ibc fair data prototype implementation slideshow
TRANSCRIPT
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Mark D. WilkinsonCBGP-UPM/INIA,
A novel, API-free approach to interoperability leads to FAIRness for legacy and prospective data.
IBC Scientific DaysJanuary 17-18, 2017
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The Problem...one recent survey of 18 microarray studies found that only two were fully reproducible using the archived data. Another study of 19 papers in population genetics found that 30% of
analyses could not be reproduced from the archived data and that 35% of datasets were incorrectly or insufficiently
described.
“
”
Dominique G. Roche , Loeske E. B. Kruuk, Robert Lanfear, Sandra A. Binning (2015)
http://dx.doi.org/10.1371/journal.pbio.1002295
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The ProblemWe surveyed 100 datasets associated with nonmolecular studies in journals that commonly publish ecological and
evolutionary research and have a strong PDA policy. Out of these datasets, 56% were incomplete, and
64% were archived in a way that partially or entirely prevented reuse.
“
”
Dominique G. Roche , Loeske E. B. Kruuk, Robert Lanfear, Sandra A. Binning (2015)
http://dx.doi.org/10.1371/journal.pbio.1002295
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The ProblemIs that data, therefore...
Useless?
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The Problem
NO!!
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The Problem
It’s Reuseless!
h.t. to Barend Mons
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FAIRFindable
→ Globally unique, resolvable, and persistent identifiers→ Machine-actionable contextual information supporting
discovery
Accessible→ Clearly-defined access protocol→ Clearly-defined rules for authorization/authentication
Interoperable→ Use shared vocabularies and/or ontologies→ Syntactically and semantically machine-accessible format
Reusable→ Be compliant with the F, A, and I Principles→ Contextual information, allowing proper interpretation→ Rich provenance information facilitating accurate citation
The Four Principles
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“Skunkworks”
Task: Build a prototype
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Skunkworks ParticipantsMark WilkinsonMichel DumontierBarend MonsTim ClarkJun ZhaoPaolo CiccaresePaul GrothErik van MulligenLuiz Olavo Bonino da Silva
SantosMatthew GambleCarole GobleJoël KuiperMorris SwertzErik Schultes
Erik SchultesMercè CrosasAdrian GarciaPhilip DurbinJeffrey GretheKaty WolstencroftSudeshna DasM. Emily Merrill
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The Hourglass Concept
We want a large ecosystem of apps that use FAIR Data
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The Hourglass Concept
We want to support a wide range of source providers
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The Hourglass Concept
The FAIR solution between them must be THIN!
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Skunkworks participants had
tons of experience v.v.
metadata around scholarly
publication
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Skunkworks participants had
tons of experience v.v.
metadata around scholarly
publication RDA,Force11,Dataverse,Research Objects,NanoPubs,Semantic Science,SADI, AlzForum, SWAN,LSID, ………...
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There was very little
disagreement about F, about A,
or about R
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The “I” is the big problem
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Interoperability is Hard!!
The “I” is the big problem
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Keeping the history brief
A series of teleconferences led to the concept of putting metadata into an iterative set of
~identical “containers”
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Skunkworks HackathonsThe “containers of containers of containers”
idea was elaborated by the belief that we should also reject any solution that required
a new API
ProgrammableWeb.com already catalogues >16,000 different Web APIs
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Skunkworks HackathonsThe “containers of containers of containers”
idea was elaborated by the belief that we should also reject any solution that required
a new API
ProgrammableWeb.com already catalogues >16,000 different Web APIs
APIs DO NOT MAKE YOU INTEROPERABLE!
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Skunkworks HackathonsThe “containers of containers of containers”
idea was elaborated by the belief that we should also reject any solution that required
a new API
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Skunkworks Hackathons
Are there existing standards that are
And have the properties of
?
