多摩川精機株式会社

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参考文献

化合物固定化beadsを使用した論文

Plain beads(2報)

  1. M. Oishi et al.
    Apigenin sensitizes prostate cancer cells to Apo2L/TRAIL by targeting adenine nucleotide translocase-2.
    PLOS ONE, 8, e55922 (2013).

  2. Y. Sumi et al.
    Application of cationic latex particles for protein separation.
    Coll. Surf. B., 2, 419 (1994).

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Linker beads(14報)

  1. M. Watanabe et al.
    The pleiotropic regulation of cyclin D1 by newly identified sesaminol-binding protein ANT2.
    Oncogenesis., 6, e311 (2017).

  2. T. Taniguchi et al.
    Resveratrol directly targets DDX5 resulting in suppression of the mTORC1 pathway in prostate cancer.
    Cell Death Dis., 7, e2211 (2016).

  3. T. Furukawa et al.
    Precocene II, a Trichothecene Production Inhibitor, Binds to Voltage-Dependent Anion Channel and Increases the Superoxide Level in Mitochondria of Fusarium graminearum.
    PLOS ONE, DOI:10.137 (2015).

  4. T. Hosoi et al.
    Flurbiprofen ameliorated obesity by attenuating leptin resistance induced by endoplasmic reticulum stress.
    EMBO Molecular Medicine, DOI: 10.1002 (2014).

  5. H. Inui et al.
    A major latex-like protein is a key factor in crop contamination by persistent organic pollutants.
    Plant Physiology, 161, 2128 (2013).

  6. Y. Iizumi et al.
    The Flavonoid Apigenin Downregulates CDK1 by DirectlyTargeting Ribosomal Protein S9.
    PLOS ONE, 8, e73219 (2013).

  7. K. Hotta et al.
    Vesnarinone suppresses TNFα mRNA expression by inhibiting valosin-containing protein.
    Mol. Pharmacol., 83, 930 (2013).

  8. Y. Ito et al.
    Identification of DNA-dependent protein kinase catalytic subunit (DNA-PKcs) as a novel target of bisphenol A.
    PLOS ONE, 7, e50481 (2012).

  9. ※NHS化して使用
    M. Hiramoto et al.
    High-performance affinity chromatography method for identification of L-arginine interacting factors using magnetic nanobeads.
    Biomed. Chromatogr., 10, 606 (2009).

  10. Y. Masaike et al.
    Identification of Dynamin-2-mediated Endocytosis as a New Target of Osteoporosis Drugs, Bisphosphonates.
    Mol. Pharmacol., 77, 262 (2009).

  11. C. Kuramori et al.
    Mono-(2-ethylhexyl) phthalate Targets Glycogen Debranching Enzyme and Affects Glycogen Metabolism in Rat Testis.
    Toxicol. Sci., 109, 143 (2009).

  12. Y. Hase et al.
    Atrazine binds to F1F0-ATP synthase and inhibits mitochondrial function in sperm.
    Biochem. Biophys. Res. Commun., 366, 66 (2008).

  13. M. Hiramoto et al.
    High-performance affinity beads for identifying anti-NF-κB drug receptors.
    Methods Enzymol., 353, 81 (2002).

  14. ※NH2化して使用
    N. Shimizu et al.
    High-performance affinity beads for identifying drug receptors.
    Nat. Biotechnol., 18, 877 (2000).

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OH beads(1報)

  1. H. Uga et al.
    A new mechanism of methotrexate action revealed by target screening with affinity beads.
    Mol. Pharmacol., 70, 1832 (2006).

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NH2 beads(17報)

  1. M. Boccitto et al.
    The Neuroprotective Marine Compound Psammaplysene A Binds the RNA-Binding Protein HNRNPK.
    Mar. Drugs, 15, 246 (2017).

  2. Y. kabe et al.
    Haem-dependent dimerization of PGRMC1/Sigma-2 receptor facilitates cancer proliferation and chemoresistance.
    Nature Communications, 7:11030 (2016).

  3. P. P. Chamberlain et al.
    Structure of the human Cereblon?DDB1?lenalidomide complex reveals basis for responsiveness to thalidomide analogs.
    Nat. Struct. Mol. Biol., 21, 803 (2014).

  4. A. Perez-Perarnau et al.
    A Trifluorinated Thiazoline Scaffold Leading to Pro-apoptotic Agents Targeting Prohibitins.
    Angew. Chem., 126, 10314 (2014).

  5. T. Ito, H. Handa.
    Deciphering the mystery of thalidomide teratogenicity.
    Congenital Anomalies, 52, 1 (2012)

  6. J. Liu et al.
    Target proteins of ganoderic acid DM provides clues to various pharmacological mechanisms.
    Scientific Reports, 2, 905 (2012).

  7. N. Maekawa et al.
    High-performance affinity purification for identification of 15-deoxy-D12,14-PGJ2 interacting factors using magnetic nanobeads.
    Biomed. Chromatogr., 25, 466 (2011).

