about
AtaA, a new member of the trimeric autotransporter adhesins from Acinetobacter sp. Tol 5 mediating high adhesiveness to various abiotic surfacesA new simple method for introducing an unmarked mutation into a large gene of non-competent Gram-negative bacteria by FLP/FRT recombinationApplication of the adhesive bacterionanofiber AtaA to a novel microbial immobilization method for the production of indigo as a model chemical.Specific Interaction between Redox Phospholipid Polymers and Plastoquinone in Photosynthetic Electron Transport Chain.Discovery of a novel periplasmic protein that forms a complex with a trimeric autotransporter adhesin and peptidoglycan.Real-time monitoring of intracellular redox changes in Methylococcus capsulatus (Bath) for efficient bioconversion of methane to methanol.Effectiveness of direct immobilization of bacterial cells onto material surfaces using the bacterionanofiber protein AtaA.Evaluation of adhesiveness of Acinetobacter sp. Tol 5 to abiotic surfaces.Extracellular Electron Transfer via Outer Membrane Cytochromes in a Methanotrophic Bacterium Methylococcus capsulatus (Bath)Extracellular electron transfer of a highly adhesive and metabolically versatile bacteriumMolecular design of cytocompatible amphiphilic redox-active polymers for efficient extracellular electron transferHeterologous expression of geraniol dehydrogenase for identifying the metabolic pathways involved in the biotransformation of citral by Acinetobacter sp. Tol 5Native display of a huge homotrimeric protein fiber on the cell surface after precise domain deletionBottom-up Creation of an Artificial Cell Covered with the Adhesive Bacterionanofiber Protein AtaACell-Membrane Permeable Redox Phospholipid Polymers Induce Apoptosis in MDA-MB-231 Human Breast Cancer CellsEfficient Counterselection for Methylococcus capsulatus (Bath) by Using a Mutated pheS GeneThe endogenous redox rhythm is controlled by a central circadian oscillator in cyanobacterium Synechococcus elongatus PCC7942
P50
Q34479100-4A5504D1-A3A5-4251-BEB4-0AD33329D722Q36846907-CCE9D854-E7C3-429A-8F16-34737C546368Q45370802-6BF813EE-F828-4438-86FA-0052D7F8E97DQ46418230-C71AE2D1-15BD-48FB-9EC7-F0D27DC77B43Q46564324-1A2762F4-6799-4E0C-9C43-D41CFA8FCA0DQ50603066-C41D687F-8729-4413-9A07-F667CB0412A8Q53271237-F019D158-5B1E-42BE-A6BB-C871ACF1DA8DQ54342600-18C7C10C-203D-4B6F-B4B9-C199A0C07199Q59800453-4BEE5560-46F4-42E0-9ADE-9F7644A3F52DQ87023268-172C981E-BCFF-49D6-BDFF-86C9A3B73746Q88745784-FBBF99A2-E705-48B8-93A3-4117D0B699B6Q90872017-7FA8BD6C-3E7A-4157-A72B-717D4E548B41Q90948833-C25652D7-0665-475D-8336-74078248ADBDQ91163412-1D2BC6AF-9896-45AC-92BF-2BB075EDD230Q91225554-B0EE7260-7E2E-463B-A940-1ED558BED581Q91858535-BFCDF15E-2BDD-4BD6-8CA0-4741828A7366Q93112460-0344EB48-9C21-4026-ADDE-2CEE22686F2E
P50
description
investigador
@es
researcher
@en
wetenschapper
@nl
name
Masahito Ishikawa
@en
Masahito Ishikawa
@nl
type
label
Masahito Ishikawa
@en
Masahito Ishikawa
@nl
prefLabel
Masahito Ishikawa
@en
Masahito Ishikawa
@nl
P31
P496
0000-0001-6390-1031