Your search keyword '"Daniel Arend"' showing total 38 results

1. Mutation of the ALBOSTRIANS Ohnologous Gene HvCMF3 Impairs Chloroplast Development and Thylakoid Architecture in Barley

Author

Mingjiu Li, Goetz Hensel, Michael Melzer, Astrid Junker, Henning Tschiersch, Hannes Ruwe, Daniel Arend, Jochen Kumlehn, Thomas Börner, and Nils Stein

Subjects

albostrians, chloroplast biogenesis, chloroplast translation, Hordeum vulgare, photosynthesis, plant phenotyping, Plant culture, SB1-1110

Abstract

Gene pairs resulting from whole genome duplication (WGD), so-called ohnologous genes, are retained if at least one member of the pair undergoes neo- or sub-functionalization. Phylogenetic analyses of the ohnologous genes ALBOSTRIANS (HvAST/HvCMF7) and ALBOSTRIANS-LIKE (HvASL/HvCMF3) of barley (Hordeum vulgare) revealed them as members of a subfamily of genes coding for CCT motif (CONSTANS, CONSTANS-LIKE and TIMING OF CAB1) proteins characterized by a single CCT domain and a putative N-terminal chloroplast transit peptide. Recently, we showed that HvCMF7 is needed for chloroplast ribosome biogenesis. Here we demonstrate that mutations in HvCMF3 lead to seedlings delayed in development. They exhibit a yellowish/light green – xantha – phenotype and successively develop pale green leaves. Compared to wild type, plastids of mutant seedlings show a decreased PSII efficiency, impaired processing and reduced amounts of ribosomal RNAs; they contain less thylakoids and grana with a higher number of more loosely stacked thylakoid membranes. Site-directed mutagenesis of HvCMF3 identified a previously unknown functional domain, which is highly conserved within this subfamily of CCT domain containing proteins. HvCMF3:GFP fusion constructs were localized to plastids and nucleus. Hvcmf3Hvcmf7 double mutants exhibited a xantha-albino or albino phenotype depending on the strength of molecular lesion of the HvCMF7 allele. The chloroplast ribosome deficiency is discussed as the primary observed defect of the Hvcmf3 mutants. Based on our observations, the genes HvCMF3 and HvCMF7 have similar but not identical functions in chloroplast development of barley supporting our hypothesis of neo-/sub-functionalization between both ohnologous genes.

Published

2021

2. isa4j: a scalable Java library for creating ISA-Tab metadata [version 1; peer review: 2 approved]

Author

Dennis Psaroudakis, Feng Liu, Patrick König, Uwe Scholz, Astrid Junker, Matthias Lange, and Daniel Arend

Subjects

Medicine, Science

Abstract

Experimental data is only useful to other researchers if it is findable, accessible, interoperable, and reusable (FAIR). The ISA-Tab framework enables scientists to publish metadata about their experiments in a plain text, machine-readable format that aims to confer that interoperability and reusability. A Python software package (isatools) is currently being developed to programmatically produce these metadata files. For Java-based environments, there is no equivalent solution yet. While the isatools package provides a lot of flexibility and a wealth of different features for the Python ecosystem, a package for JVM-based applications might offer the speed and scalability needed for writing very large ISA-Tab files, making the ISA framework available in an even wider range of situations and environments. Here we present a light-weight and scalable Java library (isa4j) for generating metadata files in the ISA-Tab format, which elegantly integrates into existing JVM applications and especially shines at generating very large files. It is modeled after the ISA core specifications and designed in keeping with isatools conventions, making it consistent and intuitive to use for the community. isa4j is implemented in Java (JDK11+) and freely available under the terms of the MIT license from the Central Maven Repository (https://mvnrepository.com/artifact/de.ipk-gatersleben/isa4j). The source code, detailed documentation, usage examples and performance evaluations can be found at https://github.com/IPK-BIT/isa4j.

Published

2020

3. BRIDGE – A Visual Analytics Web Tool for Barley Genebank Genomics

Author

Patrick König, Sebastian Beier, Martin Basterrechea, Danuta Schüler, Daniel Arend, Martin Mascher, Nils Stein, Uwe Scholz, and Matthias Lange

Subjects

barley, plant genetic resources, genebank genomics, visual analytics, data visualization, phenotyping, Plant culture, SB1-1110

Abstract

Genebanks harbor a large treasure trove of untapped plant genetic diversity. A growing world population and a changing climate require an increase in the production and development of stress resistant plant cultivars while decreasing the acreage. These requirements for improved plant cultivars can be supported by the broader exploitation of plant genetic resources (PGR) as inputs for genomics-assisted breeding. To support this process we have developed BRIDGE, a data warehouse and exploratory data analysis tool for genebank genomics of barley (Hordeum vulgare L.). Using efficient technologies for data storage, data transfer and web development, we facilitate access to digital genebank resources of barley by prioritizing the interactive and visual analysis of integrated genotypic and phenotypic data. The underlying data resulted from a barley genebank genomics study cataloging sequence and morphological data of 22,626 barley accessions, mainly from the German Federal ex situ genebank. BRIDGE consists of interactively coupled modules to visualize integrated, curated and quality checked data, such as variation data, results of dimensionality reduction and genome wide association studies (GWAS), phenotyping results, passport data as well as the geographic distribution of germplasm samples. The core component is a manager for custom collections of germplasm. A search module to find and select germplasm by passport and phenotypic attributes is included as well as modules to export genotypic data in gzip-compressed variant call format (VCF) files and phenotypic data in MIAPPE-compliant ISA-Tab files. BRIDGE is accessible at the following URL: https://bridge.ipk-gatersleben.de.

Published

2020

4. Measures for interoperability of phenotypic data: minimum information requirements and formatting

Author

Hanna Ćwiek-Kupczyńska, Thomas Altmann, Daniel Arend, Elizabeth Arnaud, Dijun Chen, Guillaume Cornut, Fabio Fiorani, Wojciech Frohmberg, Astrid Junker, Christian Klukas, Matthias Lange, Cezary Mazurek, Anahita Nafissi, Pascal Neveu, Jan van Oeveren, Cyril Pommier, Hendrik Poorter, Philippe Rocca-Serra, Susanna-Assunta Sansone, Uwe Scholz, Marco van Schriek, Ümit Seren, Björn Usadel, Stephan Weise, Paul Kersey, and Paweł Krajewski

Subjects

Data standardisation and formatting, Experimental metadata, Minimum information recommendations, Plant phenotyping, Experiment description, Plant culture, SB1-1110, Biology (General), QH301-705.5

Abstract

Abstract Background Plant phenotypic data shrouds a wealth of information which, when accurately analysed and linked to other data types, brings to light the knowledge about the mechanisms of life. As phenotyping is a field of research comprising manifold, diverse and time-consuming experiments, the findings can be fostered by reusing and combining existing datasets. Their correct interpretation, and thus replicability, comparability and interoperability, is possible provided that the collected observations are equipped with an adequate set of metadata. So far there have been no common standards governing phenotypic data description, which hampered data exchange and reuse. Results In this paper we propose the guidelines for proper handling of the information about plant phenotyping experiments, in terms of both the recommended content of the description and its formatting. We provide a document called “Minimum Information About a Plant Phenotyping Experiment”, which specifies what information about each experiment should be given, and a Phenotyping Configuration for the ISA-Tab format, which allows to practically organise this information within a dataset. We provide examples of ISA-Tab-formatted phenotypic data, and a general description of a few systems where the recommendations have been implemented. Conclusions Acceptance of the rules described in this paper by the plant phenotyping community will help to achieve findable, accessible, interoperable and reusable data.

