about
Bioengineered silk protein-based gene delivery systemsMechanisms of enzymatic degradation of amyloid Beta microfibrils generating nanofilaments and nanospheres related to cytotoxicity.Surface-patterned electrode bioreactor for electrical stimulationGene delivery mediated by recombinant silk proteins containing cationic and cell binding motifs.Reinforcing silk scaffolds with silk particles.Active intermediates of polyhydroxyalkanoate synthase from Aeromonas caviae in polymerization reaction.Spider silk-based gene carriers for tumor cell-specific delivery.Biopolymer-based nanoparticles for drug/gene delivery and tissue engineering.Increased bioplastic production with an RNA polymerase sigma factor SigE during nitrogen starvation in Synechocystis sp. PCC 6803.Phasin proteins activate Aeromonas caviae polyhydroxyalkanoate (PHA) synthase but not Ralstonia eutropha PHA synthase.Silk-based delivery systems of bioactive molecules.Recent advances in chemoenzymatic peptide syntheses.Silk-pectin hydrogel with superior mechanical properties, biodegradability, and biocompatibility.Expression, cross-linking, and characterization of recombinant chitin binding resilin.AFM study of morphology and mechanical properties of a chimeric spider silk and bone sialoprotein protein for bone regeneration.Quantifying osteogenic cell degradation of silk biomaterials.Mechanism of enzymatic degradation of beta-sheet crystals.State of water, molecular structure, and cytotoxicity of silk hydrogels.Monitoring and kinetic analysis of the molecular interactions by which a repressor protein, PhaR, binds to target DNAs and poly[(R)-3-hydroxybutyrate]Characterization of site-specific mutations in a short-chain-length/medium-chain-length polyhydroxyalkanoate synthase: in vivo and in vitro studies of enzymatic activity and substrate specificity.Silk-based gene carriers with cell membrane destabilizing peptides.Biocompatible and biodegradable dual-drug release system based on silk hydrogel containing silk nanoparticles.Proteinase K-catalyzed synthesis of linear and star oligo(L-phenylalanine) conjugates.Local gene silencing in plants via synthetic dsRNA and carrier peptide.In-situ atomic force microscopy observation of enzymatic degradation in poly(hydroxyalkanoic acid) thin films: normal and constrained conditions.Enzymatic degradation processes of lamellar crystals in thin films for poly[(R)-3-hydroxybutyric acid] and its copolymers revealed by real-time atomic force microscopy.Biosynthesis of polyhydroxyalkanoate (PHA) copolymer from fructose using wild-type and laboratory-evolved PHA synthases.Enzymatic degradation of monolayer for poly(lactide) revealed by real-time atomic force microscopy: effects of stereochemical structure, molecular weight, and molecular branches on hydrolysis rates.Enzymatic degradation processes of poly[(R)-3-hydroxybutyric acid] and poly[(R)-3-hydroxybutyric acid-co-(R)-3-hydroxyvaleric acid] single crystals revealed by atomic force microscopy: effects of molecular weight and second-monomer composition on erAdsorption of biopolyester depolymerase on silicon wafer and poly[(R)-3-hydroxybutyric acid] single crystal revealed by real-time AFM.Pathway-level acceleration of glycogen catabolism by a response regulator in the cyanobacterium Synechocystis species PCC 6803.Liquid Crystalline Granules Align in a Hierarchical Structure To Produce Spider Dragline Microfibrils.Silk Resin with Hydrated Dual Chemical-Physical Cross-Links Achieves High Strength and Toughness.Tensile Reinforcement of Silk Films by the Addition of Telechelic-Type Polyalanine.Synthesis of adhesive peptides similar to those found in blue mussel (Mytilus edulis) using papain and tyrosinase.Branched poly(lactide) synthesized by enzymatic polymerization: effects of molecular branches and stereochemistry on enzymatic degradation and alkaline hydrolysis.Stimulus-Responsive Peptide for Effective Delivery and Release of DNA in Plants.Spider dragline silk composite films doped with linear and telechelic polyalanine: Effect of polyalanine on the structure and mechanical properties.Synthesis of homopolypeptides by aminolysis mediated by proteases encapsulated in silica nanospheres.Combination of Amorphous Silk Fiber Spinning and Postspinning Crystallization for Tough Regenerated Silk Fibers.