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Uses machine-accessible standards and representations, following a REST paradigm
LDPUseful Features
I
I + R
F + A
I
Defines HTTP-resolvable URIs for each of these containers
Defines the concept of a “Container” - a machine-actionable way to represent repositories, data deposits, data files, data points, and their metadata
Uses a widely accepted standard (DCAT) to relate metadata to data → machine-actionable data mining
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Uses machine-accessible standards and representations, following a REST paradigm
LDPUseful Features
I
I + R
F + A
I
Defines HTTP-resolvable URIs for each of these containers
Defines the concept of a “Container” - a machine-actionable way to represent repositories, data deposits, data files, data points, and their metadata
Uses a widely accepted standard (DCAT) to relate metadata to data → machine-actionable data mining
Inspiration
Not Adoption
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The FAIR Accessor
In incremental detail
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What can we describe with FAIR Accessors?
FAIR Accessors provide a machine-actionable, structured,
REST-oriented way to publish Metadata
about a wide range of scholarly “entities”
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What can we describe with FAIR Accessors?
Warehouses (e.g. EBI)
Databases (e.g. UniProt)
Repositories (e.g. Zenodo, INRA-URGI Wheat Repo, UniProt)
Datasets (e.g. output from a workflow)
Research Objects (data a/o workflow a/o results a/o publications)
Data “slices” (e.g. the result of a database query)
Data Records (e.g. image, excel file, patient clinical record)
Other…
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HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2
format application/xml
HTTP GET
What does a FAIR Accessor “look like”?
Container Resource
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(a “resource” is a URI / URL) HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2
format application/xml
HTTP GET
What does a FAIR Accessor “look like”?
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HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2
format application/xml
HTTP GET
What does a FAIR Accessor “look like”?
Container Resource
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Container Resource HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
What does a FAIR Accessor “look like”?
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Container Resource HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
What does a FAIR Accessor “look like”?
There is a URI for the “Container”
(of any of the kinds listed in the previous slide)
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Container Resource HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
What does a FAIR Accessor “look like”?
Resources are manipulated using the HTTP protocol on the
Resource URI
For the FAIR Accessor, the only HTTP method we currently
require is HTTP GET
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Container Resource HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
What does a FAIR Accessor “look like”?
What is returned is a document full of metadata richly
describing that Container (warehouse, database, dataset,
slice, etc.)
And a list of Resources (URIs) that represent the contained
“things”
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Container Resource HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
What does a FAIR Accessor “look like”?
Looking more closely at one of those contained things...
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MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2
format application/xml
HTTP GET
What does a FAIR Accessor “look like”?
The contained thing is a Resource
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MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2
format application/xml
HTTP GET
What does a FAIR Accessor “look like”?
That Resource can be resolved by HTTP GET
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MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2
format application/xml
HTTP GET
What does a FAIR Accessor “look like”?
To retrieve a Metadata document describing that
resource (e.g. a single record)
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MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2
format application/xml
HTTP GET
What does a FAIR Accessor “look like”?
Which record does this Metadata describe?
The foaf:primaryTopic attribute defines this
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MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2
format application/xml
HTTP GET
What does a FAIR Accessor “look like”?
Using the metadata structures defined by DCAT the FAIR Accessor may also tell you how to get the content of the record, and what formats are available
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MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2
format application/xml
HTTP GET
What does a FAIR Accessor “look like”?
In this case, the record is available in XML formatBy calling HTTP GET on URL_U2
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MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2
format application/xml
HTTP GET
What does a FAIR Accessor “look like”?
Or in RDF format by calling HTTP GET on URL_U1
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Container Resource HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2
format application/xml
HTTP GET
What does a FAIR Accessor “look like”?
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Or you may add additional layers...
Metadata
Metadata
Metadata
MetadataDATA - format 1DATA - format 2
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Features of the FAIR Accessor
1: There is no APIGET
Interpret the Metadata
Select the desired Resource
GET
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Features of the FAIR Accessor
1: There is no APIGET
Interpret the Metadata
Select the desired Resource
GET
ANY Web agent can explore/index a FAIR Accessor(e.g. Google)
An agent that understands globally-accepted vocabularies can explore it “intelligently”
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Features of the FAIR Accessor
49
1: There is no API
It’s difficult to get thinner than nothing...
