Masato T. Kanemaki

Japan Science and Technology Agency (JST) - Precursory Research for Embryonic Science and Technology (PRESTO)

Saitama

Japan

SCHOLARLY PAPERS

2

DOWNLOADS

21

SSRN CITATIONS

0

CROSSREF CITATIONS

0

Scholarly Papers (2)

1.

RNaseH2A Downregulation Drives Chromosomal DNA Fragmentation and Accumulation of RNA-DNA Hybrids in Senescent Cells

Number of pages: 66 Posted: 18 May 2020
Japanese Foundation for Cancer Research - Project for Cellular Senescence, Japanese Foundation for Cancer Research - Project for Cellular Senescence, Japanese Foundation for Cancer Research - Project for Cellular Senescence, Japanese Foundation for Cancer Research - Project for Cellular Senescence, National Institute of Advanced Industrial Science and Technology (AIST) - Biomedical Research Institute, Kyushu University - 4Institute of Mathematics for Industry, Chiba University - Division of Diabetes, Metabolism and EndocrinologyChiba University - Department of Endocrinology, Hematology and Gerontology, Chiba University - Department of Endocrinology, Hematology and Gerontology, Kanazawa University - Division of Genetics, Kanazawa University - Division of Genetics, Osaka University - Laboratory of Genome Structure and Function, Osaka University - Laboratory of Genome Structure and Function, Japanese Foundation for Cancer Research - Department of Gastroenterological Surgery, National Center for Global Health and Medicine - Department of Stem Cell Biology, Tokyo Medical and Dental University (TMDU) - Department of Molecular Genetics, University of Miami - Department of Medicine, Japan Science and Technology Agency (JST) - Precursory Research for Embryonic Science and Technology (PRESTO), Osaka University - Department of Molecular Microbiology and Japanese Foundation for Cancer Research
Downloads 14 (702,003)

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RNaseH2A, rNMPs, RNA-DNA hybrid, genomic DNA fragments, SASP, Werner syndrome, cancer

2.

Ran-GTP is Non-Essential to Activate NuMA for Spindle Pole Focusing, But Dynamically Polarizes HURP to Control Mitotic Spindle Length

Number of pages: 48 Posted: 15 May 2020
Nagoya University - Department of Biological Science, Nagoya University - Department of Biological Science, Nagoya University - Department of Biological Science, Nagoya University - Department of Biological Science, Nagoya University - Department of Biological Science, Japan Science and Technology Agency (JST) - Precursory Research for Embryonic Science and Technology (PRESTO), Nagoya University - Department of Biological Science and Nagoya University - Department of Biological Science
Downloads 7 (757,914)

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Mitotic spindle assembly, Ran-GTP, Auxin inducible degron technology, NuMA, HURP