Phosphorylation of HS1, GAP-Associated p190 and a Novel GAP-Associated p60 Protein by Cross-Linking of FcγRIIIA
スポンサーリンク
概要
- 論文の詳細を見る
- 1995-12-01
著者
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MORIKAWA Minoru
Tokyo Institute of Immunopharmacology, Inc.
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YOSHIDA Takeshi
Tokyo Institute of Immunopharmacology, Inc.
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KUROSAKI Tomohiro
Department of Molecular Genetics, Intitute for Hepatic Research ,Kansai Medical University
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Kitamura Daisuke
Medical Institute Of Bioregulation Kyushu University
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Morikawa Minoru
Tokyo Institute Of Immunopharmacology Inc.
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ZENG Hong
Tokyo Institute for Immunopharmacology, Inc., and Chugai Pharmaceutical Co. Ltd.
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YAMAURA Hirohei
Department of Biochemistry, Kobe University School of Medicine
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OSHIMA Akihiro
Tokyo Metropolitan Institute of Medical Science
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WATANABE Takeshi
Medical Institute of Bioregulation, Kyushu University
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Watanabe T
Kyorin Univ. School Of Medicine Tokyo
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Kurosaki Tomohiro
Department Of Biochemistry Cancer Institute Okayama University Medical School
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Zeng Hong
Tokyo Institute For Immunopharmacology Inc. And Chugai Pharmaceutical Co. Ltd.
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Yamaura Hirohei
Department Of Biochemistry Kobe University School Of Medicine
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Kurosaki Tomohiro
Department Of Cardiovascular Biology Lederle Laboratories
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Morikawa Minoru
Tokyo Institute For Immunopharmacology Inc. And Chugai Pharmaceutical Co. Ltd.
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Yoshida Takeshi
Tokyo Institute For Immunopharmacology Inc. And Chugai Pharmaceutical Co. Ltd.
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Yoshida Takeshi
Tokyo Institute For Immunopharmacology Inc.
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MORIKAWA Minoru
Tokyo Institute for Immunopharmacology, Inc., and Chugai Pharmaceutical Co. Ltd.
関連論文
- Morphological Changes and Reorganization of Actinfilaments in Human Myeloid Leukemia Cells Induced by a Novel Protein Phosphatase Inhibitor, Tautomycin
- Phosphorylation of HS1, GAP-Associated p190 and a Novel GAP-Associated p60 Protein by Cross-Linking of FcγRIIIA
- Structural Feature of the Major but Not Cytokine-Inducing Molecular Species of Lipoteichoic Acid^1
- Protein tyrosine kinade Lyn mediates apoptosis induced by topoisomerase II inhibitors in DT40 cels
- Syk and Lyn Are Involved in Radiation-Induced Signaling, but Inactivation of Syk or Lyn alone Is Not Sufficient to Prevent Radination-Induced Apoptosis
- Qualitative and Quantitative Analyses of Postformalin Ammoniacal Silver Staining of Histones
- Intracellular Localization of Migration Inhibitory Factor-Related Protein (MRP) and Detection of Cell Surface MRP Binding Sites on Human Leukemia Cell Lines^1
- Syk and Lyn Are Involved in Radiation-Induced Signaling, but Inactivation of Syk or Lyn Alone Is Not Sufficient to Prevent Radiation-Induced Apoptosis.