Published

2016

5. transPLANT Resources for Triticeae Genomic Data

Author

Manuel Spannagl, Michael Alaux, Matthias Lange, Daniel M. Bolser, Kai C. Bader, Thomas Letellier, Erik Kimmel, Raphael Flores, Cyril Pommier, Arnaud Kerhornou, Brandon Walts, Thomas Nussbaumer, Christoph Grabmuller, Jinbo Chen, Christian Colmsee, Sebastian Beier, Martin Mascher, Thomas Schmutzer, Daniel Arend, Anil Thanki, Ricardo Ramirez-Gonzalez, Martin Ayling, Sarah Ayling, Mario Caccamo, Klaus F.X. Mayer, Uwe Scholz, Delphine Steinbach, Hadi Quesneville, and Paul J. Kersey

Subjects

Plant culture, SB1-1110, Genetics, QH426-470

Abstract

The genome sequences of many important Triticeae species, including bread wheat ( L.) and barley ( L.), remained uncharacterized for a long time because their high repeat content, large sizes, and polyploidy. As a result of improvements in sequencing technologies and novel analyses strategies, several of these have recently been deciphered. These efforts have generated new insights into Triticeae biology and genome organization and have important implications for downstream usage by breeders, experimental biologists, and comparative genomicists. transPLANT () is an EU-funded project aimed at constructing hardware, software, and data infrastructure for genome-scale research in the life sciences. Since the Triticeae data are intrinsically complex, heterogenous, and distributed, the transPLANT consortium has undertaken efforts to develop common data formats and tools that enable the exchange and integration of data from distributed resources. Here we present an overview of the individual Triticeae genome resources hosted by transPLANT partners, introduce the objectives of transPLANT, and outline common developments and interfaces supporting integrated data access.

Published

2016

6. FAIRagro: Ein Konsortium in der Nationalen Forschungsdateninfrastruktur (NFDI) für Forschungsdaten in der Agrosystemforschung.

Author

Xenia Specka, Daniel Martini, Claus Weiland, Daniel Arend, Senthold Asseng, Franziska Boehm, Til Feike, Juliane Fluck, David Gackstetter, Aida Gonzales-Mellado, Thomas Hartmann, Jan-Henrik Haunert, Florian Hoedt, Carsten Hoffmann, Patrick König, Matthias Lange 0001, Stephan Lesch, Birte Lindstädt, Gunnar Lischeid, Markus Möller, Uwe Rascher, Jochen Christoph Reif, Markus Schmalzl, Matthias Senft, Ulrike Stahl, Nikolai Svoboda, Björn Usadel, Heidi Webber, and Frank Ewert

Published

2023

7. Schema.org as a Lightweight Harmonization Approach for NFDI.

Author

Leyla Jael Castro, Juliane Fluck, Daniel Arend, Matthias Lange 0001, Daniel Martini, Steffen Neumann, Sonja Schimmler, and Dietrich Rebholz-Schuhmann

Published

2023

8. On the roles of function and selection in evolving systems

Author

Michael L. Wong, Carol E. Cleland, Daniel Arend, Stuart Bartlett, H. James Cleaves, Heather Demarest, Anirudh Prabhu, Jonathan I. Lunine, and Robert M. Hazen

Published

2023

9. On the way to plant data commons - a genotyping use case.

Author

Manuel Feser, Patrick König, Anne Fiebig, Daniel Arend, Matthias Lange 0001, and Uwe Scholz

Published

2022

10. Implementing FAIR data management within the German Network for Bioinformatics Infrastructure (de.NBI) exemplified by selected use cases.

Author

Gerhard Mayer, Wolfgang Müller 0001, Karin Schork, Julian Uszkoreit, Andreas Weidemann, Ulrike Wittig, Maja Rey, Christian Quast, Janine Felden, Frank Oliver Glöckner, Matthias Lange 0001, Daniel Arend, Sebastian Beier, Astrid Junker, Uwe Scholz, Danuta Schüler, Hans A. Kestler, Daniel Wibberg, Alfred Pühler, Sven Twardziok, Jürgen Eils, Roland Eils, Steve Hoffmann, Martin Eisenacher, and Michael Turewicz

Published

2021

11. Programmatic Access to FAIRified Digital Plant Genetic Resources.

Author

Mehmood Ghaffar, Danuta Schüler, Patrick König, Daniel Arend, Astrid Junker, Uwe Scholz, and Matthias Lange 0001

Published

2019

12. Data Management Experiences and Best Practices from the Perspective of a Plant Research Institute.

Author

Daniel Arend, Christian Colmsee, Helmut Knüpffer, Markus Oppermann, Uwe Scholz, Danuta Schüler, Stephan Weise, and Matthias Lange 0001

Published

2014

13. Improving Metadata Collection and Aggregation in Plant Phenotyping Experiments with MIAPPE Wizard and DataPLANT

Author

Daniel Arend, Sebastian Beier, Dominik Brilhaus, Hannah Dörpholz, Manuel Feser, Kevin Frey, Patrick König, Oliver Maus, Dennis Psaroudakis, Cristina Martins Rodrigues, Andrea Schrader, Elisa Senger, and Heinrich Lukas Weil

Abstract

As part of the BioHackathon Germany 2022, we hereby report on the success of the two projects “MIAPPE Wizard: Enabling easy creation of MIAPPE-compliant ISA metadata for Plant Phenotyping Experiments” and “DataPLANT - Facilitating Research Data Management to combat the reproducibility crisis”. Shortly before the actual hackathon, it became apparent to the participants that close coordination between the projects would be very beneficial. Both projects aimed to improve the process of collecting and aggregating metadata on plant experiments, but with different approaches.

