- Open Access
Meeting Report from the Second “Minimum Information for Biological and Biomedical Investigations” (MIBBI) workshop
- Carsten Kettner1,
- Dawn Field2Email author,
- Susanna-Assunta Sansone3,
- Chris Taylor4,
- Jan Aerts5,
- Nigel Binns6,
- Andrew Blake7,
- Cedrik M. Britten8,
- Ario de Marco9, 10,
- Jennifer Fostel11,
- Pascale Gaudet12,
- Alejandra González-Beltrán13,
- Nigel Hardy14,
- Jan Hellemans15,
- Henning Hermjakob4,
- Nick Juty4,
- Jim Leebens-Mack16,
- Eamonn Maguire3,
- Steffen Neumann17,
- Sandra Orchard4,
- Helen Parkinson4,
- William Piel18,
- Shoba Ranganathan19, 20,
- Philippe Rocca-Serra3,
- Annapaola Santarsiero21,
- David Shotton22,
- Peter Sterk23,
- Andreas Untergasser24 and
- Patricia L. Whetzel25
© The Author(s) 2010
- Published: 31 December 2010
This report summarizes the proceedings of the second workshop of the ‘Minimum Information for Biological and Biomedical Investigations’ (MIBBI) consortium held on Dec 1–2, 2010 in Rüdesheim, Germany through the sponsorship of the Beilstein-Institute. MIBBI is an umbrella organization uniting communities developing Minimum Information (MI) checklists to standardize the description of data sets, the workflows by which they were generated and the scientific context for the work. This workshop brought together representatives of more than twenty communities to present the status of their MI checklists and plans for future development. Shared challenges and solutions were identified and the role of MIBBI in MI checklist development was discussed. The meeting featured some thirty presentations, wide-ranging discussions and breakout groups. The top outcomes of the two-day workshop as defined by the participants were: 1) the chance to share best practices and to identify areas of synergy; 2) defining a series of tasks for updating the MIBBI Portal; 3) reemphasizing the need to maintain independent MI checklists for various communities while leveraging common terms and workflow elements contained in multiple checklists; and 4) revision of the concept of the MIBBI Foundry to focus on the creation of a core set of MIBBI modules intended for reuse by individual MI checklist projects while maintaining the integrity of each MI project. Further information about MIBBI and its range of activities can be found at http://mibbi.org/.
- Minimum Information
- European Bioinformatics Institute
- Biomedical Ontology
- Stable Link
- Breakout Group
There is now a growing trend for grass-roots communities of researchers to define MI checklists for the description and contextualization of data, in order to facilitate sharing and to fully describe those data for publication and review. These guidelines are used both to describe data and the processes by which they were created, and to guide the creation of electronic resources for the storage of such descriptions. With the publication of a community-level paper in 2008 , the ‘Minimum Information for Biological and Biomedical Investigations’ (MIBBI) initiative was formally established, having begun in 2006 when a group of MI checklist project leaders came together to discuss the increase in common activity within the data sharing community and the consequent need for more efficient networking and collaboration where possible. MIBBI is intended to bring together community leaders for all MI checklist projects, to tackle shared challenges, develop best practice and create new solutions that ease the development of MI checklists and help to promote their implementation and adoption.
Seventeen representatives of minimum information checklist communities attended the first MIBBI meeting in 2008. Today some thirty-six community checklists are registered in the MIBBI Portal. This second MIBBI meeting once again convened the representatives of these minimum information checklist communities for a two day workshop in the historic Hotel Jagdschloss Niederwald near Rüdesheim, Germany on Dec 1–2, 2010. The setting and the limited number of participants provided a convivial atmosphere for the ready exchange of thoughts and ideas. The meeting was organized by Carsten Kettner (Beilstein-Institut), Chris Taylor (European Bioinformatics Institute), Susanna-Assunta Sansone (University of Oxford) and Dawn Field (Centre for Ecology and Hydrology) and was hosted and supported by the Beilstein-Institut.
