Functional organization of the yeast proteome by systematic analysis of protein complexes AC Gavin, M Bösche, R Krause, P Grandi, M Marzioch, A Bauer, J Schultz, ... Nature 415 (6868), 141-147, 2002 | 6132 | 2002 |
A physical and functional map of the human TNF-α/NF-κB signal transduction pathway T Bouwmeester, A Bauch, H Ruffner, PO Angrand, G Bergamini, ... Nature cell biology 6 (2), 97-105, 2004 | 1311 | 2004 |
An efficient tandem affinity purification procedure for interaction proteomics in mammalian cells T Bürckstümmer, KL Bennett, A Preradovic, G Schütze, O Hantschel, ... Nature methods 3 (12), 1013-1019, 2006 | 475 | 2006 |
The DEAD‐box helicase DDX3X is a critical component of the TANK‐binding kinase 1‐dependent innate immune response D Soulat, T Bürckstümmer, S Westermayer, A Goncalves, A Bauch, ... The EMBO journal 27 (15), 2135-2146, 2008 | 358 | 2008 |
openBIS: a flexible framework for managing and analyzing complex data in biology research A Bauch, I Adamczyk, P Buczek, FJ Elmer, K Enimanev, P Glyzewski, ... BMC bioinformatics 12, 1-19, 2011 | 160 | 2011 |
The vav exchange factor is an essential regulator in actin-dependent receptor translocation to the lymphocyte–antigen-presenting cell interface C Wülfing, A Bauch, GR Crabtree, MM Davis Proceedings of the National Academy of Sciences 97 (18), 10150-10155, 2000 | 140 | 2000 |
Plk1-dependent phosphorylation of optineurin provides a negative feedback mechanism for mitotic progression D Kachaner, J Filipe, E Laplantine, A Bauch, KL Bennett, G Superti-Furga, ... Molecular cell 45 (4), 553-566, 2012 | 93 | 2012 |
COVID19 Disease Map, a computational knowledge repository of virus–host interaction mechanisms M Ostaszewski, A Niarakis, A Mazein, I Kuperstein, R Phair, ... Molecular systems biology 17 (10), e10387, 2021 | 82 | 2021 |
Interaction of the CD5 cytoplasmic domain with the Ca2+ /calmodulin‐dependent kinase IIδ A Bauch, KS Campbell, M Reth European journal of immunology 28 (7), 2167-2177, 1998 | 58 | 1998 |
Cytoplasmic Listeria monocytogenes stimulates IFN-β synthesis without requiring the adapter protein MAVS D Soulat, A Bauch, S Stockinger, G Superti-Furga, T Decker FEBS letters 580 (9), 2341-2346, 2006 | 52 | 2006 |
Charting protein complexes, signaling pathways, and networks in the immune system A Bauch, G Superti‐Furga Immunological reviews 210 (1), 187-207, 2006 | 51 | 2006 |
AT cell controlled molecular pathway regulating the IgH locus: CD40‐mediated activation of the IgH 3′ enhancer. PA Grant, T Andersson, MF Neurath, V Arulampalam, A Bauch, R Müller, ... The EMBO Journal 15 (23), 6691-6700, 1996 | 38 | 1996 |
The cytoskeleton in lymphocyte signaling A Bauch, FW Alt, GR Crabtree, SB Snapper Academic Press 75, 89-114, 2000 | 26 | 2000 |
Implementing systems medicine within healthcare M Kirschner, A Bauch, A Agusti, S Hilke, S Merk, C Pison, J Roldan, ... Genome Medicine 7 (102), 2015 | 16 | 2015 |
Towards a comprehensive open source platform for management and analysis of High Content Screening data K Kozak, A Bauch, T Pylak, B Rinn European Pharmaceutical Review 4, 34-38, 2010 | 3 | 2010 |
A versatile and interoperable computational framework for the analysis and modeling of COVID-19 disease mechanisms A Niarakis, M Ostaszewski, A Mazein, I Kuperstein, M Kutmon, ... bioRxiv, 2022.12. 17.520865, 2022 | 1 | 2022 |
Informing epidemic (research) responses in a timely fashion by knowledge management–a Zika virus use case A Bauch, J Pellet, T Schleicher, X Yu, A Gelemanović, C Cristella, ... Biology open 9 (12), bio053934, 2020 | 1 | 2020 |
Systems Biology A Bauch, G Superti-Furga Rheumatology 6, 2014 | 1* | 2014 |
SY-20 The TBK-1 substrate DDX3X, a DEAD-box RNA helicase, provides innate immunity to listeria monocytogenes T Decker, D Soulat, T Bürckstümmer, S Westermayer, A Goncalves, ... Cytokine 3 (43), 304, 2008 | 1 | 2008 |
Drug-target identification in COVID-19 disease mechanisms using computational systems biology approaches A Niarakis, M Ostaszewski, A Mazein, I Kuperstein, M Kutmon, ... Frontiers in Immunology 14, 1282859, 2024 | | 2024 |