Published

2023

14. The e!DAL JAVA-API: Store, share and cite primary data in life sciences.

Author

Daniel Arend, Matthias Lange 0001, Christian Colmsee, Steffen Flemming, Jinbo Chen, and Uwe Scholz

Published

2012

15. Predicting miRNA targets utilizing an Extended Profile HMM.

Author

Jan Grau, Daniel Arend, Ivo Grosse, Artemis G. Hatzigeorgiou, Jens Keilwagen, Manolis Maragkakis, Claus Weinholdt, and Stefan Posch

Published

2010

16. PGP repository: a plant phenomics and genomics data publication infrastructure.

Author

Daniel Arend, Astrid Junker, Uwe Scholz, Danuta Schüler, Juliane Wylie, and Matthias Lange 0001

Published

2016

17. From Genotypes to Phenotypes: A Plant Perspective on Current Developments in Data Management and Data Publication

Author

Daniel Arend, Sebastian Beier, Patrick König, Matthias Lange, Junaid A. Memon, Markus Oppermann, Uwe Scholz, and Stephan Weise

Published

2022

18. Implementing FAIR data management within the German Network for Bioinformatics Infrastructure (de.NBI) exemplified by selected use cases

Author

Christian Quast, Ulrike Wittig, Roland Eils, Uwe Scholz, Sebastian Beier, Gerhard Mayer, Karin Schork, Sven Twardziok, Astrid Junker, Julian Uszkoreit, Alfred Pühler, Jürgen Eils, Daniel Wibberg, Andreas Weidemann, Danuta Schüler, Martin Eisenacher, Janine Felden, Wolfgang Müller, Michael Turewicz, Maja Rey, Hans A. Kestler, Matthias Lange, Frank Oliver Glöckner, Steve Hoffmann, and Daniel Arend

Subjects

Proteomics, Self-assessment, Self-Assessment, Service (systems architecture), AcademicSubjects/SCI01060, Proteome, Computer science, International Cooperation, Data management, Interoperability, Bioinformatics, Workflow, de.NBI, 03 medical and health sciences, 0302 clinical medicine, Software, Humans, Use case, Molecular Biology, 030304 developmental biology, Metadata, 0303 health sciences, Case Study, FAIR principles, Genome, Human, business.industry, High-Throughput Nucleotide Sequencing, data maturity, Plants, Phenotype, hourglass model, data management, Neural Networks, Computer, business, 030217 neurology & neurosurgery, Information Systems

Abstract

This article describes some use case studies and self-assessments of FAIR status of de.NBI services to illustrate the challenges and requirements for the definition of the needs of adhering to the FAIR (findable, accessible, interoperable and reusable) data principles in a large distributed bioinformatics infrastructure. We address the challenge of heterogeneity of wet lab technologies, data, metadata, software, computational workflows and the levels of implementation and monitoring of FAIR principles within the different bioinformatics sub-disciplines joint in de.NBI. On the one hand, this broad service landscape and the excellent network of experts are a strong basis for the development of useful research data management plans. On the other hand, the large number of tools and techniques maintained by distributed teams renders FAIR compliance challenging.

Published

2021

19. Mutation of the ALBOSTRIANS ohnologous gene HvCMF3 impairs chloroplast development and thylakoid architecture in barley

Author

Michael Melzer, Daniel Arend, Jochen Kumlehn, Thomas Börner, Nils Stein, Mingjiu Li, Henning Tschiersch, Astrid Junker, Hannes Ruwe, and Goetz Hensel

Subjects

0106 biological sciences, Mutant, 570 Biologie, Plant Science, chloroplast translation, photosynthesis, reverse genetics, albostrians-like, plant phenotyping, rRNA processing, Hordeum vulgare, albostrians, chloroplast biogenesis, Biology, 01 natural sciences, SB1-1110, Chloroplast ribosome, 03 medical and health sciences, ddc:570, RRNA processing, Gene, Original Research, 030304 developmental biology, 2. Zero hunger, 0303 health sciences, Wild type, food and beverages, Plant culture, Cell biology, Chloroplast, Thylakoid, 010606 plant biology & botany

Abstract

Gene pairs resulting from whole genome duplication (WGD), so-called ohnologous genes, are retained if at least one member of the pair undergoes neo- or sub-functionalization. Phylogenetic analyses of the ohnologous genes ALBOSTRIANS (HvAST/HvCMF7) and ALBOSTRIANS-LIKE (HvASL/HvCMF3) of barley (Hordeum vulgare) revealed them as members of a subfamily of genes coding for CCT motif (CONSTANS, CONSTANS-LIKE and TIMING OF CAB1) proteins characterized by a single CCT domain and a putative N-terminal chloroplast transit peptide. Recently, we showed that HvCMF7 is needed for chloroplast ribosome biogenesis. Here we demonstrate that mutations in HvCMF3 lead to seedlings delayed in development. They exhibit a yellowish/light green – xantha – phenotype and successively develop pale green leaves. Compared to wild type, plastids of mutant seedlings show a decreased PSII efficiency, impaired processing and reduced amounts of ribosomal RNAs; they contain less thylakoids and grana with a higher number of more loosely stacked thylakoid membranes. Site-directed mutagenesis of HvCMF3 identified a previously unknown functional domain, which is highly conserved within this subfamily of CCT domain containing proteins. HvCMF3:GFP fusion constructs were localized to plastids and nucleus. Hvcmf3Hvcmf7 double mutants exhibited a xantha-albino or albino phenotype depending on the strength of molecular lesion of the HvCMF7 allele. The chloroplast ribosome deficiency is discussed as the primary observed defect of the Hvcmf3 mutants. Based on our observations, the genes HvCMF3 and HvCMF7 have similar but not identical functions in chloroplast development of barley supporting our hypothesis of neo-/sub-functionalization between both ohnologous genes.

Published

2021

20. isa4j: a scalable Java library for creating ISA-Tab metadata

Author

Feng Liu, Patrick König, Daniel Arend, Matthias Lange, Dennis Psaroudakis, Astrid Junker, and Uwe Scholz

Subjects

0106 biological sciences, 0301 basic medicine, Source code, Java, Computer science, media_common.quotation_subject, Writing, Interoperability, reproducible research, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, ISA-Tab, framework, General Pharmacology, Toxicology and Pharmaceutics, MIT License, media_common, computer.programming_language, Object-oriented programming, Metadata, FAIR data, General Immunology and Microbiology, Plain text, business.industry, Software Tool Article, object-oriented programming, General Medicine, computer.file_format, Articles, Python (programming language), 030104 developmental biology, Software engineering, business, computer, Software, 010606 plant biology & botany

Abstract

Experimental data is only useful to other researchers if it is findable, accessible, interoperable, and reusable (FAIR). The ISA-Tab framework enables scientists to publish metadata about their experiments in a plain text, machine-readable format that aims to confer that interoperability and reusability. A Python software package (isatools) is currently being developed to programmatically produce these metadata files. For Java-based environments, there is no equivalent solution yet. While the isatools package provides a lot of flexibility and a wealth of different features for the Python ecosystem, a package for JVM-based applications might offer the speed and scalability needed for writing very large ISA-Tab files, making the ISA framework available in an even wider range of situations and environments. Here we present a light-weight and scalable Java library (isa4j) for generating metadata files in the ISA-Tab format, which elegantly integrates into existing JVM applications and especially shines at generating very large files. It is modeled after the ISA core specifications and designed in keeping with isatools conventions, making it consistent and intuitive to use for the community. isa4j is implemented in Java (JDK11+) and freely available under the terms of the MIT license from the Central Maven Repository (https://mvnrepository.com/artifact/de.ipk-gatersleben/isa4j). The source code, detailed documentation, usage examples and performance evaluations can be found at https://github.com/IPK-BIT/isa4j.

