Identification of Macrolide Antibiotic-binding Human_p8 Protein
スポンサーリンク
概要
- 論文の詳細を見る
- 2008-05-25
著者
-
SUGAWARA Fumio
Department of Applied Biological Science, Tokyo University of Science
-
MORIMURA Tetsuro
Genome and Drug Discovery Research Center, Department of Applied Biological Science, Tokyo Universit
-
HASHIBA Mio
Genome and Drug Discovery Research Center, Department of Applied Biological Science, Tokyo Universit
-
KAMEDA Hiroshi
Genome and Drug Discovery Research Center, Department of Applied Biological Science, Tokyo Universit
-
TAKAMI Mihoko
Genome and Drug Discovery Research Center, Department of Applied Biological Science, Tokyo Universit
-
TAKAHAMA Hirokazu
Genome and Drug Discovery Research Center, Department of Applied Biological Science, Tokyo Universit
-
OHSHIGE Masahiko
Genome and Drug Discovery Research Center, Department of Applied Biological Science, Tokyo Universit
-
SUGAWARA Fumio
Genome and Drug Discovery Research Center, Department of Applied Biological Science, Tokyo Universit
-
Sugawara F
Dep. Of Applied Biological Sci. Tokyo Univ. Of Sci.
-
Hashiba Mio
Genome And Drug Discovery Research Center Department Of Applied Biological Science Tokyo University
-
Sugawara Fumio
Dep. Of Applied Biological Sci. Tokyo Univ. Of Sci.
-
Takami Mihoko
Genome And Drug Discovery Research Center Department Of Applied Biological Science Tokyo University
-
Kameda Hiroshi
Genome And Drug Discovery Research Center Department Of Applied Biological Science Tokyo University
-
Morimura Tetsuro
Genome And Drug Discovery Research Center Department Of Applied Biological Science Tokyo University
-
Takahama Hirokazu
Genome And Drug Discovery Research Center Department Of Applied Biological Science Tokyo University
-
Ohshige Masahiko
Genome And Drug Discovery Research Center Department Of Applied Biological Science Tokyo University
-
Sugawara Fumio
Dep. Of Applied Biological Sci. Fac. Of Sci. And Technol. Tokyo Univ. Of Sci.
関連論文
- Novel Terpenoids, Trichoderonic Acids A and B Isolated from Trichoderma virens, Are Selective Inhibitors of Family X DNA Polymerases
- Neoechinulin A impedes the progression of rotenone-induced cytotoxicity in PC12 cells
- Identification of Macrolide Antibiotic-binding Human_p8 Protein
- Identification of Antibiotic Clarithromycin Binding Peptide Displayed by T7 Phage Particles
- Neoechinulin A Impedes the Progression of Rotenone-Induced Cytotoxicity in PC12 Cells
- Neoechinulin A Protects PC12 Cells against MPP^+-induced Cytotoxicity
- Structure-activity Relationships of Neoechinulin A Analogues with Cytoprotection against Peroxynitrite-induced PC12 Cell Death
- An Ergosterol Peroxide, a Natural Product That Selectively Enhances the Inhibitory Effect of Linoleic Acid on DNA Polymerase β
- Galactosyldiacylglycerol, a Mammalian DNA Polymerase α-Specific Inhibitor from a Sea Alga, Petalonia bingbamiae
- The Cyanogenic Glucoside, Prunasin (D-Mandelonitrile-β-D-Glucoside), Is a Novel Inhibitor of DNA Polymerase β
- Action of a New Mammalian DNA Polymerase Inhibitor, Sulfoquinovosyldiacylglycerol
- Phytotoxins from the Septoria spp. Plant Pathogenic Fungus on Leafy Spurge
- Sulfoquinovosyldiacylglycerol, KM043,a New Potent Inhibitor of Eukaryotic DNA Polymerases and HIV-Reverse Transcriptase Type 1 from a Marine Red Alga, Gigartina tenella
- Phytoactive Eremophilanes Produced by the Weed Pathogen Drechslera gigantea
- (Z)-3-Hexenyl and trans-Linalool 3,7-oxide β-Primeverosides Isolated as Aroma Precursors from Leaves of a Green Tea Cultivar
- Geranyl 6-O-α-L-Arabinopyranosyl-β-D-glucopyranoside Isolated as an Aroma Precursor from Leaves of a Green Tea Cultivar
- Anti-tumor Effect of Chemically Synthesized Sulfolipids Based on Sea Urchin's Natural Sulfonoquinovosylmonoacylglycerols
- Synthesis of Benzyl 6-O-β-D-apiofuranosyl-β-D-glucopyranoside, a Metabolite of Benzoic Acid in Lemna paucicostata(Organic Chemistry)
- Molecular Action Mode of Hippospongic Acid A, an Inhibitor of Gastrulation of Starfish Embryos
- Structure of Malformin B, a Phytotoxic Metabolite Produced by Aspergillus niger
- Structure of Malformin A, a Phytotoxic Metabolite Produced by Aspergillus niger
- Synthesis of Pseudodeflectusin and Ustusorane C: Structural Revision of Aspergione A and B
- Synthesis and Biological Activities of Neoechinulin A Derivatives : New Aspects of Structure-Activity Relationships for Neoechinulin A
- Downregulation of Tie2 gene by a novel antitumor sulfolipid, 3'-sulfoquinovosyl-1'-monoacylglycerol, targeting angiogenesis
- P-417 Affinity Purification of Proteins by the Specific Ligands Immobilized to Resins Used in Solid-phase Organic Synthesis
- P-112 Marine Natural Product, Sulfoquinovosylacylglycerol (SQAG), is a New Class of Anticancer Radiosensitizer and Strongly Binds to VEGF
- Chlorogenic acid is essential for root hair formation in the lettuce seedlings
- 座礁タンカ-からの流出重油に含まれる多環芳香族炭化水素のピレン資化性細菌による分解
- Three-Dimensional Structural Model Analysis of the Binding Site of an Inhibitor, Nervonic Acid, of Both DNA Polymerase β and HIV-1 Reverse Transcriptase
- Protective Properties of Neoechinulin A against SIN-1-Induced Neuronal Cell Death
- Chlorogenic Acid Facilitates Root Hair Formation in Lettuce Seedlings
- Effect on mutagenicity of degradation by Mycobacterium sp. of polycyclic aromatic hydrocarbons in heavy oil washed ashore
- Three-Dimensional Structural Model Analysis of the Binding Site of Lithocholic Acid, an Inhibitor of DNA Polymerase β and DNA Topoisomerase II^1
- Structure-Activity Relationship of a Novel Group of Mammalian DNA Polymerase Inhibitors, Synthetic Sulfoquinovosylacylglycerols
- Novel Terpenoids, Trichoderonic Acids A and B Isolated from Trichoderma virens, Are Selective Inhibitors of Family X DNA Polymerases
- Synthesis of Pseudodeflectusin and Ustusorane C : Structural Revision of Aspergione A and B