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Features of the FAIR Accessor
2: Identifiers for unidentifi-ed/-able things
HTTP GET
<FAIR metadata/>
This is the ArrayExpress queryI did for paper doi:10/1234.56
Results: MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
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Features of the FAIR Accessor
2: Identifiers for unidentifi-ed/-able things
HTTP GET
<FAIR metadata/>
This is the ArrayExpress queryI did for paper doi:10/1234.56
Results: MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
Should assist with reproducibility and transparency
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Features of the FAIR Accessor
3: A predictable “place” for metadata
PrimaryTopic: record 1A445Record Metadata...
DATA - format 1DATA - format 2
Different “kinds” of metadata have distinct ontological types, and distinct document structures. There is no ambiguity regarding what the metadata is describing - a repository or a record. Repository metadata
MetaRecordURL
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Features of the FAIR Accessor
3: Symmetry & predictable path to citation
XXX
Part of dataset XXXMetadata...
DATA - format 1DATA - format 2
The record metadata contains an “upward” link to the Repository-level metadata, which should contain license and citation information
Repository metadata:Cite: doi:10/8847.384License: cc-by
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Features of the FAIR Accessor
4: Granularity of Access/Privacy/Security
Container Resource HTTP GET
<FAIR metadata/>
Contains
<<184 Records>>
Contact Mark Wilkinson For more information about These records
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Features of the FAIR Accessor
4: Granularity of Access/Privacy/Security
Container Resource HTTP GET
<FAIR metadata/>
Contains
<<184 Records>>
Contact Mark Wilkinson For more information about These records
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Features of the FAIR Accessor
Container HTTP GET
<FAIR metadata/>Contains
MetaRecordResource3
MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:distribution
<<NONE>>
HTTP GET
4: Granularity of Access/Privacy/Security
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Features of the FAIR Accessor
Container HTTP GET
<FAIR metadata/>Contains
MetaRecordResource3
MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:distribution
<<NONE>>
HTTP GET
4: Granularity of Access/Privacy/Security
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Container HTTP GET
<FAIR metadata/>
Contains MetaRecordResource3
...
MetaRecord Resource3
<FAIR metadata/> foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
HTTP GET
Features of the FAIR Accessor
4: Granularity of Access/Privacy/Security
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Container HTTP GET
<FAIR metadata/>
Contains MetaRecordResource3
...
MetaRecord Resource3
<FAIR metadata/> foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
HTTP GET
Features of the FAIR Accessor
4: Granularity of Access/Privacy/Security
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Features of the FAIR Accessor
4: Granularity of Access/Privacy/Security
Thin solution - if it’s private, do nothing! Literally!
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The Real ThingA working FAIR Accessor
Serving a “Slice” of UniProt
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A real-world scenario...
You are publishing a paper describing the evolution of proteins in the RNA Processing
machineries of the fungus Aspergillus nidulans.
You want to be a good scholarly publisherinterested in transparency and reproducibility
So you must describe, in detail, the inclusion/exclusion criteria for selecting proteins for your dataset
(today, this is generally done either in the text of the paper, or not at all...)
