Secretory meningiomas are defined by combined KLF4 K409Q and TRAF7 mutations.

Meningiomas are among the most frequent intracranial tumors. The secretory variant of meningioma is characterized by glandular differentiation, formation of intracellular lumina and pseudopsammoma bodies, expression of a distinct pattern of cytokeratins and clinically by pronounced perifocal brain edema. Here we describe whole-exome sequencing analysis of DNA from 16 secretory meningiomas and corresponding constitutional tissues.

Promoting drug discovery by collaborative innovation: a novel risk- and reward-sharing partnership between the German Cancer Research Center and Bayer HealthCare.

As a result of the increasing cost pressure on healthcare systems, the depletion of easily addressable and well-validated target groups in drug development and the requirement of public research to contribute to innovative treatment paradigms, broad partnerships between industry and academia are becoming increasingly important. However, owing to different goals and drivers, hurdles have to be overcome to exploit the full potential of such alliances. The factors that need to be taken into account during set-up and management of such alliances and the result and impact all of this has on drug discovery have not been analyzed in a systematic manner until now.

The full-ORF clone resource of the German cDNA Consortium.

Background: With the completion of the human genome sequence the functional analysis and characterization of the encoded proteins has become the next urging challenge in the post-genome era. The lack of comprehensive ORFeome resources has thus far hampered systematic applications by protein gain-of-function analysis. Gene and ORF coverage with full-length ORF clones thus needs to be extended.

Differential gene expression in melanocytic nevi with the V600E BRAF mutation.

We studied gene expression in 18 melanocytic nevi with and four nevi without the V600E mutation in the BRAF gene using HG-U133A 2.0 microarray with 22,277 transcripts. Data analysis revealed 92 genes up-regulated and 105 genes down-regulated in nevi with the mutation compared to nevi without mutation.

An anthropoid-specific segmental duplication on human chromosome 1q22.

Segmental duplications (SDs) play a key role in genome evolution by providing material for gene diversification and creation of variant or novel functions. They also mediate recombinations, resulting in microdeletions, which have occasionally been associated with human genetic diseases. Here, we present a detailed analysis of a large genomic region (about 240 kb), located on human chromosome 1q22, that contains a tandem SD, SD1q22.

The systematic functional characterisation of Xq28 genes prioritises candidate disease genes.

Background: Well known for its gene density and the large number of mapped diseases, the human sub-chromosomal region Xq28 has long been a focus of genome research. Over 40 of approximately 300 X-linked diseases map to this region, and systematic mapping, transcript identification, and mutation analysis has led to the identification of causative genes for 26 of these diseases, leaving another 17 diseases mapped to Xq28, where the causative gene is still unknown. To expedite disease gene identification, we have initiated the functional characterisation of all known Xq28 genes.

Functional profiling: from microarrays via cell-based assays to novel tumor relevant modulators of the cell cycle.

Cancer transcription microarray studies commonly deliver long lists of "candidate" genes that are putatively associated with the respective disease. For many of these genes, no functional information, even less their relevance in pathologic conditions, is established as they were identified in large-scale genomics approaches. Strategies and tools are thus needed to distinguish genes and proteins with mere tumor association from those causally related to cancer.

From ORFeome to biology: a functional genomics pipeline.

As several model genomes have been sequenced, the elucidation of protein function is the next challenge toward the understanding of biological processes in health and disease. We have generated a human ORFeome resource and established a functional genomics and proteomics analysis pipeline to address the major topics in the post-genome-sequencing era: the identification of human genes and splice forms, and the determination of protein localization, activity, and interaction. Combined with the understanding of when and where gene products are expressed in normal and diseased conditions, we create information that is essential for understanding the interplay of genes and proteins in the complex biological network.

On the origin of the chordate central nervous system: expression of onecut in the sea urchin embryo.

We identified a transcription factor of the onecut class in the sea urchin Strongylocentrotus purpuratus that represents an ortholog of the mammalian gene HNF6, the founding member of the onecut class of proteins. The isolated sea urchin gene, named SpOnecut, encodes a protein of 483 amino acids with one cut domain and a homeodomain. Phylogenetic analysis clearly places the sea urchin gene into this family, most closely related to the ascidian onecut gene HNF-6.

SMART amplification combined with cDNA size fractionation in order to obtain large full-length clones.

Background: cDNA libraries are widely used to identify genes and splice variants, and as a physical resource for full-length clones. Conventionally-generated cDNA libraries contain a high percentage of 5'-truncated clones. Current library construction methods that enrich for full-length mRNA are laborious, and involve several enzymatic steps performed on mRNA, which renders them sensitive to RNA degradation.

CDNAs for functional genomics and proteomics: the German Consortium.

To functionally characterize numerous novel proteins encoded by cDNAs sequenced by the German Consortium, 800 were tagged with green fluorescent protein. The subcellular localizations of the fusion proteins were examined in living cells, enabling their classification in subcellular groups. Their activity in cell growth, cell death, and protein transport was screened in high throughput using robotic liquid handling and reading stations.

Identifying transcribed sequences, and beyond.

A report on the 12th International Workshop 'Beyond the Identification of Transcribed Sequences (BITS): Functional, Expression and Evolutionary Analysis', Washington DC, USA, 25-28 October 2002.