The three primary objectives of the meeting were to: 1) review and advise on the current state of the MIBBI project; 2) formalize the ownership, upkeep and further development of MIBBI Foundry module content; and 3) reach a position on interactions with other standards projects and resources. The meeting included a series of community introductions, formal presentations on key topics to seed debate, extended discussion sessions and breakout groups.
Checklists presented at the second MIBBI workshop*.
Publication and website (where available)
Jan Aerts (ESAT/SCD)
Nigel Binns (Edinburgh)
Andy Blake (MRC Harwell)
Cedrik M. Britten (Mainz)
Ario de Marco (IFOM-IEO)
Jennifer Fostel (NIEHS)
Jennifer Fostel (NTP, HESI) on behalfof Helen Parkinson (EBI, UK)
Pascale Gaudet (ISB)
Alejandra González-Beltrán (UCL)
Nigel Hardy (Aberystwyth)
MIQE / MIqPCR
Jan Hellemans (Gent) Andreas Untergasser (Heidelberg)
Nick Juty (EBI)
Carsten Kettner (Beilstein-Institut)
Jim Leebens-Mack (Georgia)
Henning Hermjaokb (EBI)
Shoba Ranganathan (Macquarie, NUS)
David Shotton (Oxford)
Peter Sterk (Sanger)
MIAME/Env ; MIAME/Nutr & MIAME/Tox (http://www.mged.org/Workgroups/rsbi/rsbidetail.html#rationale);
The next session reviewed the concept and status of the MIBBI Foundry. To set the stage, Chris Taylor gave an overview of the MIBBI Foundry and reported on progress towards a list of ‘MIBBI modules’. The primary purpose of the MIBBI Foundry is to coordinate checklist communities’ efforts to regularize the content of their reporting requirements through joint working where their respective scopes overlap. The MIBBI paper  presented the degree of overlap between checklists registered with MIBBI at the time of publication in tabular form, highlighting that certain concepts are frequently repeated across checklists while others are unique. The repetition of concepts across checklists suggested that it might be possible to modularize the parts of those checklists to provide reusable components to checklist projects to minimize the arbitrary differences in the reporting of common concepts that would otherwise naturally occur. To date, thirty-six MIBBI modules have been derived by merging and adapting parts of original community checklists. These draft modules are available on the MIBBI site. The presentation closed with a call for wider participation in the Foundry project.
The participants then discussed the merits of a modular approach to checklist development and use. All agreed that it was sensible for checklist communities to work together both to promote best practice and to ensure as far as possible that their checklists are orthogonal (non-overlapping) and semantically comparable; for example, by tagging individual checklist items with ontology terms.
Breakout groups were organized to tackle a variety of issues surrounding the development, maintenance and use of MI checklists and to deliberate on a variety of questions about the MIBBI Foundry. There were three groups, designed to reflect the interests of ‘wet lab’ bench scientists, bioinformaticians/developers and the ‘meta-standards’ community (i.e., those seeking to integrate standards-based resources). These groups were led by Carsten Kettner (Beilstein-Institut), Pascale Gaudet (Swiss Institute of Bioinformatics) and Henning Hermjakob (European Bioinformatics Institute) respectively, with Jan Hellemans (University of Gent), Jim Leebens-Mack (University of Georgia), and Trish Whetzel (Stanford University) reporting back on their discussions. The groups ranged wide, but common themes emerged, as summarized at the end of this report.
