KATO Seishi | Sagami Chemical Research Center
スポンサーリンク
概要
関連著者
-
KATO Seishi
Sagami Chemical Research Center
-
SEKINE Shingo
Sagami Chemical Research Center
-
Kato S
Univ. Tokyo Tokyo
-
Kim N‐s
Korea Research Institute Of Bioscience & Biotechnology
-
YAMAGUCHI Takeo
Department of Chemistry, Faculty of Science, Fukuoka University
-
Yamaguchi T
Department Of Chemistry Faculty Of Science Fukuoka University
-
Kim Nam-soon
Sagami Chemical Research Center
-
Saeki M
Jst Kanagawa
-
YAMAGUCHI Tomoko
Sagami Chemical Research Center
-
Seino Hiroaki
National Institute Of Genetics
-
KANAZAWA Masaki
Department of Pediatrics, Chiba University Graduate School of Medicine
-
Mori Masataka
Department Of Molecular Genetics Kumamoto University School Of Medicine
-
Mori Masataka
Department Of Electrical Engineering Nagaoka University Of Technology
-
TERADA Kazutoyo
Department of Molecular Genetics, Kumamoto University School of Medicine
-
Yokoyama-kobayashi Midori
Sagami Chemical Research Center
-
SAEKI Mihoro
Sagami Chemical Research Center
-
Saeki Mihoro
Kato Cytoprotein Network Project Erato Jst C/o Sagami Chemical Research Center
-
YAMAO Fumiaki
National Institute of Genetics
-
Yamao Fumiaki
National Inst. Of Genetics
-
OSAKA Fumio
National Institute of Genetics
-
Kanazawa Masaki
Department Of Internal Medicine Kofu Municipal Hospital
-
Kanazawa Masaki
Department Of Molecular Genetics Kumamoto University School Of Medicine
-
IWAMURO Shawichi
Kato Cytoprotein Network Project,ERATO,JST
-
Terada Kazutoyo
Department Of Chemistry Faculty Of Science Kyoto University
-
Terada Kazutoyo
Department Of Molecular Genetics Kumamoto University School Of Medicine
-
Iwamuro Shawichi
Kato Cytoprotein Network Project Erato Jst
著作論文
- Human cDNA Encoding a Novel TGF-β Superfamily Protein Highly Expressed in Placenta^1
- Cloning and Expression of cDNA Encoding a Human Ubiquitin-Conjugating Enzyme Similar to the Drosophila bendless Gene Product^1
- HSDJ, a Human Homolog of DnaJ, Is Farnesylated and Is Involved in Protein Import into Mitochondria^1
- Cloning of Human Polyubiquitin cDNAs and a Ubiquitin-Binding Assay Involving Its In Vitro Translation Product