  8. T. Ito, H. Ando, H. Handa.
    Teratogenic effects of thalidomide:molecular mechanisms.
    Cell. Mol. Life Sci., 68,1569 (2011).

  9. T. Ito et al.
    Identification of a Primary Target of Thalidomide Teratogenicity.
    Science, 327, 1345 (2010).

  10. K. Kume et al.
    Role of N-end rule ubiquitin ligases UBR1 and UBR2 inregulating the leucine-mTOR signaling pathway.
    Genes Cells, 15, 339 (2010).

  11. ※NHS化して使用
    K. Nishio et al.
    Development of novel magnetic nano-carriers for high-performantce affinity purification.
    Coll. Surf. B., 64, 162 (2008).

  12. ※NHS化して使用
    E. Suzuki et al.
    Preparation of conophylline affinity nano-beads and identification of a target protein.
    Bioorg. Med. Chem., 17, 6185 (2009).

  13. M. Azuma et al.
    Adenine nucleotide translocator transports haem precursors into mitochondria.
    PLOS ONE, 3, e3070 (2008).

  14. M. Hasegawa et al.
    Affinity identification of delta-opioid receptors using latex nanoparticles.
    Bioorg. Med. Chem. Lett., 16, 158 (2006).

  15. Y. Kabe et al.
    Porphyrin accumulation in mitochondria is mediated by 2-oxoglutarate carrier.
    J. Biol. Chem., 281, 31729 (2006).

  16. ※NHS化して使用
    T. Zenkoh et al.
    Design and synthesis of a solid-supported FR225659 derivative for its receptor screening.
    Org. Lett., 6, 2477 (2004).

  17. ※NHS化して使用
    D. Shima et al.
    Mechanism of H-8 inhibition of Cyclin-dependent kinase 9:study using inhibitor-immobilized matrices.
    Genes to Cells, 8, 215-223 (2003).

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COOH beads(8報)

  1. V. Gupta et al.
    Salicylic Acid Induces Mitochondrial Injury by Inhibiting Ferrochelatase Heme Biosynthesis Activity.
    Mol. Pharmacol., DOI:10.1124 (2013).

  2. ※NHS化して使用
    S. Karasawa et al.
    Vitamin K2 Covalently Binds to Bak and Induces Bak-Mediated Apoptosis.
    Mol. Pharmacol., 83, 613 (2013).

  3. A. Sandhu et al.
    Synthesis and applications of magnetic nanoparticles for biorecognition and point of care medical diagnostics.
    Nanotechnology, 21, 442001 (2010).

  4. C. Kuramori et al.
    Capsaicin binds to prohibitin 2 and displaces it from the mitochondria to the nucleus.
    Biochem. Biophys. Res. Commun., 379, 519 (2009).

  5. M. Suzuki et al.
    Development of a chemical screening system using aqueorin-fused protein.
    Biochem. Biophys. Res. Commun., 368, 600 (2008).

  6. ※NHS化して使用
    M. Yoshida et al.
    A new mechanism of 6-((2-(dimethylamino)ethyl)amino)-3- hydroxy-7H-indeno(2,1-c)quinolin-7-one dihydrochloride (TAS-103) action discovered by target screening with drug-immobilized affinity beads.
    Mol. Pharmacol., 73, 987 (2008).

  7. H. Uga et al.
    A new mechanism of methotrexate action revealed by target screening with affinity beads.
    Mol. Pharmacol., 70, 1832 (2006).

  8. H. Hatori et al.
    FR225659-binding proteins: identification as serine/threonine protein phosphatase PP1 and PP2A using high-performance affinity beads.
    . Antibiot., 57, 456 (2004).

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NHS beads(2報)

  1. M. Tsushima et al.
    Selective purification and chemical labeling of a target protein on ruthenium photocatalystfunctionalized affinity beads.
    Chem. Commun., 53, 4838 (2017).

  2. K. Ishii, Y.Sugimura.
    Identification of a new pharmacological activity of the phenylpiperazine derivative naftopidil:tubulin-binding drug.
    J. Chem. Biol., 8, 5 (2015).

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Azide beads(1報)

  1. K. Kai et al.
    An acyl-SAM analog as an affinity ligand for identifying quorum sensing signal synthases.
    Chem. Commun., DOI:10.1039 (2014).

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Alkyne beads(1報)

  1. M. Oda et al.
    Vizantin Inhibits Endotoxin-Mediated Immune Responses via the TLR 4/MD-2 Complex.
    J. Immunol., 193, 4507 (2014).

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Streptavidin beads(2報)

  1. Y. Soeda et al.
    Toxic tau oligomer formation blocked by capping of cysteine residues with 1,2-dihydroxybenzene groups.
    Nature Communications, 6:10216 (2015).

  2. T. Suzuki et al.
    Mitochonic Acid 5 Binds Mitochondria and Ameliorates Renal Tubular and Cardiac Myocyte Damage.
    J. Am. Soc. Nephrol., DOI:10.1681 (2015).

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