Towards a MIBBI Core - a shared resource for community checklist developers
Common themes emerged from individual MI group presentations including a desire for flexible and extensible tools for the facilitation of data sharing. In response, Philippe Rocca-Serra (University of Oxford) presented the ISA infrastructure, a data sharing software suite that depends critically on the dissemination of mature checklists for the capture of standards-compliant experimental metadata. The ISA infrastructure  provides a set of tools dedicated to the annotation and reporting of classic and functional genomics experiments, enabling efficient reporting, semantic tagging and support for submission to various public databases. The highly configurable nature of the architecture has been applied to implement a number of MI checklists. Preliminary validation work resulted in the creation of configurations for MIENS, MISFISHIE, MIAME and MIFlowCyt in direct collaboration with representatives of those checklists; the first components of a library of configurations for those and many other MI checklists. For groups defining minimal annotation that lack the resource to develop syntax, editing and validation tools, the ISA infrastructure was presented as providing a considerable head start for implementing and delivering annotation solutions quickly and effectively.
There then followed a presentation on MICheckout, developed by Chris Taylor and Eamonn Maguire (University of Oxford). This tool, built with Adobe Flash, Java, RESTful web services, XML and XSLT, allows users to compile MIBBI Foundry modules into custom lists that can be viewed or downloaded in various formats. The initial version of the tool, as presented at the workshop, provides users with access to the full range of modules in the MIBBI Foundry; those modules having been derived from the checklists registered in the MIBBI Portal. The modules are stored in XML, which is transformed by the tool on demand to provide the requested output. Subsequent discussion centered on the healthy tension that exists between the desire for integration where MI checklists overlap and the tailoring of checklists to meet the needs of particular user communities. In its current form, MICheckout was considered useful for developers, and for end-users employing multiple technologies. However, scientists, and reviewers for funders, journals or regulators require a much-simplified interface that leans heavily on the domain/technique-specific checklists listed in the MIBBI Portal to ensure that equivalent users obtain identical checklists built on best practices within the field.
The focus then shifted to MIBBI in the wider data sharing landscape, including an overview of the new BioSharing initiative by Susanna Sansone. The proliferation of standardization efforts (not just checklists, but also terminologies and exchange formats) is a positive indicator of stakeholder engagement, but brings with it new sociological and technological challenges — creating interoperability and avoiding the overlaps and duplication of effort that hamper widespread uptake and hinder the development of data sharing tools. The BioSharing (http://www.biosharing.org) initiative [35,36], which includes the MIBBI community, aims to address this challenge, working at the global level to build stable links between funders, well-constituted standards projects, journals and other stakeholders to expedite communication and the production of an integrated standards-based framework for the capture and sharing of high-throughput genomics and functional genomics data. For example, the International Society for Biocuration, a contributor to the work of the BioSharing project, has recently produced the MIBBI-registered BioDBCore checklist , which aims to improve standardization across biological databases. Under development with Annapaola Santarsiero (The Mario Negri Institute) are a ‘one-stop shop’ catalogue and a communication forum to help centralize information on bioscience data policies, standards and links to other related portals, including MIBBI and the National Center for Biomedical Ontology (NCBO) BioPortal, and to establish the formal communication channels needed to maintain links between stakeholders.
Trish Whetzel (National Center for Biomedical Ontology) then gave a brief overview of the NCBO, which provides online tools and a Web portal - the BioPortal  - for biomedical researchers, enabling them to access, review and integrate disparate ontological resources covering all aspects of biomedical investigation and clinical practice. A major focus of NCBO is the use of biomedical ontologies to aid in the management and analysis of data; here the interplay with MI checklists is pivotal.
Returning to their working groups, the participants next addressed two subjects: the general direction of MIBBI (i.e., how the project should evolve); and the design of the MICheckout tool. Again, the outcomes of these discussions have been fed into the summary at the end of this report.
Wrap up session and outcomes
The group then spent one hour wrapping up and deciding on actions in a session chaired by Dawn Field, who gave a brief overview of the meeting and then opened the floor for discussion. All were in agreement that: 1) MIBBI should continue; 2) future meetings would be of value; 3) the Portal should be improved; 4) that there is a need to strike a balance between the independence of MI communities (as listed in the Portal) and the need for harmonization (through the Foundry); 5) that communication should be improved; and that 6) in general there are many ways in which the project could develop.