Published

2020

21. The on-premise data sharing infrastructure e!DAL: Foster FAIR data for faster data acquisition

Author

Uwe Scholz, Astrid Junker, Matthias Lange, Daniel Arend, and Patrick König

Subjects

Service (systems architecture), Databases, Factual, Computer science, Data management, AcademicSubjects/SCI02254, Health Informatics, digital object identifier, Dark data, Disk formatting, Technical Note, computer.programming_language, FAIR principles, business.industry, Information Dissemination, Data domain, Data discovery, Genomics, Plants, Data science, Computer Science Applications, Data sharing, AcademicSubjects/SCI00960, Elixir (programming language), research data management, business, plant genomics and phenomics, computer, Software

Abstract

Background The FAIR data principle as a commitment to support long-term research data management is widely accepted in the scientific community. Although the ELIXIR Core Data Resources and other established infrastructures provide comprehensive and long-term stable services and platforms for FAIR data management, a large quantity of research data is still hidden or at risk of getting lost. Currently, high-throughput plant genomics and phenomics technologies are producing research data in abundance, the storage of which is not covered by established core databases. This concerns the data volume, e.g., time series of images or high-resolution hyper-spectral data; the quality of data formatting and annotation, e.g., with regard to structure and annotation specifications of core databases; uncovered data domains; or organizational constraints prohibiting primary data storage outside institional boundaries. Results To share these potentially dark data in a FAIR way and master these challenges the ELIXIR Germany/de.NBI service Plant Genomic and Phenomics Research Data Repository (PGP) implements a “bring the infrastructure to the data” approach, which allows research data to be kept in place and wrapped in a FAIR-aware software infrastructure. This article presents new features of the e!DAL infrastructure software and the PGP repository as a best practice on how to easily set up FAIR-compliant and intuitive research data services. Furthermore, the integration of the ELIXIR Authentication and Authorization Infrastructure (AAI) and data discovery services are introduced as means to lower technical barriers and to increase the visibility of research data. Conclusion The e!DAL software matured to a powerful and FAIR-compliant infrastructure, while keeping the focus on flexible setup and integration into existing infrastructures and into the daily research process.

Published

2020

22. Enabling reusability of plant phenomic datasets with MIAPPE 1.1

Author

François Tardieu, Cyril Pommier, Célia Michotey, Bruno Costa, Stephan Weise, Bert Droesbeke, Graham J.W. King, Astrid Junker, Philippe Rocca-Serra, Guillaume Cornut, Hanna Ćwiek-Kupczyńska, Markus Oppermann, Célia Miguel, Daniel Faria, Björn Usadel, Cristobal Uauy, Paweł Krajewski, Jochen C. Reif, Susanna-Assunta Sansone, Živa Ramšak, Uwe Scholz, Richard G. F. Visser, Evangelia Papoutsoglou, Ioannis N. Athanasiadis, Daniel Arend, Inês Chaves, Hendrik Poorter, Richard Finkers, Marie-Angélique Laporte, Kristina Gruden, Elizabeth Arnaud, Ricardo H. Ramirez-Gonzalez, Paul J. Kersey, Anne-Françoise Adam-Blondon, Frederik Coppens, Richard Ostler, Matthias Lange, Wageningen University and Research [Wageningen] (WUR), Instituto Gulbenkian de Ciência [Oeiras] (IGC), Fundação Calouste Gulbenkian, Instituto de Engenharia de Sistemas e Computadores (INESC), Leibniz Institute of Plant Genetics and Crop Plant Research [Gatersleben] (IPK-Gatersleben), Bioversity International [Montpellier], Bioversity International [Rome], Consultative Group on International Agricultural Research [CGIAR] (CGIAR)-Consultative Group on International Agricultural Research [CGIAR] (CGIAR), Geo-Information Science and Remote Sensing Laboratory, Instituto de Tecnologia Química e Biológica António Xavier (ITQB), Universidade Nova de Lisboa = NOVA University Lisbon (NOVA), Instituto de Biologia Experimental e Tecnológica (IBET), Department of plant Biotechnology and Bioinformatics, University of Gent, VIBUGent Center for Plant Systems Biology, Unité de Recherche Génomique Info (URGI), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), BioISI, Universidade de Lisboa (ULISBOA), Polish Academy of Sciences, Institute of Plant Genetics, Department of Integrative Plant Biology, Partenaires INRAE, Department of Biotechnology and Systems Biology, National Institute of Biology [Ljubljana] (NIB), Southern Cross Plant Science, Southern Cross University (SCU), Computational and Analytical Sciences, Rothamsted Research, Forschungszentrum Jülich GmbH | Centre de recherche de Juliers, Helmholtz-Gemeinschaft = Helmholtz Association, University North Ryde, John Innes Centre [Norwich], University of Oxford [Oxford], Écophysiologie des Plantes sous Stress environnementaux (LEPSE), Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), RWTH Aachen University, Royal Botanic Gardens, Kew Richmond, European Project: 676559,H2020,H2020-INFRADEV-1-2015-1,ELIXIR-EXCELERATE(2015), European Project: 739514,EMPHASIS-PREP, European Project: 634107,H2020,H2020-PHC-2014-two-stage,MULTIMOT(2015), European Project: 654241,H2020,H2020-EINFRA-2014-2,PhenoMeNal(2015), Universiteit Gent = Ghent University (UGENT), Universidade de Lisboa = University of Lisbon (ULISBOA), Biotechnology and Biological Sciences Research Council (BBSRC)-Biotechnology and Biological Sciences Research Council (BBSRC), Biotechnology and Biological Sciences Research Council (BBSRC), University of Oxford, Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro - Montpellier SupAgro, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), and Rheinisch-Westfälische Technische Hochschule Aachen University (RWTH)

Subjects

0106 biological sciences, 0301 basic medicine, Computer science, Physiology, Interoperability, [SDV.SA.AGRO]Life Sciences [q-bio]/Agricultural sciences/Agronomy, WASS, interoperability, Plant Science, MINIMUM INFORMATION, 01 natural sciences, Domain (software engineering), law.invention, 03 medical and health sciences, plant phenotyping, Laboratorium voor Plantenveredeling, Knowledge extraction, Laboratory of Geo-information Science and Remote Sensing, law, Methods, [SDV.BV]Life Sciences [q-bio]/Vegetal Biology, Laboratorium voor Geo-informatiekunde en Remote Sensing, Implementation, Reusability, Research, metadata, Biology and Life Sciences, phenomics, Plants, findability, PE&RC, Data science, ONTOLOGIES, Metadata, Plant Breeding, 030104 developmental biology, ddc:580, Data model, VOCABULARY, CLARITY, reusability, standards, EPS, 010606 plant biology & botany, REPOSITORY

Abstract

The new phytologist 227(1), 260-273 (2020). doi:10.1111/nph.16544, Published by Wiley-Blackwell, Oxford [u.a.]

