,
    • Bernice E. Morrow,
    • and Deyou Zheng
    Genome Res. February 2026 36: 257-274; Published in Advance December 12, 2025, doi:10.1101/gr.280832.125
    ...searched the ENCODE database for XIST transcripts from long-read sequencing technology. There was no such data from nerve samples, but we found RNA transcripts that aligned with the presence of sXIST transcripts in human hearts (Supplemental Fig. S8, red arrows, a male and a female sample...
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  10. Resource: Full-length RNA transcript sequencing traces brain isoform diversity in house mouse natural populations
    • Wenyu Zhang,
    • Anja Guenther,
    • Yuanxiao Gao,
    • Kristian Ullrich,
    • Bruno Huettel,
    • Aftab Ahmad,
    • Lei Duan,
    • Kaizong Wei,
    • and Diethard Tautz
    Genome Res. November 2024 34: 2118-2132; Published in Advance September 17, 2024, doi:10.1101/gr.279166.124
    ...level of splicing junction events due to the limitation of the short-read sequencing technology.The recent development of long-read single-molecule sequencing technologies has enabled the capture of the full-length isoform diversity (Byrne et al. 2019), further facilitating the comparative analysis...
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