Your search keyword '"Szafranski, Karol"' showing total 10 results

1. Novel CIC point mutations and an exon-spanning, homozygous deletion identified in oligodendroglial tumors by a comprehensive genomic approach including transcriptome sequencing.

Author

Eisenreich S, Abou-El-Ardat K, Szafranski K, Campos Valenzuela JA, Rump A, Nigro JM, Bjerkvig R, Gerlach EM, Hackmann K, Schröck E, Krex D, Kaderali L, Schackert G, Platzer M, and Klink B

Subjects

Adult, Alleles, Astrocytoma genetics, Cohort Studies, DNA Helicases genetics, DNA-Binding Proteins genetics, Female, Gene Expression Regulation, Neoplastic genetics, Homozygote, Humans, Male, Middle Aged, Oligodendroglioma genetics, RNA-Binding Proteins, Sequence Analysis, DNA, Sequence Analysis, RNA, Chromosome Deletion, Exons genetics, Gene Expression Profiling, Genomics, Glioma genetics, Point Mutation, Repressor Proteins genetics

Abstract

Oligodendroglial tumors form a distinct subgroup of gliomas, characterized by a better response to treatment and prolonged overall survival. Most oligodendrogliomas and also some oligoastrocytomas are characterized by a unique and typical unbalanced translocation, der(1,19), resulting in a 1p/19q co-deletion. Candidate tumor suppressor genes targeted by these losses, CIC on 19q13.2 and FUBP1 on 1p31.1, were only recently discovered. We analyzed 17 oligodendrogliomas and oligoastrocytomas by applying a comprehensive approach consisting of RNA expression analysis, DNA sequencing of CIC, FUBP1, IDH1/2, and array CGH. We confirmed three different genetic subtypes in our samples: i) the "oligodendroglial" subtype with 1p/19q co-deletion in twelve out of 17 tumors; ii) the "astrocytic" subtype in three tumors; iii) the "other" subtype in two tumors. All twelve tumors with the 1p/19q co-deletion carried the most common IDH1 R132H mutation. In seven of these tumors, we found protein-disrupting point mutations in the remaining allele of CIC, four of which are novel. One of these tumors also had a deleterious mutation in FUBP1. Only by integrating RNA expression and array CGH data, were we able to discover an exon-spanning homozygous microdeletion within the remaining allele of CIC in an additional tumor with 1p/19q co-deletion. Therefore we propose that the mutation rate might be underestimated when looking at sequence variants alone. In conclusion, the high frequency and the spectrum of CIC mutations in our 1p/19q-codeleted tumor cohort support the hypothesis that CIC acts as a tumor suppressor in these tumors, whereas FUBP1 might play only a minor role.

Published

2013

2. TassDB2 - A comprehensive database of subtle alternative splicing events.

Author

Sinha R, Lenser T, Jahn N, Gausmann U, Friedel S, Szafranski K, Huse K, Rosenstiel P, Hampe J, Schuster S, Hiller M, Backofen R, and Platzer M

Subjects

Animals, Databases, Factual, Genome, Humans, Internet, RNA Splice Sites, RNA Splicing, Alternative Splicing, Genomics methods, Software

Abstract

Background: Subtle alternative splicing events involving tandem splice sites separated by a short (2-12 nucleotides) distance are frequent and evolutionarily widespread in eukaryotes, and a major contributor to the complexity of transcriptomes and proteomes. However, these events have been either omitted altogether in databases on alternative splicing, or only the cases of experimentally confirmed alternative splicing have been reported. Thus, a database which covers all confirmed cases of subtle alternative splicing as well as the numerous putative tandem splice sites (which might be confirmed once more transcript data becomes available), and allows to search for tandem splice sites with specific features and download the results, is a valuable resource for targeted experimental studies and large-scale bioinformatics analyses of tandem splice sites. Towards this goal we recently set up TassDB (Tandem Splice Site DataBase, version 1), which stores data about alternative splicing events at tandem splice sites separated by 3 nt in eight species., Description: We have substantially revised and extended TassDB. The currently available version 2 contains extensive information about tandem splice sites separated by 2-12 nt for the human and mouse transcriptomes including data on the conservation of the tandem motifs in five vertebrates. TassDB2 offers a user-friendly interface to search for specific genes or for genes containing tandem splice sites with specific features as well as the possibility to download result datasets. For example, users can search for cases of alternative splicing where the proportion of EST/mRNA evidence supporting the minor isoform exceeds a specific threshold, or where the difference in splice site scores is specified by the user. The predicted impact of each event on the protein is also reported, along with information about being a putative target for the nonsense-mediated decay (NMD) pathway. Links are provided to the UCSC genome browser and other external resources., Conclusion: TassDB2, available via http://www.tassdb.info, provides comprehensive resources for researchers interested in both targeted experimental studies and large-scale bioinformatics analyses of short distance tandem splice sites.