Published

2020

23. BRIDGE – A Visual Analytics Web Tool for Barley Genebank Genomics

Author

Martin Mascher, Uwe Scholz, Nils Stein, Sebastian Beier, Patrick König, Danuta Schüler, Matthias Lange, Daniel Arend, and Martin Basterrechea

Subjects

0106 biological sciences, 0301 basic medicine, Germplasm, phenotyping, Computer science, plant genetic resources, data warehouse, Genomics, Plant Science, visual analytics, lcsh:Plant culture, computer.software_genre, 01 natural sciences, 03 medical and health sciences, Data visualization, data visualization, lcsh:SB1-1110, Original Research, 2. Zero hunger, Genetic diversity, Variant Call Format, Database, business.industry, barley, 15. Life on land, Data warehouse, Exploratory data analysis, 030104 developmental biology, genotyping, Hordeum vulgare, business, genebank genomics, computer, 010606 plant biology & botany

Abstract

Genebanks harbor a large treasure trove of untapped plant genetic diversity. A growing world population and a changing climate require an increase in the production and development of stress resistant plant cultivars while decreasing the acreage. These requirements for improved plant cultivars can be supported by the broader exploitation of plant genetic resources (PGR) as inputs for genomics-assisted breeding. To support this process we have developed BRIDGE, a data warehouse and exploratory data analysis tool for genebank genomics of barley (Hordeum vulgare L.). Using efficient technologies for data storage, data transfer and web development, we facilitate access to digital genebank resources of barley by prioritizing the interactive and visual analysis of integrated genotypic and phenotypic data. The underlying data resulted from a barley genebank genomics study cataloging sequence and morphological data of 22,626 barley accessions, mainly from the German Federal ex situ genebank. BRIDGE consists of interactively coupled modules to visualize integrated, curated and quality checked data, such as variation data, results of dimensionality reduction and genome wide association studies (GWAS), phenotyping results, passport data as well as the geographic distribution of germplasm samples. The core component is a manager for custom collections of germplasm. A search module to find and select germplasm by passport and phenotypic attributes is included as well as modules to export genotypic data in gzip-compressed variant call format (VCF) files and phenotypic data in MIAPPE-compliant ISA-Tab files. BRIDGE is accessible at the following URL: https://bridge.ipk-gatersleben.de.

Published

2020

24. e!DAL - a framework to store, share and publish research data.

Author

Daniel Arend, Matthias Lange 0001, Jinbo Chen, Christian Colmsee, Steffen Flemming, Denny Hecht, and Uwe Scholz

Published

2014

25. Bioinformatics in the plant genomic and phenomic domain: The German contribution to resources, services and perspectives

Author

Thomas Schmutzer, Markus Oppermann, Stephan Weise, Manuel Spannagl, Marie E. Bolger, Klaus F. X. Mayer, Jinbo Chen, Matthias Lange, Heidrun Gundlach, Stephen Rudd, Uwe Scholz, Daniel Arend, and Björn Usadel

Subjects

0301 basic medicine, Germplasm, Genotype, Bioengineering, Plant Bioinformatics, Plant Data Publication, Plant Genetic Resources, Plant Genomics, Plant Phenomics, Biology, Bioinformatics, Applied Microbiology and Biotechnology, Domain (software engineering), German, 03 medical and health sciences, Databases, Genetic, Plant breeding, Genomics, General Medicine, Gene Annotation, Plants, Data resources, language.human_language, Phenotype, 030104 developmental biology, Workflow, ddc:540, language, ComputingMethodologies_GENERAL, Genome, Plant, Software, Plant genomics, Biotechnology

Abstract

Journal of biotechnology 261, 37-45 (2017). doi:10.1016/j.jbiotec.2017.07.006 special issue: "Bioinformatics Solutions for Big Data Analysis in Life Sciences presented by the German Network for Bioinformatics Infrastructure / Edited by Alf Puehler", Published by Elsevier Science, Amsterdam [u.a.]

Published

2017

26. Programmatic Access to FAIRified Digital Plant Genetic Resources

Author

Matthias Lange, Daniel Arend, Mehmood Ghaffar, Danuta Schüler, Astrid Junker, Patrick König, and Uwe Scholz

Subjects

0106 biological sciences, phenotyping, Information Management, Computer science, Interoperability, Population, Context (language use), 01 natural sciences, fair data, User-Computer Interface, 03 medical and health sciences, Component (UML), Databases, Genetic, education, Implementation, Research Articles, 030304 developmental biology, Internet, 0303 health sciences, education.field_of_study, Computational Biology, General Medicine, Variance (accounting), Plants, lab information management, Data science, Plant Breeding, Phenotype, genotyping, Seeds, Scalability, Programming Languages, plant digital resources, Stewardship, TP248.13-248.65, Biotechnology, 010606 plant biology & botany

Abstract

Genetic variance within the genotype of population and its mapping to phenotype variance in a systematic and high throughput manner is of interest for biodiversity and breeding research. Beside the established and efficient high throughput genotype technologies, phenotype capabilities got increased focus in the last decade. This results in an increasing amount of phenotype data from well scaling, automated sensor platform. Thus, data stewardship is a central component to make experimental data from multiple domains interoperable and re-usable. To ensure a standard and comprehensive sharing of scientific and experimental data among domain experts, FAIR data principles are utilized for machine read-ability and scale-ability. In this context, BrAPI consortium, provides a comprehensive and commonly agreed FAIRed guidelines to offer a BrAPI layered scientific data in a RESTful manner. This paper presents the concepts, best practices and implementations to meet these challenges. As one of the worlds leading plant research institutes it is of vital interest for the IPK-Gatersleben to transform legacy data infrastructures into a bio-digital resource center for plant genetics resources (PGR). This paper also demonstrates the benefits of integrated database back-ends, established data stewardship processes, and FAIR data exposition in a machine-readable, highly scalable programmatic interfaces.