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The query that returns the relevant proteins
WHERE{
?protein a up:Protein .?protein up:organism ?organism .?organism rdfs:subClassOf taxon:162425 .?protein up:classifiedWith ?go .?go rdfs:subClassOf*
<http://purl.obolibrary.org/obo/GO_0006396> .bind(replace(str(?protein),
"http://purl.uniprot.org/uniprot/", "", "i") as ?id)}
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The query that returns the relevant proteins
WHERE{
?protein a up:Protein .?protein up:organism ?organism .?organism rdfs:subClassOf taxon:162425 .?protein up:classifiedWith ?go .?go rdfs:subClassOf*
<http://purl.obolibrary.org/obo/GO_0006396> .bind(replace(str(?protein),
"http://purl.uniprot.org/uniprot/", "", "i") as ?id)}
NCBI Taxonomy:Aspergillus nidulans
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The query that returns the relevant proteins
WHERE{
?protein a up:Protein .?protein up:organism ?organism .?organism rdfs:subClassOf taxon:162425 .?protein up:classifiedWith ?go .?go rdfs:subClassOf*
<http://purl.obolibrary.org/obo/GO_0006396> .bind(replace(str(?protein),
"http://purl.uniprot.org/uniprot/", "", "i") as ?id)}
Gene Ontology:RNA Processing
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Create and publish a FAIR Accessor for that query
http://linkeddata.systems/Accessors/UniProtAccessor
Container Resource HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
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Create and publish a FAIR Accessor for that query
http://linkeddata.systems/Accessors/UniProtAccessor
Container Resource HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
Resolve the URI(in software or in your browser)
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Create and publish a FAIR Accessor for that query
Returns a page of metadata (in this example, in RDF)
Container Resource HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
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70
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71
Note that this Metadata is about ME! I am the creator of this dataset, and may be credited for it.
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Container Resource HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
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Container Resource HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2
format application/xml
HTTP GET
Step down to individual Record metadata
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Step down to individual Record metadata
MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2
format application/xml
HTTP GET
Software calls HTTP GET on the URL representing the MetaRecord Resource for the desired record in the Container
(or just click on it, or type it into your browser)
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<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2
format application/xml
The document that is returned
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Note the change in metadata focus!
This metadata is about the UniProt Record (not about Mark Wilkinson).
The record described in this metadata was created by UniProt, so the citation and authorship information is now THEIRS, not MINE.
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Container Resource
Symmetrical Linkback upward to the Accessor
Container, for additional metadata
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<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2
format application/xml
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Two ways to retrieve the record - RDF or HTML
(in REST-speak, two Representations of that Resource)
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Note that this metadata record is somewhat more FAIR, than what you can (easily) retrieve from UniProt itself!
e.g. the UniProt record does not include the citation or license information - you have to manually surf around the UniProt Web page to find that.
So the Accessor makes UniProt’s already notably FAIR data, even more FAIR (with respect to “R”)
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How FAIR are we now?
What does the Accessor give us?
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What we have achieved
We have created a FAIR record for something - i.e. a slice of a database - that was, historically, un-recordable and un-identifiable in any formal way.
F
F + A
F + R
Accessors are a standard approach to providing human & machine accessible metadata to facilitate appropriate discovery (contextual, biological), proper usage (license) and proper citation for any kind of data.
The discovery, accessibility, and drill-down/up behaviors do not require any novel API, rather simply rely on global Web standards; this allows them to be indexed by existing Web search engines
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What we have achieved
F + AI
The metadata itself uses machine-accessible syntaxes, and widely adopted ontologies and vocabularies, thus easily integrates with other metadata
AAccessors provide a lightweight means to protect privacy while still providing the maximum degree of transparency possible
+Accessors can be static, or dynamic. i.e. we can provide template Accessor file(s) that are edited in Notepad, then published together with the data; or Accessors can dynamically generate their output from code (e.g. layered on a database server)
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So far, we have focused on FAIR Metadata
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Are there approaches to making the DATA FAIR?
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Making a Plant-related Resource FAIR
FAIR reformatting of the plant component of the
Pathogen Host Interaction Database (PHI-base)
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Making a Plant-related Resource FAIR
Dr. Mikel Egaña ArangurenOntologist
Dr. Alejandro Rodríguez GonzálezDatabase Expert
Dr. Alejandro Rodríguez Iglesias(PhD student at the time)
Rodriguez-Iglesias A., Rodriguez-González A., Irvine AG., Sesma A., Urban M., Hammond-Kosack KE., Wilkinson MD. 2016. Publishing FAIR Data: An Exemplar Methodology Utilizing PHI-Base. Frontiers in Plant Science 7.
