Identification of Novel Binding Motif for Secreted Frizzled-Related Protein-1
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概要
- 論文の詳細を見る
- 2005-03-01
著者
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Chuman Yoshiro
北海道大学 理学部化学科
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Chuman Yoshiro
Davison Of Chemistry Hokkaido University
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Horwood Nicole
St. Vincent's Institute Of Medical Research
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Chuman Yoshiro
Division Of Chemistry Faculty Of Science Hokkaido University
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GILLESPIE Matthew
St. Vincent's Institute of Medical Research and The University of Melbourne, Department of Medicine,
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RUBIN Jeffrey
Laboratory of Cellular and Molecular Biology National Cancer Institute
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Rubin Jeffrey
Laboratory Of Cellular And Molecular Biology Nci
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UREN Aykut
Laboratory of Cellular and Molecular Biology, NCI
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HAUSLER Karl
St. Vincent's Institute of Medical Research
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ELLIS Jennifer
Laboratory of Cellular and Molecular Biology, NCI
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LENGEL Carole
Laboratory of Cellular and Molecular Biology, NCI
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WOLF Vladimir
Laboratory of Cellular and Molecular Biology, NCI
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KAY Brian
Department of Pharmacology, University of Wisconsin
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Kay Brian
Department Of Pharmacology University Of Wisconsin
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Uren Aykut
Laboratory Of Cellular And Molecular Biology Nci
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Hausler Karl
St. Vincent's Institute Of Medical Research
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Lengel Carole
Laboratory Of Cellular And Molecular Biology Nci
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Wolf Vladimir
Laboratory Of Cellular And Molecular Biology Nci
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Ellis Jennifer
Laboratory Of Cellular And Molecular Biology Nci
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Gillespie Matthew
St. Vincent's Institute Of Medical Research
関連論文
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- Characterization and Application of Monoclonal Antibody Specific for Ser(P)-Gln Phosphorylation Motif
- Fibrillar and Granular Aggregation of G334V Mutant p53 Tetramer Peptide
- DNA Binding of Peptide with Single Helix-hairpin-Helix Motif
- Stability and Folding Mechanism for Trp-contaning Peptides of p53 Tetramerization Domain
- Characteraization of Superstable Variant Peptide of Human p53 Tetramerization Domain
- Subtilisin-Like Proprotein Convertases, PACE4 and PC8, as Well as Furin, are Endogenous Proalbumin Convertases in HepG2 Cells
- Analysis of Stabilization by Substitution of Cyclohexylalanine for Phe341 in Hydrophobic Core of p53 Tetramer
- Extremely Long Nanofibrils of Functionalized Structure-Controlled-Amyloid Peptides Derived from Transthyretin
- PPM1D430, a Novel Alternative Splicing Variant of the Human PPM1D
- Identification of Novel Chemical Inhibitors for p53-Inducible Protein Phosphatase PPM1D
- Thermal Stability of p53 Tetramerization Domain Peptides Derived from Various Species
- Structural Photomodulation of Peptides with Azobenzoate Derivative in Peptide Backbone
- Correlation between Expression Level in E. coli and Stability of Oligomeric Structure of the p53 Tetramerization Domain
- Screening of Peptides to Stabilize the p53 Tetramer Formation from Phage Displayed Library
- Correlation of Oligomeric Structure and Transcriptional Activity of p53 Mutants
- Thermodynamic Stability of Mutant p53 Tetramerization Domain Peptides Associated with Human Tumors
- Stabilization of p53 Tetrameric Structure by Polyol Compounds
- Function of Basic Loop in Substrate Recognition of Protein Phosphatase PPM1D
- Substrate Recognition of PP2C Family Phosphatase PPM1D
- The effect of hepatocyte growth factor/scatter factor on human hair follicle growth
- Low Threshold of Destabilization for Loss of Tumor Suppressor Activity of p53 : A Quantitative Analysis of p53 Tetramerization Domain Mutants
- Identification of Novel Binding Motif for Secreted Frizzled-Related Protein-1
- Dephosphorylation of Nucleolar Protein Nucleophosmin by Protein Phosphatase PPM1D
- Controlling Initiation Position of Amyloid Nanowire Using a Gold Nanoparticle
- Repression of p53 transcriptional activity by p53 tetramerization domain peptide containing PTD and NLS domain
- 副甲状腺ホルモン関連タンパク : 細胞内分布とイントラクライン作用
- Probing the Differential Phosphothreonine and Metal Selectivity of Human PPM1 Phosphatase Family
- Involvement of PPM1D Specific Pro-Loop in Regulatory Mechanism of PPM1D Phosphatase Activity
- Analysis of Interaction between p53-Inducible Protein Phosphatase PPM1D and Nucleolar Protein
- Formation of Functionalized Nanowires Using Structure-Controllable Amyloid Peptide
- Nanostructure Formed by Biomineralization Peptide Oligomerized via p53 Tetramerization
- Repression of p53 Transcriptional Activity by Inhibitory Peptide via Heterotetramerization