Sebastian A Leidel
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Functional genomic analysis of cell division in C. elegans using RNAi of genes on chromosome III
P Gönczy, C Echeverri, K Oegema, A Coulson, SJM Jones, RR Copley, ...
Nature 408 (6810), 331-336, 2000
SAS-6 defines a protein family required for centrosome duplication in C. elegans and in human cells
S Leidel, M Delattre, L Cerutti, K Baumer, P Gönczy
Nature cell biology 7 (2), 115-125, 2005
Optimization of codon translation rates via tRNA modifications maintains proteome integrity
DD Nedialkova, SA Leidel
Cell 161 (7), 1606-1618, 2015
Regulated HsSAS-6 levels ensure formation of a single procentriole per centriole during the centrosome duplication cycle
P Strnad, S Leidel, T Vinogradova, U Euteneuer, A Khodjakov, P Gönczy
Developmental cell 13 (2), 203-213, 2007
Ubiquitin-related modifier Urm1 acts as a sulphur carrier in thiolation of eukaryotic transfer RNA
S Leidel, PGA Pedrioli, T Bucher, R Brost, M Costanzo, A Schmidt, ...
Nature 458 (7235), 228-232, 2009
SAS-4 Is Essential for Centrosome Duplication in C. elegans and Is Recruited to Daughter Centrioles Once per Cell Cycle
S Leidel, P Gönczy
Developmental cell 4 (3), 431-439, 2003
Centriolar SAS-5 is required for centrosome duplication in C. elegans
M Delattre, S Leidel, K Wani, K Baumer, J Bamat, H Schnabel, ...
Nature cell biology 6 (7), 656-664, 2004
Synergism with the coactivator OBF-1 (OCA-B, BOB-1) is mediated by a specific POU dimer configuration
A Tomilin, A Reményi, K Lins, H Bak, S Leidel, G Vriend, M Wilmanns, ...
Cell 103 (6), 853-864, 2000
A dynamic unfolded protein response contributes to the control of cortical neurogenesis
S Laguesse, C Creppe, DD Nedialkova, PP Prévot, L Borgs, S Huysseune, ...
Developmental cell 35 (5), 553-567, 2015
Codon-specific translation reprogramming promotes resistance to targeted therapy
F Rapino, S Delaunay, F Rambow, Z Zhou, L Tharun, P De Tullio, O Sin, ...
Nature 558 (7711), 605, 2018
miR-31 functions as a negative regulator of lymphatic vascular lineage-specific differentiation in vitro and vascular development in vivo
DML Pedrioli, T Karpanen, V Dabouras, G Jurisic, G van de Hoek, ...
Molecular and cellular biology 30 (14), 3620-3634, 2010
Mutations in KEOPS-complex genes cause nephrotic syndrome with primary microcephaly
DA Braun, J Rao, G Mollet, D Schapiro, MC Daugeron, W Tan, ...
Nature genetics 49 (10), 1529, 2017
Modification of tRNALysUUU by elongator is essential for efficient translation of stress mRNAs
J Fernández-Vázquez, I Vargas-Pérez, M Sansó, K Buhne, M Carmona, ...
PLoS genetics 9 (7), e1003647, 2013
Elp3 links tRNA modification to IRES-dependent translation of LEF1 to sustain metastasis in breast cancer
S Delaunay, F Rapino, L Tharun, Z Zhou, L Heukamp, M Termathe, ...
Journal of Experimental Medicine 213 (11), 2503-2523, 2016
Stepwise clearance of repressive roadblocks drives cardiac induction in human ESCs
J Rao, MJ Pfeiffer, S Frank, K Adachi, I Piccini, R Quaranta, ...
Cell stem cell 18 (3), 341-353, 2016
Urm1 at the crossroad of modifications
PGA Pedrioli, S Leidel, K Hofmann
EMBO reports 9 (12), 1196-1202, 2008
Centrosome duplication and nematodes: recent insights from an old relationship
S Leidel, P Gönczy
Developmental cell 9 (3), 317-325, 2005
Wobble uridine modifications–a reason to live, a reason to die?!
R Schaffrath, SA Leidel
RNA biology 14 (9), 1209-1222, 2017
Modify or die?-RNA modification defects in metazoans
LP Sarin, SA Leidel
RNA biology 11 (12), 1555-1567, 2014
An evolutionary approach uncovers a diverse response of tRNA 2-thiolation to elevated temperatures in yeast
F Alings, LP Sarin, C Fufezan, HCA Drexler, SA Leidel
RNA 21 (2), 202-212, 2015
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