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Extract Transform Load
A “Brute Force” approach to FAIRness
Requires a ~comprehensive data/semantic model
Making a Plant-related Resource FAIR
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The Plant Pathogen Interaction Ontology (PPIO)
Written in OWL2
Many of the Classes are defined by rich logical axioms
Designed for automated classification and enrichment of data
through logical reasoning(e.g. if attached to a data stream)
Semantic Modeling of Plant Pathogen Interaction
Data
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General introduction 95
The Disease Triangle – Pathogen/Host/Environment
http://fyi.uwex.edu/fieldcroppathology/field-crops-fungicide-information/
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General introduction 96
The Disease Triangle – Pathogen/Host/Environment
This concept has evolved over decades of domain-expert thought and discussion
Why not use this as the basis for our Semantic model of Pathogenicity?
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The Disease Triangle, Modelled as “Contexts”
Interaction Context
Environmental Context
Host Context
Pathogen ContextResulting phenotype
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Interaction Context
PhenotypeResistance phenotype
Susceptibility phenotype
Phenotypic Process
1. Abnormal growth development phenotype.
2. Color variation phenotype.
3. Tissue disintegration phenotype.
4. Vascular system damage phenotype.
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99
Interaction ContextPhenotypic Process Branch
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100
Plant Trait Ontology +
Interaction ContextPhenotypic Process Branch
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The Disease Triangle, Modelled as “Contexts”
Interaction Context
Environmental Context
Host Context
Pathogen ContextResulting phenotype
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Environmental Context manually extracted from the literature
Environmental Context
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Environmental Context manually extracted from the literature
Environmental Context
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Environmental Context manually extracted from the literature
Environmental Context
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A pathogen that enters throughthe stomata will be more successful
in high humidity, and have higher pathogenicity
Environmental Context manually extracted from the literature
Environmental Context
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The Disease Triangle, Modelled as “Contexts”
Interaction Context
Environmental Context
Host Context
Pathogen ContextResulting phenotype
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• Plant-pathogen interaction data, including:
• Resulting phenotypes• Molecular/genetic basis of pathogenicity• Experimental approaches• Provenance information
Host Context
Pathogen Context
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• 4800 interactions• 3300 gene-mutant records• 220 pathogens• 130 hosts• 261 registered diseases• 1700 references
Host Context
Pathogen Context
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Interaction Context
Interaction Context
[WT]
Interaction Context[mutant]
Host Context
Host Context
PathogenContext
Pathogen Context
Description DescriptionProtocol Protocol
“Historical observation”
“Base state” “reduced
virulence”
“soft rot”
Protocol descriptionCitation
PubMedID“PMID:1234”
“gene deletion”
Environmental Context
Environmental Context
Rodríguez-Iglesias A. et al Front. Plant Sci., (2016)
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Interaction Context
Interaction Context
[WT]
Interaction Context[mutant]
Host Context
Host Context
PathogenContext
Pathogen Context
Description DescriptionProtocol Protocol
“Historical observation”
“Base state” “reduced
virulence”
“soft rot”
Protocol descriptionCitation
PubMedID“PMID:1234”
“gene deletion”
Environmental Context
Environmental Context
Rodríguez-Iglesias A. et al Front. Plant Sci., (2016)
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Pathogen Context
Allele
Gene
Locus ID
Gene function
Gene name
Gene accession
“AEQ95741”
“Effector protein”
“TAL2G”
“G7TJZ8”
Rodríguez-Iglesias A. et al Front. Plant Sci., (2016)
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Pathogen Context
Allele
Gene
Locus ID
Gene function
Gene name
Gene accession
“AEQ95741”
“Effector protein”
“TAL2G”
“G7TJZ8”
Rodríguez-Iglesias A. et al Front. Plant Sci., (2016)
http://identifiers.org/*/*
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Pathogen Context
Allele
Gene
Locus ID
Gene function
Gene name
Gene accession
“AEQ95741”
“Effector protein”
“TAL2G”
“G7TJZ8”
Rodríguez-Iglesias A. et al Front. Plant Sci., (2016)
rdfs:label
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Pathogen Context
Allele
Gene
Locus ID
Gene function
Gene name
Gene accession
“AEQ95741”
“Effector protein”
“TAL2G”
“G7TJZ8”
Rodríguez-Iglesias A. et al Front. Plant Sci., (2016)
http://identifiers.org/*/*
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Pathogen Context
Allele
Gene
Locus ID
Gene function
Gene name
Gene accession
“AEQ95741”
“Effector protein”
“TAL2G”
“G7TJZ8”
Rodríguez-Iglesias A. et al Front. Plant Sci., (2016)
http://identifiers.org/*/*
KEY MESSAGE:
Because we use identifiers.org URIs, and AgroLD does also,
we can query our Pathogen Host Interaction database, and
DYNAMICALLY RETRIEVE additional information from AgroLD
with NO additional effort!!
