Nikolaus Rajewsky
Nikolaus Rajewsky
Professor, Systems Biology, Max Delbruck Center for Molecular Medicine, Berlin
Verified email at - Homepage
Cited by
Cited by
Circular RNAs are a large class of animal RNAs with regulatory potency
S Memczak, M Jens, A Elefsinioti, F Torti, J Krueger, A Rybak, L Maier, ...
Nature 495 (7441), 333-338, 2013
Combinatorial microRNA target predictions
A Krek, D Grün, MN Poy, R Wolf, L Rosenberg, EJ Epstein, ...
Nature genetics 37 (5), 495-500, 2005
Silencing of microRNAs in vivo with ‘antagomirs’
J Krützfeldt, N Rajewsky, R Braich, KG Rajeev, T Tuschl, M Manoharan, ...
nature 438 (7068), 685-689, 2005
Widespread changes in protein synthesis induced by microRNAs
M Selbach, B Schwanhäusser, N Thierfelder, Z Fang, R Khanin, ...
nature 455 (7209), 58-63, 2008
circRNA biogenesis competes with pre-mRNA splicing
R Ashwal-Fluss, M Meyer, NR Pamudurti, A Ivanov, O Bartok, M Hanan, ...
Molecular cell 56 (1), 55-66, 2014
miRDeep2 accurately identifies known and hundreds of novel microRNA genes in seven animal clades
MR Friedländer, SD Mackowiak, N Li, W Chen, N Rajewsky
Nucleic acids research 40 (1), 37-52, 2012
A pancreatic islet-specific microRNA regulates insulin secretion
MN Poy, L Eliasson, J Krutzfeldt, S Kuwajima, X Ma, PE Macdonald, ...
Nature 432 (7014), 226-230, 2004
Circular RNAs in the mammalian brain are highly abundant, conserved, and dynamically expressed
A Rybak-Wolf, C Stottmeister, P Glažar, M Jens, N Pino, S Giusti, ...
Molecular cell 58 (5), 870-885, 2015
Circ-ZNF609 is a circular RNA that can be translated and functions in myogenesis
I Legnini, G Di Timoteo, F Rossi, M Morlando, F Briganti, O Sthandier, ...
Molecular cell 66 (1), 22-37. e9, 2017
The evolution of gene regulation by transcription factors and microRNAs
K Chen, N Rajewsky
Nature Reviews Genetics 8 (2), 93-103, 2007
Regulation of the germinal center response by microRNA-155
TH Thai, DP Calado, S Casola, KM Ansel, C Xiao, Y Xue, A Murphy, ...
Science 316 (5824), 604-608, 2007
Translation of circRNAs
NR Pamudurti, O Bartok, M Jens, R Ashwal-Fluss, C Stottmeister, L Ruhe, ...
Molecular cell 66 (1), 9-21. e7, 2017
circBase: a database for circular RNAs
P Glažar, P Papavasileiou, N Rajewsky
Rna 20 (11), 1666-1670, 2014
microRNA target predictions in animals
N Rajewsky
Nature genetics 38 (Suppl 6), S8-S13, 2006
Discovering microRNAs from deep sequencing data using miRDeep
MR Friedländer, W Chen, C Adamidi, J Maaskola, R Einspanier, ...
Nature biotechnology 26 (4), 407-415, 2008
MiR-150 controls B cell differentiation by targeting the transcription factor c-Myb
C Xiao, DP Calado, G Galler, TH Thai, HC Patterson, J Wang, N Rajewsky, ...
Cell 131 (1), 146-159, 2007
Severe COVID-19 is marked by a dysregulated myeloid cell compartment
J Schulte-Schrepping, N Reusch, D Paclik, K Baßler, S Schlickeiser, ...
Cell 182 (6), 1419-1440. e23, 2020
PAGA: graph abstraction reconciles clustering with trajectory inference through a topology preserving map of single cells
FA Wolf, FK Hamey, M Plass, J Solana, JS Dahlin, B Göttgens, ...
Genome biology 20, 1-9, 2019
Integrative Analysis of the Caenorhabditis elegans Genome by the modENCODE Project
MB Gerstein, ZJ Lu, EL Van Nostrand, C Cheng, BI Arshinoff, T Liu, ...
Science 330 (6012), 1775-1787, 2010
Loss of a mammalian circular RNA locus causes miRNA deregulation and affects brain function
M Piwecka, P Glažar, LR Hernandez-Miranda, S Memczak, SA Wolf, ...
Science 357 (6357), eaam8526, 2017
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