Attendees felt that the most positive outcomes of the meeting were:
The chance to meet other MI checklist project coordinators and exchange knowledge.
The clarification of the roles of MIBBI:
◦ For developers: promoting best practice on creating MIs; working with those seeking validation for their implementation (e.g., software/instrument vendors); supporting DOIs (http://datacite.org/) and ORCIDs (http://orcid.org/); providing ‘common’ checklist modules that can be re-used by communities to improve compatibility; development and maintenance of mappings between community checklists; providing tutorials and forums for discussion.
◦ for end-users: provision of guidance and tools to simplify the identification of relevant standards; links to summaries of journals’ and funders’ requirements and tools to support those requirements; provision of instructive examples of usage; and the development of a wizard to help end-users identify checklists with which they should be trying to comply.
The agreement to provide a core set of MIBBI modules covering common bioscience workflow components for reuse in communities’ own checklists.
The identification of tools to help users to meet the requirements of several MI checklists, such as ISA software suite.
The commitment to work together to help promote the efforts of each group providing checklists (for example, by working towards a journal special issue).
Agreements on the specific roles and further development of the various parts of MIBBI included:
maintain up-to-date versions of descriptions of MI projects; actively engage with checklist project representatives, for example, through regular email circulars.
ensure all projects provide standard descriptions of their MI checklists; define ‘style guidance’ for checklists (which currently vary greatly); support DOIs and ORCIDs; recommend the use of version control and the timely handling of requests for revisions.
creation of a process to certify tools/systems, to maximize adoption (because the more tools that are genuinely compliant, the easier it is for users to comply); opening of dialogs with national standards groups.
enhance the compatibility of community checklists without encroaching on their independence.
the MIBBI Foundry should offer a core set of modules covering common areas of workflows; those modules and their components should be semantically tagged and available in several formats, to be reused by individual communities to enhance checklist compatibility.
offer the facility to host or mirror communities’ checklist content to facilitate its discovery and use, ensuring that users have straightforward access to up-to-date guidance.
to provide information about the project to newcomers and others in concise, bulleted form.
the website should cater to developers and other kinds of user (bench scientists, reviewers of various kinds) separately, acknowledging their different needs.
4. MIBBI in the context of the BioSharing initiative
to represent the interests of the MI checklist community and to ensure stable links to other standards and the bodies that represent them.
The authors would like to thank the Beilstein-Institut for both the financial support and hosting this Workshop.