Published

2019

27. Mutation of the ALBOSTRIANS Ohnologous Gene HvCMF3 Impairs Chloroplast Development and Thylakoid Architecture in Barley due to Reduced Plastid Translation

Author

Michael Melzer, Mingjiu Li, Astrid Junker, Goetz Hensel, Henning Tschiersch, Daniel Arend, Nils Stein, Jochen Kumlehn, and T. Boerner

Subjects

2. Zero hunger, 0106 biological sciences, Genetics, 0303 health sciences, Subfamily, Mutant, food and beverages, Biology, 01 natural sciences, Plastid translation, Chloroplast ribosome, Chloroplast, 03 medical and health sciences, Thylakoid, Subfunctionalization, Hordeum vulgare, 030304 developmental biology, 010606 plant biology & botany

Abstract

Gene pairs resulting from whole genome duplication (WGD), so-called ohnologous genes, are retained only if at least one gene of the pair undergoes neo- or subfunctionalization. Sequence-based phylogenetic analyses of the ohnologous genes ALBOSTRIANS (HvAST/HvCMF7) and ALBOSTRIANS-LIKE (HvASL/HvCMF3) of barley (Hordeum vulgare) revealed that they belong to a newly identified subfamily of genes encoding CCT domain proteins with putative N-terminal chloroplast transit peptides. Recently, we showed that HvCMF7 is needed for chloroplast ribosome biogenesis. Here we demonstrate that mutations in HvCMF3 lead to seedlings delayed in development. They exhibit a xantha phenotype and successively develop pale green leaves. Compared to the wild type, plastids of the mutant seedlings show decreased PSII efficiency and lower amounts of ribosomal RNAs; they contain less thylakoids and grana with a higher number of more loosely stacked thylakoid membranes. Site-directed mutagenesis of HvCMF3 identified a previously unknown functional region, which is highly conserved within this subfamily of CCT domain containing proteins. HvCMF3:GFP fusion constructs localized to plastids. Hvcmf3Hvcmf7 double mutants indicated epistatic activity of HvCMF7 over HvCMF3. The chloroplast ribosome deficiency is discussed as the primary defect of the Hvcmf3 mutants. Our data suggests that HvCMF3 and HvCMF7 have similar but not identical functions.One-sentence summaryPhylogenetic and mutant analyses of the barley protein HvCMF3 (ALBOSTRIANS-LIKE) identified, in higher plants, a subfamily of CCT domain proteins with essential function in chloroplast development.

Published

2019

28. Unbalanced historical phenotypic data from seed regeneration of a barley ex situ collection

Author

Andreas Börner, Jochen C. Reif, Norman Philipp, Stephan Weise, Yusheng Zhao, Albert W. Schulthess, Daniel Arend, Maria Y. Gonzalez, Markus Oppermann, and Andreas Graner

Subjects

0301 basic medicine, Statistics and Probability, Agricultural genetics, Data Descriptor, Population, Genomics, Biology, Library and Information Sciences, Plant breeding, Education, Crop, 03 medical and health sciences, Genetic variation, Regeneration (ecology), education, education.field_of_study, Genetic diversity, business.industry, food and beverages, Genetic Variation, Hordeum, Phenotype, Biotechnology, Computer Science Applications, 030104 developmental biology, Biological Variation, Population, Agriculture, Seeds, Statistics, Probability and Uncertainty, business, Plant sciences, Information Systems

Abstract

The scarce knowledge on phenotypic characterization restricts the usage of genetic diversity of plant genetic resources in research and breeding. We describe original and ready-to-use processed data for approximately 60% of ~22,000 barley accessions hosted at the Federal ex situ Genebank for Agricultural and Horticultural Plant Species. The dataset gathers records for three traits with agronomic relevance: flowering time, plant height and thousand grain weight. This information was collected for seven decades for winter and spring barley during the seed regeneration routine. The curated data represent a source for research on genetics and genomics of adaptive and yield related traits in cereals due to the importance of barley as model organism. This data could be used to predict the performance of non-phenotyped individuals in other collections through genomic prediction. Moreover, the dataset empowers the utilization of phenotypic diversity of genetic resources for crop improvement.

Published

2018

29. Predicting plant biomass accumulation from image-derived parameters

Author

Rongli Shi, Ming Chen, Dijun Chen, Christian Klukas, Daniel Arend, Jean-Michel Pape, Andreas Graner, and Kerstin Neumann

Subjects

0106 biological sciences, 0301 basic medicine, Crops, Agricultural, Decision tree, Biomass, Health Informatics, Image processing, Biology, 01 natural sciences, Bottleneck, 03 medical and health sciences, Imaging, Three-Dimensional, Stress, Physiological, Image Processing, Computer-Assisted, Background image, 2. Zero hunger, biomass, Research, fungi, Decision Trees, food and beverages, barley, Hordeum, phenomics, modeling, 15. Life on land, Computer Science Applications, Random forest, Droughts, 030104 developmental biology, Phenotype, Plant species, high-throughput phenotyping, Biochemical engineering, Hordeum vulgare, Algorithms, 010606 plant biology & botany

Abstract

Background Image-based high-throughput phenotyping technologies have been rapidly developed in plant science recently, and they provide a great potential to gain more valuable information than traditionally destructive methods. Predicting plant biomass is regarded as a key purpose for plant breeders and ecologists. However, it is a great challenge to find a predictive biomass model across experiments. Results In the present study, we constructed 4 predictive models to examine the quantitative relationship between image-based features and plant biomass accumulation. Our methodology has been applied to 3 consecutive barley (Hordeum vulgare) experiments with control and stress treatments. The results proved that plant biomass can be accurately predicted from image-based parameters using a random forest model. The high prediction accuracy based on this model will contribute to relieving the phenotyping bottleneck in biomass measurement in breeding applications. The prediction performance is still relatively high across experiments under similar conditions. The relative contribution of individual features for predicting biomass was further quantified, revealing new insights into the phenotypic determinants of the plant biomass outcome. Furthermore, methods could also be used to determine the most important image-based features related to plant biomass accumulation, which would be promising for subsequent genetic mapping to uncover the genetic basis of biomass. Conclusions We have developed quantitative models to accurately predict plant biomass accumulation from image data. We anticipate that the analysis results will be useful to advance our views of the phenotypic determinants of plant biomass outcome, and the statistical methods can be broadly used for other plant species.