Published

2010

3. Accurate prediction of NAGNAG alternative splicing.

Author

Sinha R, Nikolajewa S, Szafranski K, Hiller M, Jahn N, Huse K, Platzer M, and Backofen R

Subjects

Animals, Bayes Theorem, Caenorhabditis elegans genetics, Databases, Nucleic Acid, Electrophoresis, Capillary, Humans, Mice, Rats, Reverse Transcriptase Polymerase Chain Reaction, Alternative Splicing, Genomics methods, RNA Splice Sites, Tandem Repeat Sequences

Abstract

Alternative splicing (AS) involving NAGNAG tandem acceptors is an evolutionarily widespread class of AS. Recent predictions of alternative acceptor usage reported better results for acceptors separated by larger distances, than for NAGNAGs. To improve the latter, we aimed at the use of Bayesian networks (BN), and extensive experimental validation of the predictions. Using carefully constructed training and test datasets, a balanced sensitivity and specificity of >or=92% was achieved. A BN trained on the combined dataset was then used to make predictions, and 81% (38/47) of the experimentally tested predictions were verified. Using a BN learned on human data on six other genomes, we show that while the performance for the vertebrate genomes matches that achieved on human data, there is a slight drop for Drosophila and worm. Lastly, using the prediction accuracy according to experimental validation, we estimate the number of yet undiscovered alternative NAGNAGs. State of the art classifiers can produce highly accurate prediction of AS at NAGNAGs, indicating that we have identified the major features of the 'NAGNAG-splicing code' within the splice site and its immediate neighborhood. Our results suggest that the mechanism behind NAGNAG AS is simple, stochastic, and conserved among vertebrates and beyond.

Published

2009

4. Naked mole-rat transcriptome signatures of socially suppressed sexual maturation and links of reproduction to aging.

Author

Bens, Martin, Szafranski, Karol, Holtze, Susanne, Sahm, Arne, Groth, Marco, Kestler, Hans A., Hildebrandt, Thomas B., and Platzer, Matthias

Subjects

*LIFE cycles (Biology), *GENE expression, *NAKED mole rat, *ANIMAL reproduction, *DEVELOPMENTAL biology, *GENOMICS

Abstract

Background: Naked mole-rats (NMRs) are eusocially organized in colonies. Although breeders carry the additional metabolic load of reproduction, they are extremely long-lived and remain fertile throughout their lifespan. This phenomenon contrasts the disposable soma theory of aging stating that organisms can invest their resources either in somatic maintenance, enabling a longer lifespan, or in reproduction, at the cost of longevity. Here, we present a comparative transcriptome analysis of breeders vs. non-breeders of the eusocial, long-lived NMR vs. the polygynous and shorter-lived guinea pig (GP). Results: Comparative transcriptome analysis of tissue samples from ten organs showed, in contrast to GPs, low levels of differentiation between sexes in adult NMR non-breeders. After transition into breeders, NMR transcriptomes are markedly sex-specific, show pronounced feedback signaling via gonadal steroids, and have similarities to reproductive phenotypes in African cichlid fish, which also exhibit social status changes between dominant and subordinate phenotypes. Further, NMRs show functional enrichment of status-related expression differences associated with aging. Lipid metabolism and oxidative phosphorylation—molecular networks known to be linked to aging—were identified among most affected gene sets. Remarkably and in contrast to GPs, transcriptome patterns associated with longevity are reinforced in NMR breeders. Conclusion: Our results provide comprehensive and unbiased molecular insights into interspecies differences between NMRs and GPs, both in sexual maturation and in the impact of reproduction on longevity. We present molecular evidence that sexual maturation in NMRs is socially suppressed. In agreement with evolutionary theories of aging in eusocial organisms, we have identified transcriptome patterns in NMR breeders that—in contrast to the disposable soma theory of aging—may slow down aging rates and potentially contribute to their exceptional long life- and healthspan. [ABSTRACT FROM AUTHOR]