- Taylor CF, Field D, Sansone SA, Aerts J, Apweiler R, Ashburner M, Ball CA, Binz PA, Bogue M, Booth T, et al. Promoting coherent minimum reporting guidelines for biological and biomedical investigations: the MIBBI project. Nat Biotechnol 2008; 26:889–896. PubMed doi:10.1038/nbt.1411PubMed CentralView ArticlePubMedGoogle Scholar
- Hancock JM, Adams NC, Aidinis V, Blake A, Bogue M, Brown SD, Chesler EJ, Davidson D, Duran C, Eppig JT, et al. Mouse Phenotype Database Integration Consortium: integration [corrected] of mouse phenome data resources. Mamm Genome 2007; 18:157–163. PubMedView ArticlePubMedGoogle Scholar
- Janetzki S, Britten CM, Kalos M, Levitsky HI, Maecker HT, Melief CJ, Old LJ, Romero P, Hoos A, Davis MM. MIATA″-minimal information about T cell assays. Immunity 2009; 31:527–528. PubMed doi:10.1016/j.immuni.2009.09.007PubMed CentralView ArticlePubMedGoogle Scholar
- Britten CM, Janetzki S, Van der Burg SH, Huber C, Kalos M, Levitsky HI, Maecker HT, Melief CJ, O’Donnell-Tormey J, Old LJ, et al. Minimal information about T cell assays: the process of reaching the community of T cell immunologists in cancer and beyond. Cancer Immunol Immunother 2010; (Nov): 16. PubMedGoogle Scholar
- de Marco A. Minimal information: an urgent need to assess the functional reliability of recombinant proteins used in biological experiments. Microb Cell Fact 2008; 7:20. PubMed doi:10.1186/1475-2859-7-20PubMed CentralView ArticlePubMedGoogle Scholar
- Fostel JM, Burgoon L, Zwickl C, Lord P, Corton JC, Bushel PR, Cunningham M, Fan L, Edwards SW, Hester S, et al. Toward a checklist for exchange and interpretation of data from a toxicology study. Toxicol Sci 2007; 99:26–34. PubMed doi:10.1093/toxsci/kfm090View ArticlePubMedGoogle Scholar
- Brazma A, Hingamp P, Quackenbush J, Sherlock GSP, Stoeckert C, Aach J, Ansorge W, Ball CA, Causton HC, Gaasterland T, et al. Minimum information about a microarray experiment (MIAME)-toward standards for microarray data. Nat Genet 2001; 29:365–371. PubMed doi:10.1038/ng1201-365View ArticlePubMedGoogle Scholar
- Gaudet P, Bairoch A, Field D, Sansone SA, Taylor C, Attwood TK, Bateman A, Blake JA, Bult CJ, Cherry JM, et al. Towards BioDBcore: a community-defined information specification for biological databases. Nucleic Acids Res 2010.Google Scholar
- Yong M, Begent R. Best use of experimental data in cancer informatics. Future Oncol 2010; 6:1551–1562. PubMed doi:10.2217/fon.10.108View ArticlePubMedGoogle Scholar
- Yong M, Tolner B, Nagl S, Pedley RB, Chester K, Green AJ, Mayer A, Sharma S, Begent R. Data standards for minimum information collection for antibody therapy experiments. Protein Eng Des Sel 2008; 22:221–224. PubMed doi:10.1093/protein/gzp003View ArticleGoogle Scholar
- Gonzalez-Beltran A, Yong M, Begent R. Towards an unambiguous and formal description of cancer therapy experiments. In “Building a Collaborative Biomedical Network”, caBIG Annual Meeting, September 13–15, 2010, Washington, D.C., U.S.A. 2009.Google Scholar
- Sansone SA, Fan T, Goodacre R, Griffin JL, Hardy NW, Kaddurah-Daouk R, Kristal BS, Lindon J, Mendes P, Morrison N, et al. The metabolomics standards initiative. Nat Biotechnol 2007; 25:846–848. PubMed doi:10.1038/nbt0807-846bView ArticlePubMedGoogle Scholar
