Your search keyword '"Hollunder, Jens"' showing total 12 results

1. Comparative transcriptomics as a tool for the identification of root branching genes in maize.

Author

Jansen, Leentje, Hollunder, Jens, Roberts, Ianto, Forestan, Cristian, Fonteyne, Philippe, Quickenborne, Charlotte, Zhen, Rui‐Guang, McKersie, Bryan, Parizot, Boris, and Beeckman, Tom

Subjects

PLANT development, PLANT roots, CORN, PLANT growth, AGRICULTURAL productivity, DICOTYLEDONS, ARABIDOPSIS thaliana

Abstract

The root system is fundamental for plant development, is crucial for overall plant growth and is recently being recognized as the key for future crop productivity improvement. A major determinant of root system architecture is the initiation of lateral roots. While knowledge of the genetic and molecular mechanisms regulating lateral root initiation has mainly been achieved in the dicotyledonous plant Arabidopsis thaliana, only scarce data are available for major crop species, generally monocotyledonous plants. The existence of both similarities and differences at the morphological and anatomical level between plant species from both clades raises the question whether regulation of lateral root initiation may or may not be conserved through evolution. Here, we performed a targeted genome-wide transcriptome analysis during lateral root initiation both in primary and in adventitious roots of Zea mays and found evidence for the existence of common transcriptional regulation. Further, based on a comparative analysis with Arabidopsis transcriptome data, a core of genes putatively conserved across angiosperms could be identified. Therefore, it is plausible that common regulatory mechanisms for lateral root initiation are at play in maize and Arabidopsis, a finding that might encourage the extrapolation of knowledge obtained in Arabidopsis to crop species at the level of root system architecture. [ABSTRACT FROM AUTHOR]

Published

2013

2. Predicting Gene Function from Uncontrolled Expression Variation among Individual Wild-Type Arabidopsis Plants.

Author

Bhosale, Rahul, Jewell, Jeremy B., Hollunder, Jens, Koo, Abraham J.K., Vuylsteke, Marnik, Michoel, Tom, Hilson, Pierre, Goossens, Alain, Howe, Gregg A., Browse, John, and Maere, Steven

Subjects

GENE expression, GENE regulatory networks, REGULATOR genes, GENE expression profiling, ARABIDOPSIS, JASMONATE

Abstract

Gene expression profiling studies are usually performed on pooled samples grown under tightly controlled experimental conditions to suppress variability among individuals and increase experimental reproducibility. In addition, to mask unwanted residual effects, the samples are often subjected to relatively harsh treatments that are unrealistic in a natural context. Here, we show that expression variations among individual wild-type Arabidopsis thaliana plants grown under the same macroscopic growth conditions contain as much information on the underlying gene network structure as expression profiles of pooled plant samples under controlled experimental perturbations. We advocate the use of subtle uncontrolled variations in gene expression between individuals to uncover functional links between genes and unravel regulatory influences. As a case study, we use this approach to identify ILL6 as a new regulatory component of the jasmonate response pathway. [ABSTRACT FROM AUTHOR]

Published

2013

3. CORNET 2.0: integrating plant coexpression, protein-protein interactions, regulatory interactions, gene associations and functional annotations.

Author

De Bodt, Stefanie, Hollunder, Jens, Nelissen, Hilde, Meulemeester, Nick, and Inzé, Dirk

Subjects

DATA mining, DATA integration, ARABIDOPSIS, GENE expression in plants, PROTEIN-protein interactions

Abstract

To enable easy access and interpretation of heterogenous and scattered data, we have developed a user-friendly tool for data mining and integration in Arabidopsis, named CORNET. This tool allows the browsing of microarray data, the construction of coexpression and protein-protein interaction (PPI) networks and the exploration of diverse functional annotations. Here, we present the new functionalities of CORNET 2.0 for data integration in plants., First of all, CORNET allows the integration of regulatory interaction datasets accessible through the new transcription factor (TF) tool that can be used in combination with the coexpression tool or the PPI tool. In addition, we have extended the PPI tool to enable the analysis of gene-gene associations from AraNet as well as newly identified PPIs. Different search options are implemented to enable the construction of networks centered around multiple input genes or proteins. New functional annotation resources are included to retrieve relevant literature, phenotypes, plant ontology and biological pathways., We have also extended CORNET to attain the construction of coexpression and PPI networks in the crop species maize., Networks and associated evidence of the majority of currently available data types are visualized in Cytoscape. CORNET is available at . [ABSTRACT FROM AUTHOR]

Published

2012

4. The Progeny of Arabidopsis thaliana Plants Exposed to Salt Exhibit Changes in DNA Methylation, Histone Modifications and Gene Expression.