Published

2018

5. Long-lived rodents reveal signatures of positive selection in genes associated with lifespan.

Author

Sahm, Arne, Bens, Martin, Szafranski, Karol, Holtze, Susanne, Groth, Marco, Görlach, Matthias, Calkhoven, Cornelis, Müller, Christine, Schwab, Matthias, Kraus, Johann, Kestler, Hans A., Cellerino, Alessandro, Burda, Hynek, Hildebrandt, Thomas, Dammann, Philip, and Platzer, Matthias

Subjects

RODENTS, GENES, RELEVANCE, MAMMALS, PHYLOGENETIC models

Abstract

The genetics of lifespan determination is poorly understood. Most research has been done on short-lived animals and it is unclear if these insights can be transferred to long-lived mammals like humans. Some African mole-rats (Bathyergidae) have life expectancies that are multiple times higher than similar sized and phylogenetically closely related rodents. To gain new insights into genetic mechanisms determining mammalian lifespans, we obtained genomic and transcriptomic data from 17 rodent species and scanned eleven evolutionary branches associated with the evolution of enhanced longevity for positively selected genes (PSGs). Indicating relevance for aging, the set of 250 identified PSGs showed in liver of long-lived naked mole-rats and short-lived rats an expression pattern that fits the antagonistic pleiotropy theory of aging. Moreover, we found the PSGs to be enriched for genes known to be related to aging. Among these enrichments were “cellular respiration” and “metal ion homeostasis”, as well as functional terms associated with processes regulated by the mTOR pathway: translation, autophagy and inflammation. Remarkably, among PSGs are RHEB, a regulator of mTOR, and IGF1, both central components of aging-relevant pathways, as well as genes yet unknown to be aging-associated but representing convincing functional candidates, e.g. RHEBL1, AMHR2, PSMG1 and AGER. Exemplary protein homology modeling suggests functional consequences for amino acid changes under positive selection. Therefore, we conclude that our results provide a meaningful resource for follow-up studies to mechanistically link identified genes and amino acids under positive selection to aging and lifespan determination. [ABSTRACT FROM AUTHOR]

Published

2018

6. Comprehensive assessment of sequence variation within the copy number variable defensin cluster on 8p23 by target enriched in-depth 454 sequencing.

Author

Taudien, Stefan, Szafranski, Karol, Felder, Marius, Groth, Marco, Huse, Klaus, Raffaelli, Francesca, Petzold, Andreas, Xinmin Zhang, Rosenstiel, Philip, Hampe, Jochen, Schreiber, Stefan, and Platzer, Matthias

Subjects

*LOCUS (Genetics), *GENOMICS, *GENOMES, *NUCLEOTIDES, *STATISTICAL correlation

Abstract

Background: In highly copy number variable (CNV) regions such as the human defensin gene locus, comprehensive assessment of sequence variations is challenging. PCR approaches are practically restricted to tiny fractions, and next-generation sequencing (NGS) approaches of whole individual genomes e.g. by the 1000 Genomes Project is confined by an affordable sequence depth. Combining target enrichment with NGS may represent a feasible approach. Results: As a proof of principle, we enriched a ~850 kb section comprising the CNV defensin gene cluster DEFB, the invariable DEFA part and 11 control regions from two genomes by sequence capture and sequenced it by 454 technology. 6,651 differences to the human reference genome were found. Comparison to HapMap genotypes revealed sensitivities and specificities in the range of 94% to 99% for the identification of variations. Using error probabilities for rigorous filtering revealed 2,886 unique single nucleotide variations (SNVs) including 358 putative novel ones. DEFB CN determinations by haplotype ratios were in agreement with alternative methods. Conclusion: Although currently labor extensive and having high costs, target enriched NGS provides a powerful tool for the comprehensive assessment of SNVs in highly polymorphic CNV regions of individual genomes. Furthermore, it reveals considerable amounts of putative novel variations and simultaneously allows CN estimation. [ABSTRACT FROM AUTHOR]

