about
SAS-6 defines a protein family required for centrosome duplication in C. elegans and in human cellsmiR-31 functions as a negative regulator of lymphatic vascular lineage-specific differentiation in vitro and vascular development in vivoRegulated HsSAS-6 levels ensure formation of a single procentriole per centriole during the centrosome duplication cycleRepulsive cues combined with physical barriers and cell-cell adhesion determine progenitor cell positioning during organogenesisUbiquitin-related modifier Urm1 acts as a sulphur carrier in thiolation of eukaryotic transfer RNA.Modify or die?--RNA modification defects in metazoansUrm1 at the crossroad of modifications. 'Protein Modifications: Beyond the Usual Suspects' Review SeriesThe novel lysine specific methyltransferase METTL21B affects mRNA translation through inducible and dynamic methylation of Lys-165 in human eukaryotic elongation factor 1 alpha (eEF1A)Functional genomic analysis of cell division in C. elegans using RNAi of genes on chromosome IIIModification of tRNA(Lys) UUU by elongator is essential for efficient translation of stress mRNAs.Optimization of Codon Translation Rates via tRNA Modifications Maintains Proteome Integrity.Dual randomization of oligonucleotides to reduce the bias in ribosome-profiling libraries.Centrosome duplication and nematodes: recent insights from an old relationship.Elp3 links tRNA modification to IRES-dependent translation of LEF1 to sustain metastasis in breast cancerpyQms enables universal and accurate quantification of mass spectrometry data.Stepwise Clearance of Repressive Roadblocks Drives Cardiac Induction in Human ESCs.An evolutionary approach uncovers a diverse response of tRNA 2-thiolation to elevated temperatures in yeast.Wobble uridine modifications-a reason to live, a reason to die?!Glutaredoxin GRXS17 Associates with the Cytosolic Iron-Sulfur Cluster Assembly Pathway.Mutations in KEOPS-complex genes cause nephrotic syndrome with primary microcephaly.A novel translational control mechanism involving RNA structures within coding sequences.Structures to the people!The Gcn4 transcription factor reduces protein synthesis capacity and extends yeast lifespan.A Dynamic Unfolded Protein Response Contributes to the Control of Cortical Neurogenesis.Centriolar SAS-5 is required for centrosome duplication in C. elegans.pymzML v2.0: introducing a highly compressed and seekable gzip format.Methylation of human eukaryotic elongation factor alpha (eEF1A) by a member of a novel protein lysine methyltransferase family modulates mRNA translation.SAS-4 is essential for centrosome duplication in C elegans and is recruited to daughter centrioles once per cell cycle.Interaction between the C. elegans centriolar protein SAS-5 and microtubules facilitates organelle assembly.The Uba4 domain interplay is mediated via a thioester that is critical for tRNA thiolation through Urm1 thiocarboxylation.Differential Requirement for Translation Initiation Factor Pathways during Ecdysone-Dependent Neuronal Remodeling in DrosophilaDiversity of foliar endophytic ascomycetes in the endemic Corsican pine forestsEnzymatic or In Vivo Installation of Propargyl Groups in Combination with Click Chemistry for the Enrichment and Detection of Methyltransferase Target Sites in RNAEnzymatischer oder