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  • LOCALIZATION  (11)
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  • 1
    Keywords: PROTEOMICS ; genomic ; methods ; LOCALIZATION
    Type of Publication: Book chapter
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  • 2
    Keywords: EXPRESSION ; Germany ; human ; MODEL ; THERAPY ; DIAGNOSIS ; INFORMATION ; NETWORK ; TOOL ; DISEASE ; GENE ; GENES ; GENOME ; PROTEIN ; PROTEINS ; COMPLEX ; COMPLEXES ; BIOLOGY ; SEQUENCE ; FORM ; IDENTIFICATION ; HEALTH ; DATABASE ; PRODUCT ; bioinformatics ; LOCALIZATION ; WEB ; HUMAN GENES ; FUNCTIONAL GENOMICS ; PROTEOMICS ; PRODUCTS ; databases ; ANNOTATION ; RESOURCE ; PROTEIN-ANALYSIS ; FULL-LENGTH HUMAN ; HUMAN CDNAS
    Abstract: 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. We have implemented bioinformatics tools and databases that are suitable to store, analyze, and integrate the different types of data from high-throughput experiments and to include further annotation that is based on external information. All information is presented in a Web database (http://www.dkfz.de/LIFEdb). It is exploited for the identification of disease-relevant genes and proteins for diagnosis and therapy
    Type of Publication: Journal article published
    PubMed ID: 15489336
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  • 3
    Keywords: brain ; CELLS ; EXPRESSION ; Germany ; GENE ; GENES ; GENOME ; PROTEIN ; PROTEINS ; transcription ; TISSUE ; MECHANISM ; mechanisms ; PROMOTER ; NUMBER ; DATABASE ; LOCALIZATION ; B-CELLS ; INVOLVEMENT ; TESTIS ; representational difference analysis ; RE ; VARIANT ; genomics ; regulation ; TRANSLATION ; GENE-REGULATION ; gene regulation ; NUCLEAR-PORE COMPLEX ; OVERLAPPING READING FRAMES ; SIGNAL PEPTIDES
    Abstract: Background: Given the complexity of higher organisms, the number of genes encoded by their genomes is surprisingly small. Tissue specific regulation of expression and splicing are major factors enhancing the number of the encoded products. Commonly these mechanisms are intragenic and affect only one gene. Results: Here we provide evidence that the IL4I1 gene is specifically transcribed from the apparent promoter of the upstream NUP62 gene, and that the first two exons of NUP62 are also contained in the novel IL4I1_2 variant. While expression of IL4I1 driven from its previously described promoter is found mostly in B cells, the expression driven by the NUP62 promoter is restricted to cells in testis (Sertoli cells) and in the brain (e.g., Purkinje cells). Since NUP62 is itself ubiquitously expressed, the IL4I1_2 variant likely derives from cell type specific alternative pre-mRNA processing. Conclusion: Comparative genomics suggest that the promoter upstream of the NUP62 gene originally belonged to the IL4I1 gene and was later acquired by NUP62 via insertion of a retroposon. Since both genes are apparently essential, the promoter had to serve two genes afterwards. Expression of the IL4I1 gene from the "NUP62" promoter and the tissue specific involvement of the pre-mRNA processing machinery to regulate expression of two unrelated proteins indicate a novel mechanism of gene regulation
    Type of Publication: Journal article published
    PubMed ID: 16029492
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  • 4
    Keywords: PEPTIDE ; EXPRESSION ; Germany ; ALGORITHM ; DISTINCT ; GENOME ; PROTEIN ; ACCURACY ; COMPLEX ; COMPLEXES ; SEQUENCE ; SEQUENCES ; MOUSE ; IDENTIFICATION ; PATTERNS ; Drosophila ; NUMBER ; HUMAN GENOME ; LOCALIZATION ; PROTEOMICS ; PROGRAM ; RE ; INCREASE ; REQUIREMENT ; NUCLEOTIDE-SEQUENCES ; FULL-LENGTH HUMAN ; HUMAN CDNAS ; FIDELITY ; Internet
    Abstract: Background: The identification of patterns in biological sequences is a key challenge in genome analysis and in proteomics. Frequently such patterns are complex and highly variable, especially in protein sequences. They are frequently described using terms of regular expressions (RegEx) because of the user-friendly terminology. Limitations arise for queries with the increasing complexity of patterns and are accompanied by requirements for enhanced capabilities. This is especially true for patterns containing ambiguous characters and positions and/or length ambiguities. Results: We have implemented the 3of5 web application in order to enable complex pattern matching in protein sequences. 3of5 is named after a special use of its main feature, the novel n-of-m pattern type. This feature allows for an extensive specification of variable patterns where the individual elements may vary in their position, order, and content within a defined stretch of sequence. The number of distinct elements can be constrained by operators, and individual characters may be excluded. The n-of-m pattern type can be combined with common regular expression terms and thus also allows for a comprehensive description of complex patterns. 3of5 increases the fidelity of pattern matching and finds ALL possible solutions in protein sequences in cases of length-ambiguous patterns instead of simply reporting the longest or shortest hits. Grouping and combined search for patterns provides a hierarchical arrangement of larger patterns sets. The algorithm is implemented as internet application and freely accessible. The application is available at http://dkfz.de/mga2/3of5/3of5.html. Conclusion: The 3of5 application offers an extended vocabulary for the definition of search patterns and thus allows the user to comprehensively specify and identify peptide patterns with variable elements. The n-of-m pattern type offers an improved accuracy for pattern matching in combination with the ability to find all solutions, without compromising the user friendliness of regular expression terms