Published

2011

7. Sequencing errors or SNPs at splice-acceptor guanines in dbSNP?

Author

Platzer, Matthias, Hiller, Michael, Szafranski, Karol, Jahn, Niels, Hampe, Jochen, Schreiber, Stefan, Backofen, Rolf, and Huse, Klaus

Subjects

LETTERS to the editor, GENOMICS

Abstract

A letter to the editor is presented in response to the article "Sequencing errors or SNPs at splice-acceptor guanines in dbSNP?" in September 2006 issue.

Published

2006

8. Widespread occurrence of alternative splicing at NAGNAG acceptors contributes to proteome plasticity.

Author

Hiller, Michael, Huse, Klaus, Szafranski, Karol, Jahn, Niels, Hampe, Jochen, Schreiber, Stefan, Backofen, Rolf, and Platzer, Matthias

Subjects

GENOMICS, TRIAL transcripts, GENETIC transcription, GENES, TISSUES, MESSENGER RNA, PROTEINS

Abstract

Splice acceptors with the genomic NAGNAG motif may cause NAG insertion-deletions in transcripts, occur in 30% of human genes and are functional in at least 5% of human genes. We found five significant biases indicating that their distribution is nonrandom and that they are evolutionarily conserved and tissue-specific. Because of their subtle effects on mRNA and protein structures, these splice acceptors are often overlooked or underestimated, but they may have a great impact on biology and disease. [ABSTRACT FROM AUTHOR]

Published

2004

9. Genome-wide search for novel human uORFs and N-terminal protein extensions using ribosomal footprinting.

Author

Fritsch, Claudia, Herrmann, Alexander, Nothnagel, Michael, Szafranski, Karol, Huse, Klaus, Schumann, Frank, Schreiber, Stefan, Platzer, Matthias, Krawczak, Michael, Hampe, Jochen, and Brosch, Mario

Subjects

*GENOMICS, *MOLECULAR genetics, *OPEN reading frames (Genetics), *PROTEINS, *RIBOSOMES

Abstract

So far, the annotation of translation initiation sites (TISs) has been based mostly upon bioinformatics rather than experimental evidence. We adapted ribosomal footprinting to puromycin-treated cells to generate a transcriptome-wide map of TISs in a human monocytic cell line. A neural network was trained on the ribosomal footprints observed at previously annotated AUG translation initiation codons (TICs), and used for the ab initio prediction of TISs in 5062 transcripts with sufficient sequence coverage. Functional interpretation suggested 2994 novel upstream open reading frames (uORFs) in the 59 UTR, 1406 uORFs overlapping with the coding sequence, and 546 N-terminal protein extensions. The TIS detection method was validated on the basis of previously published alternative TISs and uORFs. Among primates, TICs in newly annotated TISs were significantly more conserved than control codons, both for AUGs and nearcognate codons. The transcriptome-wide map of novel candidate TISs derived as part of the study will shed further light on the way in which human proteome diversity is influenced by alternative translation initiation and regulation. [ABSTRACT FROM AUTHOR]

Published

2012

10. Long-lived rodents reveal signatures of positive selection in genes associated with lifespan

Author

Alessandro Cellerino, Philip Dammann, Martin Bens, Susanne Holtze, Hynek Burda, Cornelis F. Calkhoven, Johann M. Kraus, Matthias Schwab, Marco Groth, Christine Müller, Matthias Platzer, Thomas B. Hildebrandt, Karol Szafranski, Arne Sahm, Matthias Görlach, Hans A. Kestler, Sahm, Arne, Bens, Martin, Szafranski, Karol, Holtze, Susanne, Groth, Marco, Görlach, Matthia, Calkhoven, Corneli, Müller, Christine, Schwab, Matthia, Kraus, Johann, Kestler, Hans A., Cellerino, Alessandro, Burda, Hynek, Hildebrandt, Thoma, Dammann, Philip, and Platzer, Matthias