Author

Bilichak, Andriy, Ilnystkyy, Yaroslav, Hollunder, Jens, and Kovalchuk, Igor

Subjects

ARABIDOPSIS thaliana, METHYLATION, DNA methylation, SALT, MOLECULAR structure of chromatin, GENE expression

Abstract

Plants are able to acclimate to new growth conditions on a relatively short time-scale. Recently, we showed that the progeny of plants exposed to various abiotic stresses exhibited changes in genome stability, methylation patterns and stress tolerance. Here, we performed a more detailed analysis of methylation patterns in the progeny of Arabidopsis thaliana (Arabidopsis) plants exposed to 25 and 75 mM sodium chloride. We found that the majority of gene promoters exhibiting changes in methylation were hypermethylated, and this group was overrepresented by regulators of the chromatin structure. The analysis of DNA methylation at gene bodies showed that hypermethylation in the progeny of stressed plants was primarily due to changes in the 59 and 39 ends as well as in exons rather than introns. All but one hypermethylated gene tested had lower gene expression. The analysis of histone modifications in the promoters and coding sequences showed that hypermethylation and lower gene expression correlated with the enrichment of H3K9me2 and depletion of H3K9ac histones. Thus, our work demonstrated a high degree of correlation between changes in DNA methylation, histone modifications and gene expression in the progeny of salt-stressed plants. [ABSTRACT FROM AUTHOR]

Published

2012

5. Specific Impact of Tobamovirus Infection on the Arabidopsis Small RNA Profile.

Author

Quanan Hu, Hollunder, Jens, Niehl, Annette, Kørner, Camilla Julie, Gereige, Dalya, Windels, David, Arnold, Andreas, Kuiper, Martin, Vazquez, Franck, Pooggin, Mikhail, and Heinlein, Manfred

Subjects

TOBAMOVIRUSES, RNA viruses, ARABIDOPSIS, NUCLEIC acids, MESSENGER RNA

Abstract

Tobamoviruses encode a silencing suppressor that binds small RNA (sRNA) duplexes in vitro and supposedly in vivo to counteract antiviral silencing. Here, we used sRNA deep-sequencing combined with transcriptome profiling to determine the global impact of tobamovirus infection on Arabidopsis sRNAs and their mRNA targets. We found that infection of Arabidopsis plants with Oilseed rape mosaic tobamovirus causes a global size-specific enrichment of miRNAs, ta-siRNAs, and other phased siRNAs. The observed patterns of sRNA enrichment suggest that in addition to a role of the viral silencing suppressor, the stabilization of sRNAs might also occur through association with unknown host effector complexes induced upon infection. Indeed, sRNA enrichment concerns primarily 21-nucleotide RNAs with a 59-terminal guanine. Interestingly, ORMV infection also leads to accumulation of novel miRNA-like sRNAs from miRNA precursors. Thus, in addition to canonical miRNAs and miRNA*s, miRNA precursors can encode additional sRNAs that may be functional under specific conditions like pathogen infection. Virus-induced sRNA enrichment does not correlate with defects in miRNA-dependent ta-siRNA biogenesis nor with global changes in the levels of mRNA and ta-siRNA targets suggesting that the enriched sRNAs may not be able to significantly contribute to the normal activity of pre-loaded RISC complexes. We conclude that tobamovirus infection induces the stabilization of a specific sRNA pool by yet unknown effector complexes. These complexes may sequester viral and host sRNAs to engage them in yet unknown mechanisms involved in plant:virus interactions. [ABSTRACT FROM AUTHOR]

Published

2011

6. Functional Modules in the Arabidopsis Core Cell Cycle Binary Protein–Protein Interaction Network.

Author

Boruc, Joanna, Daele, Hilde Van den, Hollunder, Jens, Rombauts, Stephane, Mylle, Evelien, Hilson, Pierre, Inzé, Dirk, Veylder, Lieven De, and Russinova, Eugenia

Subjects

CELL cycle proteins, CELL cycle, ARABIDOPSIS proteins, PLANT cell cycle, PROTEIN-protein interactions, CYCLIN-dependent kinases