    Type of Publication: Journal article published
    PubMed ID: 16542452
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  • 5
    Keywords: CELLS ; human ; DISTINCT ; GENE ; GENES ; PROTEIN ; PROTEINS ; COMPLEX ; DOMAIN ; SEQUENCE ; SEQUENCES ; VARIANTS ; MOUSE ; IDENTIFICATION ; PATTERNS ; PROMOTERS ; HUMAN GENOME ; LOCALIZATION ; KAPPA-B ; DOMAINS ; SUBCELLULAR-LOCALIZATION ; RE ; VARIANT ; LOCUS ; EVENTS ; OPEN READING FRAMES ; function ; SPLICING VARIANTS ; transcriptome ; MAMMALIAN GENOMES ; PRE-MESSENGER-RNA
    Abstract: We report the first genome-wide identification and characterization of alternative splicing in human gene transcripts based on analysis of the full-length cDNAs. Applying both manual and computational analyses for 56 419 completely sequenced and precisely annotated full-length cDNAs selected for the H-Invitational human transcriptome annotation meetings, we identified 6877 alternative splicing genes with 18 297 different alternative splicing variants. A total of 37 670 exons were involved in these alternative splicing events. The encoded protein sequences were affected in 6005 of the 6877 genes. Notably, alternative splicing affected protein motifs in 3015 genes, subcellular localizations in 2982 genes and transmembrane domains in 1348 genes. We also identified interesting patterns of alternative splicing, in which two distinct genes seemed to be bridged, nested or having overlapping protein coding sequences (CDSs) of different reading frames (multiple CDS). In these cases, completely unrelated proteins are encoded by a single locus. Genome-wide annotations of alternative splicing, relying on full-length cDNAs, should lay firm groundwork for exploring in detail the diversification of protein function, which is mediated by the fast expanding universe of alternative splicing variants
    Type of Publication: Journal article published
    PubMed ID: 16914452
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  • 6
    Keywords: Germany ; CLASSIFICATION ; INFORMATION ; TOOL ; SITE ; CLONING ; GENOME ; PROTEIN ; PROTEINS ; TIME ; SEQUENCE ; SIGNAL ; VARIANTS ; ASSAY ; DATABASE ; LOCALIZATION ; PREDICTION ; SELECTION ; REJECTION ; SEQUENCE-ANALYSIS ; HUMAN GENES ; FUNCTIONAL GENOMICS ; CDNAS ; FEATURES ; PROGRAM ; RE ; VARIANT ; assembly ; databases ; ANNOTATION ; CPG ISLANDS ; FULL-LENGTH HUMAN ; ASSAYS ; HIGH-THROUGHPUT ; TESTS ; GENOMIC DNA ; genomic ; SIGNALS ; E ; SET ; transcriptome ; POLYADENYLATION
    Abstract: Background: The German cDNA Consortium has been cloning full length cDNAs and continued with their exploitation in protein localization experiments and cellular assays. However, the efficient use of large cDNA resources requires the development of strategies that are capable of a speedy selection of truly useful cDNAs from biological and experimental noise. To this end we have developed a new high-throughput analysis tool, CAFTAN, which simplifies these efforts and thus fills the gap between large-scale cDNA collections and their systematic annotation and application in functional genomics. Results: CAFTAN is built around the mapping of cDNAs to the genome assembly, and the subsequent analysis of their genomic context. It uses sequence features like the presence and type of PolyA signals, inner and flanking repeats, the GC-content, splice site types, etc. All these features are evaluated in individual tests and classify cDNAs according to their sequence quality and likelihood to have been generated from fully processed mRNAs. Additionally, CAFTAN compares the coordinates of mapped cDNAs with the genomic coordinates of reference sets from public available resources ( e. g., VEGA, ENSEMBL). This provides detailed information about overlapping exons and the structural classification of cDNAs with respect to the reference set of splice variants. The evaluation of CAFTAN showed that is able to correctly classify more than 85% of 5950 selected "known protein-coding" VEGA cDNAs as high quality multi-or single-exon. It identified as good 80.6% of the single exon cDNAs and 85% of the multiple exon cDNAs. The program is written in Perl and in a modular way, allowing the adoption of this strategy to other tasks like EST-annotation, or to extend it by adding new classification rules and new organism databases as they become available. We think that it is a very useful program for the annotation and research of unfinished genomes. Conclusion: CAFTAN is a high-throughput sequence analysis tool, which performs a fast and reliable quality prediction of cDNAs. Several thousands of cDNAs can be analyzed in a short time, giving the curator/scientist a first quick overview about the quality and the already existing annotation of a set of cDNAs. It supports the rejection of low quality cDNAs and helps in the selection of likely novel splice variants, and/or completely novel transcripts for new experiments