P50
Q33478275-44721272-4BDB-4881-AE9B-010F9739D5B3Q33536103-48BE9708-4F8B-44FA-AA5D-4535C5675144Q33539819-F997F0E0-3ACF-4107-B938-2EC679024F99Q33574252-F379E83D-56A1-4D96-9D8F-0062AF726DE7Q33957107-35918159-952D-425E-B1E3-74B5776EA6DBQ34436094-A1434F11-FD88-4E26-86AA-AAD49A4A3985Q35169072-04847B62-EFD8-422D-B679-5A2EE8EAEB78Q36590092-4A6706F1-BE1C-4C4E-8D68-70415528337EQ37383782-B7765E58-3D76-4E22-9FF9-CA3314EFA344Q37713093-B936F343-3D99-49D7-9A73-8674BA9325D7Q37714025-E5C5FD11-55C7-4D38-A280-BB18218D8C9BQ38246304-4D377D04-0C5E-4146-995D-A657C02B8381Q39017184-B2360A45-2ABF-4C52-807B-20A1867DD485Q39280744-BDE1B4CA-1C38-4AED-9AE0-975EA3EF559AQ41786588-09F8CB3F-3E72-4828-ABF2-3A979F482252Q41856832-6CE71C84-936D-4D12-8FBC-0589A508E9BEQ41971879-6EB3268E-266D-4420-AF7A-485415B5661CQ42017470-4558F82B-4006-45A0-90AF-5E48B8F7678FQ42073776-C0E12431-3443-438C-ACBF-27F49C837985Q42119394-D1F18BB7-1140-4D57-801F-FD0AE6A2794EQ42595034-2A09F694-0FF8-4FB0-922D-8D5AD9F589ACQ43410181-9D59809D-856C-4017-9494-7BF0C9BFB314Q43996720-3A873A77-27F8-4F57-9409-632E48A6DCEFQ44792579-B87AD246-8990-4674-BC0E-2D7E32F583BCQ45093153-7D996D88-AC73-4D7A-B0A2-D2C202E743AEQ45141662-B364B139-6AE1-4113-A9B6-A9D0365FCCA8Q45281736-AB772B80-0E2B-452C-83C2-21A99E8C9C25Q46476464-BC55E300-EBD3-48B8-B100-8BD62EFC727FQ46590097-6045F796-15BC-4535-8E58-87CFE3DE4C37Q46865734-BFC96DAF-2C2A-49A0-B835-79150360FFADQ46932611-5E6B0434-7FB7-4CA9-8DCD-12886A0EBDF5Q48045962-94C9B0F8-A432-4C9A-9246-32F1BB0AE336Q48225768-4546F0E1-877B-48F9-A4F6-57E103BB7A69Q48317329-682AC264-6524-49C4-A4DF-565CE24C2CD3Q50426333-522FA86B-EA20-4304-B125-01F4CEB609A6Q50926277-EEFBC00C-6CDC-4A4F-A6BB-E2D3A10ECE2BQ52677189-5B102EE6-5BBC-43D5-83BF-3414F6633FEFQ53446492-26DD3930-7E11-4F37-B681-67C1961B8D62Q53465799-252581BB-9BE5-4AA3-908C-E657EFC016BEQ54195841-75527709-C11A-40E1-BF74-386DC3F4887D
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Keiji Numata
@ast
Keiji Numata
@en
Keiji Numata
@es
Keiji Numata
@sl
type
label
Keiji Numata
@ast
Keiji Numata
@en
Keiji Numata
@es
Keiji Numata
@sl
prefLabel
Keiji Numata
@ast
Keiji Numata
@en
Keiji Numata
@es
Keiji Numata
@sl
P1053
H-9751-2012
P106
P21
P31
P3829
P496
0000-0003-2199-7420
P569
2000-01-01T00:00:00Z