In-vivo-Einbau von Propargylgruppen in Kombination mit Klick-Chemie zur Anreicherung und Detektion von Methyltransferase-Zielsequenzen in RNAInnentitelbild: Enzymatischer oder In-vivo-Einbau von Propargylgruppen in Kombination mit Klick-Chemie zur Anreicherung und Detektion von Methyltransferase-Zielsequenzen in RNA (Angew. Chem. 21/2018)Inside Cover: Enzymatic or In Vivo Installation of Propargyl Groups in Combination with Click Chemistry for the Enrichment and Detection of Methyltransferase Target Sites in RNA (Angew. Chem. Int. Ed. 21/2018)Dynamic Regulation of tRNA Modifications in CancerAttomol-level quantification of chemically modified ribonucleosides enabled by capillary porous graphitic carbon columns in nano LC-MSStepwise Clearance of Repressive Roadblocks Drives Cardiac Induction in Human ESCsThe dual methyltransferase METTL13 targets N terminus and Lys55 of eEF1A and modulates codon-specific translation rates
P50
Q24338767-E5B2221B-F66D-4C98-9E96-DC541D6E8177Q24619682-ED38A65F-9D5A-497B-B4A0-F7A6A6E9A4FAQ24647101-B5689047-4A35-4D41-A1D6-37D86137CFB4Q27320011-48CAAE0D-B536-4027-9B43-18C5E81561BFQ27932043-6F9341A6-93BD-4CF3-9C46-28C8C0D70384Q28087742-F51E8392-D861-4C92-BC20-675EE1BECA6EQ28756158-F38C3988-FAE8-4F2C-B9FB-8B320E1C70BFQ29144900-D289F7E5-0B7A-4330-8166-BEBBE6FB190FQ29618444-69A8ACDC-E2F1-4E6E-807E-0FFC9E2A74D0Q34846015-BA4811D6-F751-4A7C-97FA-B43BA630B6AAQ35855945-B0131F78-5CC8-412E-94E9-CCE52F02AF57Q36083782-F90D41A4-448A-445C-AE53-C7BDE6AED4BFQ36247632-E61EA32F-A290-4C9C-B83B-302D3EA06C30Q37346677-D515E99C-EDB2-4FF2-884C-FB7DE60D027AQ38669191-1A2F3D63-3E7D-46AF-A1B1-DF68A34E3B83Q38805334-33C2A2EF-D7F8-4302-BB7B-48D96878CF9DQ39076648-19384076-6AC4-48FC-9384-E7DAAA10879AQ39170989-3CC6C8B2-D439-4512-9C55-9B21D2B972FAQ39509809-4737C9E8-3A75-4FAC-A362-8C9EB0FFDD42Q40094779-8C9F9B6A-3C29-49B4-BE34-54C794D6DFDCQ40467508-9799715F-59FE-4D38-9B5B-EE9C052FE059Q41230028-BED5E220-DF41-4F71-8F33-942FDC086B1EQ41630273-DC8DB94B-4A8A-445C-B63C-349C6884EB35Q41926959-63570492-D3D3-4CA8-975E-2B418D29AB75Q47069336-A3AD5B37-7729-4B4E-B7AC-81A0BB6CAF21Q47552608-90C3CBAC-42E0-48E1-98AC-E943483EC4C8Q47840135-35E9A505-41A3-4DF6-ABE4-13422A0A685EQ48255695-EBA9DFD7-BC90-4530-98C1-8B9B3274CF0CQ49788386-19DAFE3B-E819-4711-A63C-5D1404A928B6Q55314470-13D33154-1C99-4BF5-AE4D-724AA5E26DC0Q57753272-61651458-D151-49C6-8CC2-FDFC2B5BD768Q57980724-756EDA21-ECAB-4C46-B897-6A7971435108Q57980725-D05A656E-FB6A-4739-BA75-C769C12FD2E4Q57980726-B2DD832A-2F8C-411C-AEEA-D544BFCC7E71Q57980727-A496B0F0-7885-4024-B86E-EA6D63B35444Q57980728-BE065B51-7188-4A68-A121-5DEA4F9675F0Q57980730-42D37249-BED4-41BD-866A-EF158C5CBADAQ57980732-5AACD920-8CF6-436B-A582-0918F21979F8Q57980736-630338F9-95C9-423D-BEED-5C2869744B18Q58708307-843B4FC4-7F8F-4C5A-8B20-6EF2E71224B0
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Sebastian A. Leidel
@ast
Sebastian A. Leidel
@en
Sebastian A. Leidel
@es
Sebastian A. Leidel
@nl
Sebastian A. Leidel
@sl
type
label
Sebastian A. Leidel
@ast
Sebastian A. Leidel
@en
Sebastian A. Leidel
@es
Sebastian A. Leidel
@nl
Sebastian A. Leidel
@sl
altLabel
Leidel SA
@en
Sebastian Leidel
@en
prefLabel
Sebastian A. Leidel
@ast
Sebastian A. Leidel
@en
Sebastian A. Leidel
@es
Sebastian A. Leidel
@nl
Sebastian A. Leidel
@sl
P106
P1153
6602480598
P21
P2798
P31
P4012
P496
0000-0002-0523-6325