- Bustin SA, Benes V, Garson JA, Hellemans J, Huggett J, Kubista M, Mueller R, Nolan T, Pfaffl MW, Shipley GL, et al. The MIQE guidelines: minimum information for publication of quantitative real-time PCR experiments. Clin Chem 2009; 55:611–622. PubMed doi:10.1373/clinchem.2008.112797View ArticlePubMedGoogle Scholar
- Bustin SA, Beaulieu JF, Huggett J, Jaggi R, Kibenge FS, Olsvik PA, Penning LC, Toegel S. MIQE precis: Practical implementation of minimum standard guidelines for fluorescence-based quantitative real-time PCR experiments. BMC Mol Biol 2010; 11:74. PubMed doi:10.1186/1471-2199-11-74PubMed CentralView ArticlePubMedGoogle Scholar
- Lefever S, Hellemans J, Pattyn F, Przybylski DR, Taylor C, Geurts R, Untergasser A, Vandesompele J. RDML: structured language and reporting guidelines for real-time quantitative PCR data. Nucleic Acids Res 2009; 37:2065–2069. PubMed doi:10.1093/nar/gkp056PubMed CentralView ArticlePubMedGoogle Scholar
- Novère N, Finney A, Hucka M, Bhalla US, Campagne F, Collado-Vides J, Crampin EJ, Halstead M, Klipp E, Mendes P, et al. Minimum information requested in the annotation of biochemical models (MIRIAM). Nat Biotechnol 2005; 23:1509–1515. PubMed doi:10.1038/nbt1156View ArticlePubMedGoogle Scholar
- Apweiler R, Armstrong R, Bairoch A, Cornish-Bowden A, Halling PJ, Hofmeyr JH, Kettner C, Leyh TS, Rohwer J, Schomburg D, et al. A large-scale protein-function database. Nat Chem Biol 2010; 6:785. PubMed doi:10.1038/nchembio.460PubMed CentralView ArticlePubMedGoogle Scholar
- Leebens-Mack J, Vision T, Brenner E, Bowers JE, Cannon S, Clement MJ, Cunningham CW, de-Pamphilis C, deSalle R, Doyle JJ, et al. Taking the first steps towards a standard for reporting on phylogenies: Minimum Information About a Phylogenetic Analysis (MIAPA). OMICS 2006; 10:231–237. PubMed doi:10.1089/omi.2006.10.231PubMed CentralView ArticlePubMedGoogle Scholar
- Orchard S, Salwinski L, Kerrien S, Montecchi-Palazzi L, Oesterheld M, Stumpflen V, Ceol A, Chatraryamontri A, Armstrong J, Woollard P, et al. The minimum information required for reporting a molecular interaction experiment (MIMIx). Nat Biotechnol 2007; 25:894–898. PubMed doi:10.1038/nbt1324View ArticlePubMedGoogle Scholar
- Bourbeillon J, Orchard S, Benhar I, Borrebaeck C, de Daruvar A, Dubel S, Frank R, Gibson F, Gloriam D, Haslam N, et al. Minimum information about a protein affinity reagent (MIAPAR). Nat Biotechnol 2010; 28:650–653. PubMed doi:10.1038/nbt0710-650View ArticlePubMedGoogle Scholar
- Tan TW, Tong JC, De Silva M, Lim KS, Ranganathan S. Advancing Standards for Bioinformatics Activities: Persistence, Reproducibility, Disambiguation and Minimum Information about a Bioinformatics Investigation (MIABi). BMC Genomics 2010; 11(Suppl 4):S27. PubMed doi:10.1186/1471-2164-11-S4-S27PubMed CentralView ArticlePubMedGoogle Scholar
- Field D, Garrity G, Gray T, Morrison N, Selengut J, Sterk P, Tatusova T, Thomson N, Allen MJ, Angiuoli SV, et al. The minimum information about a genome sequence (MIGS) specification. Nat Biotechnol 2008; 26:541–547. PubMed doi:10.1038/nbt1360PubMed CentralView ArticlePubMedGoogle Scholar
- Yilmaz P, Kottmann R, Field D, Knight R, Cole JR, Amaral-Zettler L, Gilbert JA, Karsch-Mizrachi I, Johnston A, Cochrane G, et al. The “Minimum Information about an ENvironmental Sequence” (MIENS) specification. Available from Nature Precedings <http://dx.doi.org/10.1038/npre.2010.5252.2> 2010.