    Type of Publication: Journal article published
    PubMed ID: 17064411
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  • 7
    Keywords: EXPRESSION ; Germany ; human ; DISEASE ; GENE ; GENE-EXPRESSION ; GENES ; TISSUE ; TISSUES ; LINKAGE ; MOUSE ; IDENTIFICATION ; IN-SITU ; gene expression ; NUMBER ; DATABASE ; REGION ; REGIONS ; LOCALIZATION ; ORGANIZATION ; RE ; EXPRESSION PATTERNS ; MAP ; MENTAL-RETARDATION ; SUBUNIT PROTEIN ; CPG-BINDING PROTEIN-2
    Abstract: 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. Results: By using a systematic approach, we describe the Xq28 genes by RNA in situ hybridisation and Northern blotting of the mouse orthologs, as well as subcellular localisation and data mining of the human genes. We have developed a relational web-accessible database with comprehensive query options integrating all experimental data. Using this database, we matched gene expression patterns with affected tissues for 16 of the 17 remaining Xq28 linked diseases, where the causative gene is unknown. Conclusion: By using this systematic approach, we have prioritised genes in linkage regions of Xq28-mapped diseases to an amenable number for mutational screens. Our database can be queried by any researcher performing highly specified searches including diseases not listed in OMIM or diseases that might be linked to Xq28 in the future
    Type of Publication: Journal article published
    PubMed ID: 16503986
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  • 8
    Keywords: TRAFFICKING ; LOCALIZATION ; MAMMALIAN-CELLS ; REVEALS ; ENDOPLASMIC-RETICULUM ; MOLECULAR-MECHANISMS ; GLOBAL ANALYSIS ; TO-GOLGI TRANSPORT ; COPII VESICLE FORMATION ; RAB GTPASE
    Abstract: The secretory pathway in mammalian cells has evolved to facilitate the transfer of cargo molecules to internal and cell surface membranes. Use of automated microscopy-based genome-wide RNA interference screens in cultured human cells allowed us to identify 554 proteins influencing secretion. Cloning, fluorescent-tagging and subcellular localization analysis of 179 of these proteins revealed that more than two-thirds localize to either the cytoplasm or membranes of the secretory and endocytic pathways. The depletion of 143 of them resulted in perturbations in the organization of the COPII and/or COPI vesicular coat complexes of the early secretory pathway, or the morphology of the Golgi complex. Network analyses revealed a so far unappreciated link between early secretory pathway function, small GTP-binding protein regulation, actin cytoskeleton organization and EGF-receptor-mediated signalling. This work provides an important resource for an integrative understanding of global cellular organization and regulation of the secretory pathway in mammalian cells.
    Type of Publication: Journal article published
    PubMed ID: 22660414
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  • 9
    Keywords: CELLS ; CELL ; Germany ; screening ; SYSTEM ; PROTEIN ; PROTEINS ; SAMPLE ; COMPLEX ; COMPLEXES ; TRANSPORT ; ACQUISITION ; ASSAY ; TRAFFICKING ; LOCALIZATION ; ER ; green fluorescent protein,proteomics,functional analysis,high-content screening microscopy,membrane ; MANAGEMENT
    Abstract: A modular microscope-based screening platform, with applications in large-scale analysis of protein function in intact cells is described. It includes automated sample preparation, image acquisition, data management and analysis, and the genome-wide automated retrieval of bioinformatic information. The modular nature of the system ensures that it is rapidly adaptable to new biological questions or sets of proteins. Two automated functional assays addressing protein secretion and the integrity of the Golgi complex were developed and tested. This shows the potential of the system in large-scale, cell-based functional proteomic projects. (C) 2003 Federation of European Biochemical Societies. Published by Elsevier B.V. All rights reserved
    Type of Publication: Journal article published
    PubMed ID: 14623100
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  • 10
    Keywords: CELLS ; EXPRESSION ; GROWTH ; CELL ; Germany ; CLASSIFICATION ; DEATH ; CDNA ; CLONING ; GENES ; PROTEIN ; PROTEINS ; DOMAIN ; SEQUENCE ; TRANSPORT ; IDENTIFICATION ; CELL-DEATH ; DATABASE ; FUSION PROTEINS ; LOCALIZATION ; LIVING CELLS ; GREEN FLUORESCENT PROTEIN ; FUNCTIONAL GENOMICS ; PROTEOMICS ; CDNAS ; cellular assay,full-length cDNA,functional genomics,protein expression,proteomics ; SUBCELLULAR-LOCALIZATION
    Abstract: 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. The resulting information is integrated with functional genomics and proteomics data for further understanding of protein functions in the cellular context. (C) 2003 Academie des sciences. Published by Elsevier SAS. All rights reserved
    Type of Publication: Journal article published
    PubMed ID: 14744107
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