Subjects

0301 basic medicine, Cancer Research, Aging, Physiology, Aging and Cancer, Medizin, NAKED MOLE-RAT, Gene Expression, Settore BIO/09 - Fisiologia, Transcriptome, Database and Informatics Methods, Pleiotropy, Medicine and Health Sciences, Homeostasis, comparative biology, OXIDATIVE STRESS, LONGEVITY, Genetics (clinical), media_common, Mammals, Genome, protein synthesi, biology, Cancer Risk Factors, Longevity, Eukaryota, Animal Models, Genomics, Naked Mole Rats, ALZHEIMERS-DISEASE, INSIGHTS, Experimental Organism Systems, Oncology, Vertebrates, CHAPERONE-MEDIATED AUTOPHAGY, Transcriptome Analysis, Sequence Analysis, Biologie, RHEB, Research Article, END-PRODUCTS, lcsh:QH426-470, Bioinformatics, media_common.quotation_subject, Rodentia, Research and Analysis Methods, Rodents, 03 medical and health sciences, Model Organisms, Species Specificity, longevity, positive selection, evolution, Genetics, Animals, Selection, Genetic, Molecular Biology, Gene, Ecology, Evolution, Behavior and Systematics, PI3K/AKT/mTOR pathway, Metal ion homeostasis, oxidative stre, Ion Transport, RECEPTOR, Human evolutionary genetics, Organisms, Biology and Life Sciences, Computational Biology, Genome Analysis, Rats, Settore BIO/18 - Genetica, lcsh:Genetics, MICE, 030104 developmental biology, Evolutionary biology, Amniotes, biology.protein, Physiological Processes, Organism Development, Sequence Alignment, Developmental Biology, LIVING RODENT

Abstract

The genetics of lifespan determination is poorly understood. Most research has been done on short-lived animals and it is unclear if these insights can be transferred to long-lived mammals like humans. Some African mole-rats (Bathyergidae) have life expectancies that are multiple times higher than similar sized and phylogenetically closely related rodents. To gain new insights into genetic mechanisms determining mammalian lifespans, we obtained genomic and transcriptomic data from 17 rodent species and scanned eleven evolutionary branches associated with the evolution of enhanced longevity for positively selected genes (PSGs). Indicating relevance for aging, the set of 250 identified PSGs showed in liver of long-lived naked mole-rats and short-lived rats an expression pattern that fits the antagonistic pleiotropy theory of aging. Moreover, we found the PSGs to be enriched for genes known to be related to aging. Among these enrichments were “cellular respiration” and “metal ion homeostasis”, as well as functional terms associated with processes regulated by the mTOR pathway: translation, autophagy and inflammation. Remarkably, among PSGs are RHEB, a regulator of mTOR, and IGF1, both central components of aging-relevant pathways, as well as genes yet unknown to be aging-associated but representing convincing functional candidates, e.g. RHEBL1, AMHR2, PSMG1 and AGER. Exemplary protein homology modeling suggests functional consequences for amino acid changes under positive selection. Therefore, we conclude that our results provide a meaningful resource for follow-up studies to mechanistically link identified genes and amino acids under positive selection to aging and lifespan determination., Author summary As an adaption to different environments rodents have evolved a wide range of lifespans. While most rodents are short-lived, along several phylogenetic branches long-lived species evolved. This provided us a unique opportunity to search for genes that are associated with enhanced longevity in mammals. Towards this, we computationally compared gene sequences of exceptional long-lived rodent species (like the naked mole-rat and chinchilla) and short-lived rodents (like rat and mouse) and identified those which evolved exceptional fast. As natural selection acts in parallel on a multitude of phenotypes, only a subset of the identified genes is probably associated with enhanced longevity. Applying several tests, we ensured that the dataset is related to aging. We conclude that lifespan extension in rodents can be attributed to changes in their defense against free radicals, iron homeostasis as well as cellular respiration and translation as central parts of the growth program. This confirms aging theories assuming a tradeoff between fast growth and long lifespan. Moreover, our study offers a meaningful resource of targets, i.e. genes and specific positions therein, for functional follow-up studies on their potential roles in the determination of lifespan–regardless whether they are currently known to be aging-related or not.

Published

2018