Published

2017

30. Quantitative monitoring of Arabidopsis thaliana growth and development using high-throughput plant phenotyping

Author

Daniel, Arend, Matthias, Lange, Jean-Michel, Pape, Kathleen, Weigelt-Fischer, Fernando, Arana-Ceballos, Ingo, Mücke, Christian, Klukas, Thomas, Altmann, Uwe, Scholz, and Astrid, Junker

Subjects

Arabidopsis Proteins, Arabidopsis, food and beverages, Computational Biology, Information Storage and Retrieval, Plant Development, Reproducibility of Results, Genomics, Plant Science, Plants, maize, Plant Roots, Plant Leaves, Phenotype, automated high-throughput plant phenotyping, image analysis, Image Processing, Computer-Assisted, Growth and Development, Original Research Article, plant growth protocol, Genome, Plant, Plant Shoots, Software

Abstract

Detailed and standardized protocols for plant cultivation in environmentally controlled conditions are an essential prerequisite to conduct reproducible experiments with precisely defined treatments. Setting up appropriate and well defined experimental procedures is thus crucial for the generation of solid evidence and indispensable for successful plant research. Non-invasive and high throughput (HT) phenotyping technologies offer the opportunity to monitor and quantify performance dynamics of several hundreds of plants at a time. Compared to small scale plant cultivations, HT systems have much higher demands, from a conceptual and a logistic point of view, on experimental design, as well as the actual plant cultivation conditions, and the image analysis and statistical methods for data evaluation. Furthermore, cultivation conditions need to be designed that elicit plant performance characteristics corresponding to those under natural conditions. This manuscript describes critical steps in the optimization of procedures for HT plant phenotyping systems. Starting with the model plant Arabidopsis, HT-compatible methods were tested, and optimized with regard to growth substrate, soil coverage, watering regime, experimental design (considering environmental inhomogeneities) in automated plant cultivation and imaging systems. As revealed by metabolite profiling, plant movement did not affect the plants' physiological status. Based on these results, procedures for maize HT cultivation and monitoring were established. Variation of maize vegetative growth in the HT phenotyping system did match well with that observed in the field. The presented results outline important issues to be considered in the design of HT phenotyping experiments for model and crop plants. It thereby provides guidelines for the setup of HT experimental procedures, which are required for the generation of reliable and reproducible data of phenotypic variation for a broad range of applications.

Published

2016

31. Measures for interoperability of phenotypic data: minimum information requirements and formatting

Author

Dijun Chen, Paul J. Kersey, Thomas Altmann, Daniel Arend, Jan van Oeveren, Marco van Schriek, Wojciech Frohmberg, Paweł Krajewski, Björn Usadel, Uwe Scholz, Fabio Fiorani, Philippe Rocca-Serra, Hanna Ćwiek-Kupczyńska, Matthias Lange, Cyril Pommier, Christian Klukas, Astrid Junker, Hendrik Poorter, Pascal Neveu, Stephan Weise, Ümit Seren, Susanna-Assunta Sansone, Elizabeth Arnaud, Cezary Mazurek, Anahita Nafissi, Guillaume Cornut, Leibniz Institute of Plant Genetics and Crop Plant Research, Leibniz Association, Partenaires INRAE, Agropolis International, Institute for Biochemistry and Biology, University of Potsdam = Universität Potsdam, Unité de Recherche Génomique Info (URGI), Institut National de la Recherche Agronomique (INRA), Forschungszentrum Jülich GmbH | Centre de recherche de Juliers, Helmholtz-Gemeinschaft = Helmholtz Association, Institute of Plant Genetics, Institute of Computing Science, Poznan University of Technology (PUT), LemnaTec GmbH, Institute of Bioorganic Chemistry PAS, Mathématiques, Informatique et STatistique pour l'Environnement et l'Agronomie (MISTEA), Institut National de la Recherche Agronomique (INRA)-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Keygene N.V., University of Oxford, Institute of Biology, European Molecular Biology Laboratory (EMBL), German Federal Ministry of Education and Research (BMBF) : 031A053A/B/C, Infrastructure Biologie Sante 'Phenome-FPPN' - National Research Agency, 'Programme d'Investissements d'Avenir' (PIA) : ANR-11-INBS-0012, European Project: 283496,EC:FP7:INFRA,FP7-INFRASTRUCTURES-2011-2,TRANSPLANT(2011), University of Potsdam, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), and University of Oxford [Oxford]

Subjects

0106 biological sciences, 0301 basic medicine, data standardisation and formatting, experiment description, experimental metadata, minimum information recommendations, plant phenotyping, Computer science, Bioinformatics, Interoperability, Plant Science, lcsh:Plant culture, 01 natural sciences, Data type, Field (computer science), Data standardisation and formatting, Set (abstract data type), 03 medical and health sciences, Disk formatting, Genetics, [SDV.BV]Life Sciences [q-bio]/Vegetal Biology, lcsh:SB1-1110, lcsh:QH301-705.5, Institut für Biochemie und Biologie, Thesaurus (information retrieval), Information retrieval, Vegetal Biology, Minimum information recommendations, Methodology, Data science, Metadata, 030104 developmental biology, ddc:580, lcsh:Biology (General), Data exchange, Bio-informatique, [INFO.INFO-BI]Computer Science [cs]/Bioinformatics [q-bio.QM], Experimental metadata, Plant phenotyping, Experiment description, Biologie végétale, 010606 plant biology & botany, Biotechnology

Abstract

Plant methods 12(1), 44 (2016). doi:10.1186/s13007-016-0144-4, Published by BioMed Central, London

Published

2016

32. e!DAL--a framework to store, share and publish research data

Author

Uwe Scholz, Christian Colmsee, Matthias Lange, Daniel Arend, Steffen Flemming, Denny Hecht, and Jinbo Chen

Subjects

Databases, Factual, Computer science, Big data, Research data management, Metadata annotation, computer.software_genre, Biochemistry, World Wide Web, Documentation, Data publication, Structural Biology, Metadata management, Molecular Biology, business.industry, Information Dissemination, JAVA API, Applied Mathematics, Computer Science Applications, Software framework, Data access, Publishing, Data quality, Persistent identifier, Data center, business, computer, Software, Shared repositories

Abstract

The life-science community faces a major challenge in handling “big data”, highlighting the need for high quality infrastructures capable of sharing and publishing research data. Data preservation, analysis, and publication are the three pillars in the “big data life cycle”. The infrastructures currently available for managing and publishing data are often designed to meet domain-specific or project-specific requirements, resulting in the repeated development of proprietary solutions and lower quality data publication and preservation overall. e!DAL is a lightweight software framework for publishing and sharing research data. Its main features are version tracking, metadata management, information retrieval, registration of persistent identifiers (DOI), an embedded HTTP(S) server for public data access, access as a network file system, and a scalable storage backend. e!DAL is available as an API for local non-shared storage and as a remote API featuring distributed applications. It can be deployed “out-of-the-box” as an on-site repository. e!DAL was developed based on experiences coming from decades of research data management at the Leibniz Institute of Plant Genetics and Crop Plant Research (IPK). Initially developed as a data publication and documentation infrastructure for the IPK’s role as a data center in the DataCite consortium, e!DAL has grown towards being a general data archiving and publication infrastructure. The e!DAL software has been deployed into the Maven Central Repository. Documentation and Software are also available at: http://edal.ipk-gatersleben.de .