Abstract

As in other eukaryotes, cell division in plants is highly conserved and regulated by cyclin-dependent kinases (CDKs) that are themselves predominantly regulated at the posttranscriptional level by their association with proteins such as cyclins. Although over the last years the knowledge of the plant cell cycle has considerably increased, little is known on the assembly and regulation of the different CDK complexes. To map protein–protein interactions between core cell cycle proteins of Arabidopsis thaliana , a binary protein–protein interactome network was generated using two complementary high-throughput interaction assays, yeast two-hybrid and bimolecular fluorescence complementation. Pairwise interactions among 58 core cell cycle proteins were tested, resulting in 357 interactions, of which 293 have not been reported before. Integration of the binary interaction results with cell cycle phase-dependent expression information and localization data allowed the construction of a dynamic interaction network. The obtained interaction map constitutes a framework for further in-depth analysis of the cell cycle machinery. [ABSTRACT FROM AUTHOR]

Published

2010

7. CORNET: A User-Friendly Tool for Data Mining and Integration.

Author

De Bodt, Stefanie, Carvajal, Diana, Hollunder, Jens, Van den Cruyce, Joost, Movahedi, Sara, and Inzé, Dirk

Subjects

DATABASES, BIOLOGICAL research, DNA microarrays, PROTEIN-protein interactions, ARABIDOPSIS thaliana, DATA mining, WEBSITES

Abstract

As an overwhelming amount of functional genomics data have been generated, the retrieval, integration, and interpretation of these data need to be facilitated to enable the advance of (systems) biological research. For example, gathering and processing microarray data that are related to a particular biological process is not straightforward, nor is the compilation of protein- protein interactions from numerous partially overlapping databases identified through diverse approaches. However, these tasks are inevitable to address the following questions. Does a group of differentially expressed genes show similar expression in diverse microarray experiments? Was an identified protein-protein interaction previously detected by other approaches? Are the interacting proteins encoded by genes with similar expression profiles and localization? We developed CORNET (for CORrelation NETworks) as an access point to transcriptome, protein interactome, and localization data and functional information on Arabidopsis (Arabidopsis thaliana). It consists of two flexible and versatile tools, namely the coexpression tool and the protein-protein interaction tool. The ability to browse and search microarray experiments using ontology terms and the incorporation of personal microarray data are distinctive features of the microarray repository. The coexpression tool enables either the alternate or simultaneous use of diverse expression compendia, whereas the protein-protein interaction tool searches experimentally and computationally identified protein-protein interactions. Different search options are implemented to enable the construction of coexpression and/or protein-protein interaction networks centered around multiple input genes or proteins. Moreover, networks and associated evidence are visualized in Cytoscape. Localization is visualized in pie charts, thereby allowing multiple localizations per protein. CORNET is available at http://bioinformatics.psb.ugent.be/cornet. [ABSTRACT FROM AUTHOR]

Published

2010

8. Flexible network reconstruction from relationaldatabases with Cytoscape and CytoSQL.

Author

Laukens, Kris, Hollunder, Jens, Dang, Thanh Hai, De Jaeger, Geert, Kuiper, Martin, Witters, Erwin, Verschoren, Alain, and Van Leemput, Koenraad

Subjects

RELATIONAL databases, INFORMATION retrieval, DATABASE management, DATA analysis, VISUAL perception

Abstract

Background: Molecular interaction networks can be efficiently studied using network visualization software such as Cytoscape. The relevant nodes, edges and their attributes can be imported in Cytoscape in various file formats, or directly from external databases through specialized third party plugins. However, molecular data are often stored in relational databases with their own specific structure, for which dedicated plugins do not exist. Therefore, a more generic solution is presented. Results: A new Cytoscape plugin 'CytoSQL' is developed to connect Cytoscape to any relational database. It allows to launch SQL ('Structured Query Language') queries from within Cytoscape, with the option to inject node or edge features of an existing network as SQL arguments, and to convert the retrieved data to Cytoscape network components. Supported by a set of case studies we demonstrate the flexibility and the power of the CytoSQL plugin in converting specific data subsets into meaningful network representations. Conclusions: CytoSQL offers a unified approach to let Cytoscape interact with relational databases. Thanks to the power of the SQL syntax, this tool can rapidly generate and enrich networks according to very complex criteria. The plugin is available at http://www.ptools.ua.ac.be/CytoSQL. [ABSTRACT FROM AUTHOR]

Published

2010

9. Targeted interactomics reveals a complex core cell cycle machinery in Arabidopsis thaliana.

Author

Van Leene, Jelle, Hollunder, Jens, Eeckhout, Dominique, Persiau, Geert, Van De Slijke, Eveline, Stals, Hilde, Van Isterdael, Gert, Verkest, Aurine, Neirynck, Sandy, Buffel, Yelle, De Bodt, Stefanie, Maere, Steven, Laukens, Kris, Pharazyn, Anne, Ferreira, Paulo C G, Eloy, Nubia, Renne, Charlotte, Meyer, Christian, Faure, Jean‐Denis, and Steinbrenner, Jens