- Morrison N, Wood AJ, Hancock D, Shah S, Hakes L, Gray T, Tiwari B, Kille P, Cossins A, Hegarty M, et al. Annotation of environmental OMICS data: application to the transcriptomics domain. OMICS 2006; 10:172–178. PubMed doi:10.1089/omi.2006.10.172View ArticlePubMedGoogle Scholar
- Zimmermann P, Schildknecht B, Craigon D, Garcia-Hernandez M, Gruissem W, May S, Mukherjee G, Parkinson H, Rhee S, Wagner U, et al. MIAME/Plant — adding value to plant microarrray experiments. Plant Methods 2006; 2:1. PubMed doi:10.1186/1746-4811-2-1PubMed CentralView ArticlePubMedGoogle Scholar
- Noy NF, Shah NH, Whetzel PL, Dai B, Dorf M, Griffith N, Jonquet C, Rubin DL, Storey MA, Chute CG, et al. BioPortal: ontologies and integrated data resources at the click of a mouse. Nucleic Acids Res 2009; 37:W170–W173. PubMed doi:10.1093/nar/gkp440PubMed CentralView ArticlePubMedGoogle Scholar
- Carrascal M, Ovelleiro D, Casas V, Gay M, Abian J. Phosphorylation analysis of primary human T lymphocytes using sequential IMAC and titanium oxide enrichment. J Proteome Res 2008; 7:5167–5176. PubMed doi:10.1021/pr800500rView ArticlePubMedGoogle Scholar
- Frishkoff GW, LePendu P, Frank RM, Liu H, Dou D. Development of Neural Electromagnetic Ontologies (NEMO): Ontology-based Tools for Representation and Integration of Event-related Brain Potentials. Available from Nature Precedings <http://dx.doi.org/doi:10.1038/npre.2009.3458.1> 2009.
- Lee JA, Spidlen J, Boyce K, Cai J, Crosbie N, Dalphin M, Furlong J, Gasparetto M, Goldberg M, Goralczyk EM, et al. MIFlowCyt: the minimum information about a Flow Cytometry Experiment. Cytometry A 2008; 73A:926–930. PubMed doi:10.1002/cyto.a.20623View ArticleGoogle Scholar
- Poldrack RA, Fletcher PC, Henson RN, Worsley KJ, Brett M, Nichols TE. Guidelines for reporting an fMRI study. Neuroimage 2008; 40:409–414. PubMed doi:10.1016/j.neuroimage.2007.11.048PubMed CentralView ArticlePubMedGoogle Scholar
- Gibson F, Overton PG, Smulders TV, Schultz SR, Eglen SJ, Ingram CD, Panzeri S, Bream P, Whittington M, Sernagor E, et al. Minimum Information about a Neuroscience Investigation (MINI): Electrophysiology. Available from Nature Precedings 2009.Google Scholar
- Raes J, Foerstner KU, Bork P. Get the most out of your metagenome: computational analysis of environmental sequence data. Curr Opin Microbiol 2007; 10:490–498. PubMed doi:10.1016/j.mib.2007.09.001View ArticlePubMedGoogle Scholar
- Deutsch EW, Ball CA, Berman JJ, Bova GS, Brazma A, Bumgarner RE, Campbell D, Causton HC, Christiansen JH, Daian F, et al. Minimum information specification for in situ hybridization and immunohistochemistry experiments (MISFISHIE). Nat Biotechnol 2008; 26:305–312. PubMed doi:10.1038/nbt1391PubMed CentralView ArticlePubMedGoogle Scholar
- Rocca-Serra P, Brandizi M, Maguire E, Sklyar N, Taylor C, Begley K, Field D, Harris S, Hide W, Hofmann O, et al. ISA software suite: supporting standards-compliant experimental annotation and enabling curation at the community level. Bioinformatics 2010; 26:2354–2356. PubMed doi:10.1093/bioinformatics/btq415PubMed CentralView ArticlePubMedGoogle Scholar
- Field D, Sansone SA, Collis A, Booth T, Dukes P, Gregurick SK, Kennedy KL, Kolar P, Kolker E, Maxon M, et al. ’Omics Data Sharing. Science 2009; 326:234–236. PubMed doi:10.1126/science.1180598PubMed CentralView ArticlePubMedGoogle Scholar
- Field D, Sansone SA, DeLong EF, Sterk P, Friedberg I, Gaudet P, Lewis S, Kottmann R, Hirschman L, Garrity G, et al. Meeting Report: BioSharing at ISMB 2010. Stand. Genomics Sci. 2010;3:1–9.Google Scholar