Published

2014

33. Data Management Experiences and Best Practices from the Perspective of a Plant Research Institute

Author

Danuta Schüler, Markus Oppermann, Matthias Lange, Stephan Weise, Helmut Knüpffer, Uwe Scholz, Christian Colmsee, and Daniel Arend

Subjects

Dry lab, Knowledge management, Computer science, Test data generation, business.industry, Best practice, Data management, Hierarchical storage management, Big data, Software development, business, Desk

Abstract

Research in life sciences faces increasing amounts of cross-domain data, also kown as “big data”. This has notable effects on IT-departments and the dry lab desk alike. In this paper, we report on experiences from a decade of data management in a plant research institute. We explain the switch from personally managed files and heterogeneous information systems towards a centrally organised storage management. In particular, we discuss lessons that were learned within the last decade of productive research, data generation and software development from the perspective of a modern plant research institute and present the results of a strategic realignment of the data management infrastructure. Finally, we summarise the challenges which were solved and the questions which are still open.

Published

2014

34. The e!DAL JAVA-API: Store, share and cite primary data in life sciences

Author

Jinbo Chen, Matthias Lange, Uwe Scholz, Christian Colmsee, Steffen Flemming, and Daniel Arend

Subjects

World Wide Web, Computer science, business.industry, Data management, Data transformation, Data architecture, Information repository, business, Data warehouse, Data migration, Data mapping, Data administration

Abstract

Background: Life sciences are data intensive. High throughput technologies, like "Next-Generation-Sequencing", "Phenotyping" and other -omics technologies produce a huge amount of primary data. In classic scientific publication process, primary data is usually aggregated to a number of paragraphs in a journal article and proven by figures, tables and supplementary material. So it is that the value of primary data, on which the scientific conclusions are based on, do not get proper attention. But, the responsible use and efficient availability of digital resources is an important factor in the nowadays "e-science" age. The increased attention in public as well as in the research community leads to novel strategies and concepts for primary data citation, which must be substantively, underpinned by enhancements to classic data management systems. Results: We present the JAVA-based e.!DAL-API, a comprehensive storage backend for primary data management. It stands for (electronical Data Archive Library) and implement a primary data storage infrastructure, but with an intuitive usability like a classical file system. Main features are version and meta data management, data citations, support for information retrieval, persistent identifiers and its easy integration into existing data frontends and information systems. The API has been designed and tested using experiences from several research projects and literature studies. Conclusions: Primary data preservation in life sciences is accompanied by enhanced requirements to data management systems. e.!DAL combines this novel arising requirements with features known from file systems, databases, content management and version control to one homogeneous storage system. It supports an embedded use in stand-alone JAVA software or in server mode a data repositories for collaborative, remote accessible data services. Thus, e.!DAL is an efficient complement for data frontends, information systems and data management systems. The JAVA libraries, Maven artifacts, sample code, a show case demo, and the API-documentation can be downloaded from: http://projects.ipk-gatersleben.de/eDAL-Project.

Published

2012

35. From data to knowledge – big data needs stewardship, a plant phenomics perspective

Author

Daniel Arend, Dennis Psaroudakis, Junaid Altaf Memon, Elena Rey‐Mazón, Danuta Schüler, Jedrzej Jakub Szymanski, Uwe Scholz, Astrid Junker, and Matthias Lange

Subjects

Big Data, Crops, Agricultural, FAIR data, plant phenomics, data stewardship, Genetics, Cell Biology, Plant Science, research data management, research data, Phenomics, Plants

Abstract

The research data life cycle from project planning to data publishing is an integral part of current research. Until the last decade, researchers were responsible for all associated phases in addition to the actual research and were assisted only at certain points by IT or bioinformaticians. Starting with advances in sequencing, the automation of analytical methods in all life science fields, including in plant phenotyping, has led to ever increasing amounts of ever more complex data. The tasks associated with these challenges now often exceed the expertise of and infrastructure available to scientists, leading to an increased risk of data loss over time. The IPK Gatersleben has one of the world’s largest germplasm collections and two decades of experience in crop plant research data management. In this article we show how challenges in modern, data-driven research can be addressed by data stewards. Based on concrete use cases, data management processes and best practices from plant phenotyping, we describe which expertise and skills are required and how data stewards as an integral actor can enhance the quality of a necessary digital transformation in progressive research.

36. BioHackEU22 Project 22: Plant data exchange and standard interoperability

Author

Daniel Arend, Sebastian Beier, laurent bouri, Marco Brandizi, Donald Hobern, Erwan Le Floch, Timo Mühlhaus, Cyril Pommier, Stuart Owen, Philippe Rocca-Serra, Thomas Rosnet, and Stian Soiland-Reyes

Abstract

Status of discussions around the topic of data standard formats for plant sciences and their interoperability at the BioHackathon Europe 2022 in Paris.

37. From data to knowledge – big data needs stewardship, a plant phenomics perspective

Author

'Daniel Arend

38. Concept for Setting up a Working Group in the NFDI Section 'Common Infrastructures'

Author

Wolfgang Pempe, Marius Politze, Marcus Hardt, Michael Simon, Daniel Jettka, Thorsten Michels, Sander Apweiler, Michael Klix, Steffen Neumann, David Hübner, Peter Gietz, Christof Pohl, Waltraud Büttner, Aylin Gündogan, Jochen Buchholz, Miroslav Puskaric, Volodymyr Kushnarenko, and Daniel Arend

Subjects

NFDI, Research Infrastrcutures, AAI, IAM

Abstract

The Working Group Identity and Access Management (IAM) aims to consolidate processes, policies and architectures in order to facilitate the management of digital identities and federated access to resources within and across the NFDI consortia. The working group therefore follows the three main objectives: Conceptional work including the evaluation and creation of blueprints, especially the AARC BPA, to establish an AAI for the "one NFDI" as well as concepts for the integration of existing tools and resources in this infrastructure Connecting NFDI AAI and the NFDI consortia with relevant initiatives on state, national and international levels. Consulting to support communities and resource providers to connect to the “one NFDI AAI”. Over the course of the next two years, the working group will follow milestones to (1) provide short term AAI guidelines that allow service providers within the NFDI to connect their services to existing AAI infrastructures, (2) Build a baseline scheme for an identity space to exchange informational attributes about identities, (3) establish role and group management services and finally (4) provide an IAM architecture for the "one NFDI".

Published

2022