Abstract

Cell proliferation is the main driving force for plant growth. Although genome sequence analysis revealed a high number of cell cycle genes in plants, little is known about the molecular complexes steering cell division. In a targeted proteomics approach, we mapped the core complex machinery at the heart of the Arabidopsis thaliana cell cycle control. Besides a central regulatory network of core complexes, we distinguished a peripheral network that links the core machinery to up- and downstream pathways. Over 100 new candidate cell cycle proteins were predicted and an in-depth biological interpretation demonstrated the hypothesis-generating power of the interaction data. The data set provided a comprehensive view on heterodimeric cyclin-dependent kinase (CDK)–cyclin complexes in plants. For the first time, inhibitory proteins of plant-specific B-type CDKs were discovered and the anaphase-promoting complex was characterized and extended. Important conclusions were that mitotic A- and B-type cyclins form complexes with the plant-specific B-type CDKs and not with CDKA;1, and that D-type cyclins and S-phase-specific A-type cyclins seem to be associated exclusively with CDKA;1. Furthermore, we could show that plants have evolved a combinatorial toolkit consisting of at least 92 different CDK–cyclin complex variants, which strongly underscores the functional diversification among the large family of cyclins and reflects the pivotal role of cell cycle regulation in the developmental plasticity of plants. [ABSTRACT FROM AUTHOR]

Published

2010

10. Integrated Assessment and Prediction of Transcription Factor Binding.

Author

Beyer, Andreas, Workman, Christopher, Hollunder, Jens, Radke, Dörte, Möller, Ulrich, Wilhelm, Thomas, and Ideker, Trey

Subjects

CHROMATIN, TRANSCRIPTION factors, CHROMOSOMES, DNA microarrays, PROTEINS

Abstract

Systematic chromatin immunoprecipitation (chIP-chip) experiments have become a central technique for mapping transcriptional interactions in model organisms and humans. However, measurement of chromatin binding does not necessarily imply regulation, and binding may be difficult to detect if it is condition or cofactor dependent. To address these challenges, we present an approach for reliably assigning transcription factors (TFs) to target genes that integrates many lines of direct and indirect evidence into a single probabilistic model. Using this approach, we analyze publicly available chIP-chip binding profiles measured for yeast TFs in standard conditions, showing that our model interprets these data with significantly higher accuracy than previous methods. Pooling the high-confidence interactions reveals a large network containing 363 significant sets of factors (TF modules) that cooperate to regulate common target genes. In addition, the method predicts 980 novel binding interactions with high confidence that are likely to occur in so-far untested conditions. Indeed, using new chIP-chip experiments we show that predicted interactions for the factors Rpn4p and Pdr1p are observed only after treatment of cells with methyl-methanesulfonate, a DNA-damaging agent. We outline the first approach for consistently integrating all available evidences for TF-target interactions and we comprehensively identify the resulting TF module hierarchy. Prioritizing experimental conditions for each factor will be especially important as increasing numbers of chIP-chip assays are performed in complex organisms such as humans, for which "standard conditions" are ill defined. [ABSTRACT FROM AUTHOR]

Published

2006

11. Common patterns in type II restriction enzyme binding sites.

Author

Nikolajewa, Svetlana, Beyer, Andreas, Friedel, Maik, Hollunder, Jens, and Wilhelm, Thomas

Published

2005

12. DASS-GUI: a user interface for identification and analysis of significant patterns in non-sequential data.

Author

Hollunder, Jens, Friedel, Maik, Kuiper, Martin, and Wilhelm, Thomas

Subjects

COMPUTER systems, USER interfaces, DECISION support systems, OLAP technology, HUMAN-computer interaction

Abstract

Summary: Many large ‘omics’ datasets have been published and many more are expected in the near future. New analysis methods are needed for best exploitation. We have developed a graphical user interface (GUI) for easy data analysis. Our discovery of all significant substructures (DASS) approach elucidates the underlying modularity, a typical feature of complex biological data. It is related to biclustering and other data mining approaches. Importantly, DASS-GUI also allows handling of multi-sets and calculation of statistical significances. DASS-GUI contains tools for further analysis of the identified patterns: analysis of the pattern hierarchy, enrichment analysis, module validation, analysis of additional numerical data, easy handling of synonymous names, clustering, filtering and merging. Different export options allow easy usage of additional tools such as Cytoscape. [ABSTRACT FROM PUBLISHER]

Published

2010