about
Actin-binding protein ABP140 is a methyltransferase for 3-methylcytidine at position 32 of tRNAs in Saccharomyces cerevisiaeBiogenesis of glutaminyl-mt tRNAGln in human mitochondriaCharging of tRNAs using ribozymes and selection of cyclic peptides containing thioethers.Natural product-like macrocyclic N-methyl-peptide inhibitors against a ubiquitin ligase uncovered from a ribosome-expressed de novo library.Selection-based discovery of druglike macrocyclic peptides.Expanding the amino acid repertoire of ribosomal polypeptide synthesis via the artificial division of codon boxes.Destabilization of microRNAs in human cells by 3' deadenylation mediated by PARN and CUGBP1.Ribosomal synthesis of backbone macrocyclic peptides.Highly selective inhibition of histone demethylases by de novo macrocyclic peptides.Essential structural elements in tRNA(Pro) for EF-P-mediated alleviation of translation stalling.Specific residues at every third position of siRNA shape its efficient RNAi activityA macrocyclic peptide that serves as a cocrystallization ligand and inhibits the function of a MATE family transporter.tRid, an enabling method to isolate previously inaccessible small RNA fractions.Logical engineering of D-arm and T-stem of tRNA that enhances d-amino acid incorporation.Efficient siRNA Delivery by Lipid Nanoparticles Modified with a Nonstandard Macrocyclic Peptide for EpCAM-Targeting.tRNA engineering for manipulating genetic code.Amino acid substrates impose polyamine, eIF5A, or hypusine requirement for peptide synthesis.Artificial Division of Codon Boxes for Expansion of the Amino Acid Repertoire of Ribosomal Polypeptide Synthesis.A Fluorescent Imaging Probe Based on a Macrocyclic Scaffold That Binds to Cellular EpCAM.Thioether Macrocyclic Peptides Selected against TET1 Compact Catalytic Domain Inhibit TET1 Catalytic Activity.An orthogonal ribosome-tRNA pair via engineering of the peptidyl transferase center.A human microRNA precursor binding to folic acid discovered by small RNA transcriptomic SELEX.Human Mitochondrial mRNAs Are Stabilized with Polyadenylation Regulated by Mitochondria-specific Poly(A) Polymerase and Polynucleotide PhosphorylaseEngineering Translation Components Improve Incorporation of Exotic Amino AcidsSelective thioether macrocyclization of peptides having the N-terminal 2-chloroacetyl group and competing two or three cysteine residues in translationFlexizymes for genetic code reprogrammingConsecutive Elongation of D-Amino Acids in TranslationGenetic code expansion via integration of redundant amino acid assignment by finely tuning tRNA poolsRibosomal Synthesis of Backbone-Cyclic Peptides Compatible with In Vitro DisplayRibosomal Incorporation of Consecutive β-Amino AcidsIn vitro expression of genetically encoded non-standard peptides consisting of exotic amino acid building blocks
P50
Q24300371-3A7409FF-7F17-46BA-88F3-01A3CE8D71FBQ24322062-BF33B3F5-713F-4E3A-8D14-E2244A874F1DQ34077310-29EBF33D-7F6D-4E90-8BEA-724C2CAB9B4FQ34111146-325B5804-CCC7-48D9-AB56-1A64AD6C6CFAQ35104646-793674FC-5128-4AA5-BB9F-CA8172677A49Q35965595-DAA30592-3174-44AD-81B0-470952B4C34EQ36002431-76761567-B8D9-4054-BE4E-1C07E63EF201Q37902087-C997B1AE-0791-4F8C-ABAF-3EAF053F1E9FQ38404861-C332FA8B-43D7-4566-AF9E-FA528F9D614AQ42110955-CD6834D9-E697-4E9C-B4B0-B4768015F508Q42610466-7C1301C3-B356-4D22-83A6-4C4076C6CC31Q45789575-47A24BEC-BE4D-408D-9BC1-6A6651638764Q46550682-705F9394-2314-4E05-833C-CDA56EC035F6Q47137027-DA14D221-B6A0-4527-8687-71E2CDBC87A9Q47817777-26842BF8-6F14-4BC8-B52C-795F93190BFEQ47908152-876B67B1-FC61-4934-847C-B6E534803894Q49217051-8B08B187-5949-4CF6-957A-4079328FABC7Q50193170-08654BFF-733A-4C0D-B2BC-ECA8141DCAE4Q51651534-96479AFD-99FE-40EA-9CFF-5954864F76B9Q52718797-FBFC4EDC-B83C-49FB-A6D4-B812E3441D52Q53531533-F561CED2-A897-4905-A69A-9D9C2518970CQ53761740-146DCE33-3DE5-443E-BE22-0F3471D53425Q57910058-494EFBAC-D7CE-4B2C-92D3-CBFD8A7BE455Q64273534-2B00B72E-0913-45BD-ADAF-7DA4A9FEABF4Q83654331-10C9FD0E-E2F9-42A5-914C-FA31EA9838EDQ84261526-3685AF08-35E1-40A9-ABE4-DE12D45C4ACAQ89426138-9DC6D054-7DF9-46B8-B713-B491AE73F11DQ90720428-EE3EAE8B-6E2A-469A-8462-83970ECE4B71Q91070166-8DD17547-8116-48FB-BC1E-6BEDE5793EA1Q91478762-B32E81F9-CB75-401C-8FA6-198E058CFA90Q93213755-703A8FF1-075B-4C5D-87F7-BCDD2CADC86A
P50
description
onderzoeker
@nl
researcher, ORCID id # 0000-0001-6550-6203
@en
name
Takayuki Katoh
@ast
Takayuki Katoh
@en
Takayuki Katoh
@es
Takayuki Katoh
@nl
type
label
Takayuki Katoh
@ast
Takayuki Katoh
@en
Takayuki Katoh
@es
Takayuki Katoh
@nl
prefLabel
Takayuki Katoh
@ast
Takayuki Katoh
@en
Takayuki Katoh
@es
Takayuki Katoh
@nl
P106
P31
P496
0000-0001-6550-6203