Georg Kustatscher
Georg Kustatscher
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The macro domain is an ADP‐ribose binding module
GI Karras, G Kustatscher, HR Buhecha, MD Allen, C Pugieux, F Sait, ...
The EMBO journal 24 (11), 1911-1920, 2005
A macrodomain-containing histone rearranges chromatin upon sensing PARP1 activation
G Timinszky, S Till, PO Hassa, M Hothorn, G Kustatscher, B Nijmeijer, ...
Nature structural & molecular biology 16 (9), 923, 2009
Splicing regulates NAD metabolite binding to histone macroH2A
G Kustatscher, M Hothorn, C Pugieux, K Scheffzek, AG Ladurner
Nature structural & molecular biology 12 (7), 624-625, 2005
Nascent chromatin capture proteomics determines chromatin dynamics during DNA replication and identifies unknown fork components
C Alabert, JC Bukowski-Wills, SB Lee, G Kustatscher, K Nakamura, ...
Nature cell biology 16 (3), 281-291, 2014
Histone macroH2A isoforms predict the risk of lung cancer recurrence
JC Sporn, G Kustatscher, T Hothorn, M Collado, M Serrano, T Muley, ...
Oncogene 28 (38), 3423-3428, 2009
Pervasive coexpression of spatially proximal genes is buffered at the protein level
G Kustatscher, P Grabowski, J Rappsilber
Molecular systems biology 13 (8), 937, 2017
Chromatin enrichment for proteomics
G Kustatscher, KLH Wills, C Furlan, J Rappsilber
Nature protocols 9 (9), 2090-2099, 2014
Proteomics of a fuzzy organelle: interphase chromatin
G Kustatscher, N HÚgarat, KLH Wills, C Furlan, JC Bukowski‐Wills, ...
The EMBO journal 33 (6), 648-664, 2014
Co-regulation map of the human proteome enables identification of protein functions
G Kustatscher, P Grabowski, TA Schrader, JB Passmore, M Schrader, ...
Nature biotechnology 37 (11), 1361-1371, 2019
Modular paths to ‘decoding’and ‘wiping’histone lysine methylation
G Kustatscher, AG Ladurner
Current opinion in chemical biology 11 (6), 628-635, 2007
Nano Random Forests to mine protein complexes and their relationships in quantitative proteomics data
LF Monta˝o-Gutierrez, S Ohta, G Kustatscher, WC Earnshaw, ...
Molecular biology of the cell 28 (5), 673-680, 2017
Multiclassifier combinatorial proteomics of organelle shadows at the example of mitochondria in chromatin data
G Kustatscher, P Grabowski, J Rappsilber
Proteomics 16 (3), 393-401, 2016
Epigenetic variability confounds transcriptome but not proteome profiling for coexpression-based gene function prediction
P Grabowski, G Kustatscher, J Rappsilber
Molecular & Cellular Proteomics 17 (11), 2082-2090, 2018
Chromatin dynamics during DNA replication and uncharacterized replication factors determined by nascent chromatin capture (NCC) proteomics
C Alabert, JC Bukowski-Wills, SB Lee, G Kustatscher, K Nakamura, ...
Nature cell biology 16 (3), 281, 2014
Compositional dynamics: Defining the fuzzy cell
G Kustatscher, J Rappsilber
Trends in cell biology 26 (11), 800-803, 2016
Proteome dynamics at broken replication forks reveal a distinct ATM-directed repair response suppressing DNA double-strand break ubiquitination
K Nakamura, G Kustatscher, C Alabert, M H÷dl, I Forne, M V÷lker-Albert, ...
Molecular cell 81 (5), 1084-1099. e6, 2021
treeClust improves protein co-regulation analysis due to robust selectivity for close linear relationships
G Kustatscher, P Grabowski, J Rappsilber
BioRxiv, 578971, 2019
The human proteome co-regulation map reveals functional relationships between proteins
G Kustatscher, P Grabowski, TA Schrader, JB Passmore, M Schrader, ...
BioRxiv, 582247, 2019
Interphase chromatin defined probabilistically using biological perturbation proteomics: SW06. S25–66
G Kustatscher, J Rappsilber
The Febs Journal 280 (1), 2013
MacroH2A-a Human Histone Variant with Affinity for NAD Metabolites
G Kustatscher
Verlag nicht ermittelbar, 2007
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Artikelen 1–20