Kenichi Miyata YOU? Author Swipe

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Clonal lineage tracing and parallel multiomics profiling reveal transcriptional diversification induced by ARID1A deficiency Open

Kenichi Miyata, Liying Yang, Yuxiao Yang, Kohei Kumegawa, Reo Maruyama · 2025

Phenotypic heterogeneity among genetically identical cancer cells underpins tumor progression and therapy resistance. However, the mechanism of epigenetic dysregulation that drives such divergence remains unclear. This study introduces int…

DNA/RNA heteroduplex technology with cationic oligopeptide reduces class-related adverse effects of nucleic acid drugs Open

Masahiro Ohara, Tetsuya Nagata, Hiroya Kuwahara, Kie Yoshida‐Tanaka, Nozomi Toide , et al. · 2024

Antisense oligonucleotides (ASOs) are a therapeutic modality for incurable diseases. However, systemic injection of gapmer-type ASOs causes class-related toxicities, including prolongation of activated partial thromboplastin time (aPTT) an…

Supplementary Figure S2 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

Induction of IFN response after DHX9 loss in SCLC cell lines

Supplementary Figure S6 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

DHX9 loss decreases tumor growth, induces immune cell infiltration and enhances response to immunotherapy

Supplementary Figure S3 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

DNA damage and R-loop accumulation in DHX9 depleted SCLC cells

Supplementary Table S4 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

SCLC cell line information

Supplementary Table S6 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

Flow cytometry settings

Supplementary Table S2 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

PCR primer sequences

Supplementary Table S3 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

DHX9 depleted signature

Supplementary Figure S7 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

DHX9-low tumors are associated with interferon and inflammatory signatures

Supplementary Figure S1 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

DHX9 suppresses ERE-derived dsRNA accumulation in SCLCs

Supplementary Table S4 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

SCLC cell line information

Supplementary Figure S4 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

DHX9 depletion decreases cell viability and induces dsRNA and dsDNA antiviral sensing pathways in SCLC cells

Supplementary Figure S2 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

Induction of IFN response after DHX9 loss in SCLC cell lines

Supplementary Figure S1 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

DHX9 suppresses ERE-derived dsRNA accumulation in SCLCs

Data from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

Activating innate immunity in cancer cells through cytoplasmic nucleic acid sensing pathways, a phenomenon known as “viral mimicry,” has emerged as an effective strategy to convert immunologically “cold” tumors into “hot.” Through a curate…

Supplementary Table S1 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

sgRNA sequences

Data from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

Activating innate immunity in cancer cells through cytoplasmic nucleic acid sensing pathways, a phenomenon known as “viral mimicry,” has emerged as an effective strategy to convert immunologically “cold” tumors into “hot.” Through a curate…

Supplementary Figure S5 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

CDK9 inhibition rescues the DHX9 depletion effect on cell survival by reducing replication stress

Supplementary Table S5 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

CRISPR screen results

Supplementary Table S1 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

sgRNA sequences

Supplementary Figure S6 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

DHX9 loss decreases tumor growth, induces immune cell infiltration and enhances response to immunotherapy

Supplementary Figure S3 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

DNA damage and R-loop accumulation in DHX9 depleted SCLC cells

Supplementary Figure S5 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

CDK9 inhibition rescues the DHX9 depletion effect on cell survival by reducing replication stress

Supplementary Table S6 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

Flow cytometry settings

Supplementary Figure S4 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

DHX9 depletion decreases cell viability and induces dsRNA and dsDNA antiviral sensing pathways in SCLC cells

Supplementary Table S5 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

CRISPR screen results

Supplementary Table S2 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

PCR primer sequences

Supplementary Figure S7 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

DHX9-low tumors are associated with interferon and inflammatory signatures

Supplementary Table S3 from Targeting DHX9 Triggers Tumor-Intrinsic Interferon Response and Replication Stress in Small Cell Lung Cancer Open

Takahiko Murayama, Jun Nakayama, Xinpei Jiang, Kenichi Miyata, Alexander D. Morris , et al. · 2024

DHX9 depleted signature

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