Giulio Superti-Furga
Austrian Academy of Sciences
343 Papers
2.6K Citations
Giulio Superti-Furga is an academic researcher from Austrian Academy of Sciences. The author has contributed to research in topics: Biology & Proto-oncogene tyrosine-protein kinase Src. The author has an hindex of 89, co-authored 315 publications. Previous affiliations of Giulio Superti-Furga include European Bioinformatics Institute & University of Zurich.
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Papers
Nuclear tyrosine phosphorylation: the beginning of a map.
TL;DR: A systematic proteomics approach to nuclear tyrosine phosphorylation should help chart possible interaction pathways and find a very high number of compelling observations on individual molecules that suggest underlying networks linking individual events.
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Charting protein complexes, signaling pathways, and networks in the immune system
TL;DR: How recent advances in high‐throughput proteomic technologies, involving biochemical purification methods and mass spectrometry analysis, can be applied systematically to the characterization of protein complexes and the computation of molecular networks is described.
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Report on EU-USA workshop: how systems biology can advance cancer research (27 October 2008).
Ruedi Aebersold,Charles Auffray,Erin Baney,Emmanuel Barillot,Alvis Brazma,Catherine Brett,Søren Brunak,Atul J. Butte,Andrea Califano,Julio E. Celis,Tanja Čufer,James E. Ferrell,David J. Galas,Daniel Gallahan,Robert A. Gatenby,Albert Goldbeter,Nataša Hace,Adriano Henney,Lee Hood,Ravi Iyengar,Vicky Jackson,Ollie Kallioniemi,Ursula Klingmüller,Patrik Kolar,Walter Kolch,Christina Kyriakopoulou,Frank Laplace,Hans Lehrach,Frederick Marcus,Lynn M. Matrisian,Garry P. Nolan,Lucas Pelkmans,Anil Potti,Chris Sander,Marija Seljak,Dinah S. Singer,Peter K. Sorger,Hendrik G. Stunnenberg,Giulio Superti-Furga,Mathias Uhlén,Marc Vidal,John N. Weinstein,Dennis A. Wigle,Michael Williams,Olaf Wolkenhauer,Boris Zhivotovsky,Andrei Zinovyev,Blaž Zupan +47 more
TL;DR: The main conclusion is that systems biology approaches can indeed advance cancer research, having already proved successful in a very wide variety of cancer‐related areas, and are likely to prove superior to many current research strategies.
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Polymerase δ deficiency causes syndromic immunodeficiency with replicative stress
Cecilia Domínguez Conde,Özlem Yüce Petronczki,Safa Baris,Katharina L. Willmann,Enrico Girardi,Elisabeth Salzer,Stefan Weitzer,Rico Chandra Ardy,Ana Krolo,Ijspeert H,Ayca Kiykim,Elif Karakoc-Aydiner,Elisabeth Förster-Waldl,Leo Kager,Winfried F. Pickl,Giulio Superti-Furga,Javier Martinez,Joanna I. Loizou,Ahmet Ozen,van der Burg M,Kaan Boztug +20 more
TL;DR: The discovery of human polymerase δ deficiency is believed to identify the central role of this complex in the prevention of replication-related DNA lesions, with particular relevance to adaptive immunity.
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Developmental and tissue-specific regulation of a novel transcription factor of the sea urchin.
TL;DR: The close correlation between the presence of TSAP and the expression pattern of the late H2A-2 and H2B-2 genes suggests that this transcription factor is directly responsible for the developmental and tissue-specific regulation of these genes.
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