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National Institute of Bioscience and Human-technology | 論文
- MALDI-TOF質量分析による新しい糖鎖構造解析法 : ポストソースディケイ・フラグメント法による解析
- Rapid Micromixing Based on Multilayer Laminar Flows
- Conformational Characteristics of the Peptides Covalently Linked with Hydrophobic Groups
- Molecular Design for Inter-Strand Alignment of Coiled Coils
- De Novo Design of Heme-Binding Peptides
- Substituent Effect on the cis-trans Photoisomerization of trans, trans, trans-1, 6-Diphenyl-1, 3, 5-hexatrienes
- Study on The Fragment-Fragment Interaction of The Immunoglobulin-binding protein, Protein G
- Interaction Between the Fragments of the Immuno-globulin-binding Protein, Protein G, and their Abilities to Regenerate the Native Like Structure
- Thermal Denaturation of Complementary Re-Associated Fragments of The Protein G B1 Domain
- Structural studies of Endothelin peptides : ET-2
- Structure Analyses of Novel Peptides of Endothelin Family (3) : Steric Structure Analysis of Endothelin-2 by NMR Spectroscopy
- Antimutagenicity testing of glucopyranosylvanillin and vanillin examined in a mouse peripheral blood micronucleus test system
- Highly-Sensitive Measurement of Dihydroxyphenols Using Carbon Felt Electrode Impregnated with Fructose Dehydrogenase-Containing Solution
- Construction of Carbon Paste Enzyme Electrodes for the Measurement of L-Malate with Polyethylene Glycol-Modified Malate Dehydrogenase
- Amperometric Maltose-Sensing Bi-Enzyme Electrodes : Comparison between α-Glucosidase/Pyranose Oxidase- and Glucoamylase/Glucose Oxidase-Based Electrodes
- Rapid Measurement of Cholinesterase Activity Using an Amperometric Enzyme Electrode Based on Lipid-Modified Choline Oxidase
- Amperometric Glucose Sensor using Glassy Carbon Electrode Anodized in 1,5-pentanediol as the Base Transducer (特集 バイオセンサ)
- Surface-Electrochemical Sensor for the Measurement of Anti-Cholinesterase Activity
- Dipole estimation of P300 generators with MEG(magnetoencephalogram)
- NMR METABOLIC PROFILING COMBINED WITH TWO-STEP PRINCIPAL COMPONENT ANALYSIS FOR TOXIN-INDUCED DIABETES MODEL RAT USING URINE