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Transform PHI-base data into RDF compliant with the PPIO Ontology
Load into Virtuoso Triplestore
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Transform PHI-base data into RDF compliant with the PPIO Ontology
Load into Virtuoso Triplestore
(this was a LOT of work!!)
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Transform PHI-base data into RDF compliant with the PPIO Ontology
Load into Virtuoso Triplestore
…but are we now FAIR?
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Transform PHI-base data into RDF compliant with the PPIO Ontology
Load into Virtuoso Triplestore
…but are we now FAIR?
…Not really….
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Findable
Accessible
Interoperable
ReusableX
X
HTTP GET, SPARQL, open access
RDF with published ontologies
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Findable
Accessible
Interoperable
ReusableX
X• How would you find this database?• How would you know if anything interesting is in
it?• How would you (your machine) find a record?
• Who do you cite if you reuse a piece of data?• What are the license conditions? • Can I reuse the data at all??
HTTP GET, SPARQL, open access
RDF with published ontologies
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Build a FAIR Accessorhttp://linkeddata.systems/SemanticPHIBase/Metadata
Container Resource HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic SemPHI #1
dcat:Distribution_1Source URL_U1Format rdf+xml
dcat:Distribution_2Source URL_U2Format HTML
HTTP GET
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Container Resource HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic SemPHI #1
dcat:Distribution_1Source URL_U1Format rdf+xml
dcat:Distribution_2Source URL_U2Format HTML
HTTP GET
Build a FAIR Accessorhttp://linkeddata.systems/SemanticPHIBase/Metadata
The URL of the record in“native” PHI-base
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Container Resource HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic SemPHI #1
dcat:Distribution_1Source URL_U1Format rdf+xml
dcat:Distribution_2Source URL_U2Format HTML
HTTP GET
Build a FAIR Accessorhttp://linkeddata.systems/SemanticPHIBase/Metadata
The URL of the (RDF) record inSemantic PHI-base
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This allows us to find Semantic PHI-base
based on its Repository-level Metadata
“what kind of data does Semantic PHI-base Contain?”
“Does it have any information about my gene of interest?”
And “drill-down” to a record of interestselected based on its Record Metadata
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But… FAIR Accessors should be symmetrical
How do I go from data back “upwards” to metadata?
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But… FAIR Accessors should be symmetrical
How do I go from data back “upwards” to metadata?To allow the retrieval of the Metadata
for any piece of data in Semantic PHI Base
Use the URL of the FAIR Accessor (Container Resource)as the URL of the “Named Graph” in the triplestore
using RDF “Quads”
SubjectURI PredicateURI ObjectURI ContextURL
Container URL HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
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But… FAIR Accessors should be symmetrical
How do I go from data back “upwards” to metadata?
Container URL HTTP GET
<FAIR metadata/>
Contains
MetaRecordResource1 MetaRecordResource2 MetaRecordResource3
...
To allow the retrieval of the Metadata for any piece of data in Semantic PHI Base
Use the URL of the FAIR Accessor (Container Resource)as the URL of the “Named Graph” in the triplestore
using RDF “Quads”
SubjectURI PredicateURI ObjectURI Container URL
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Findable
Accessible
Interoperable
Reusable
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The Brute Force approach is…
a lot of work!
Worthwhile for community-critical resources and
databases like AgroLD, UniProt, PHI-base,
ChEMBL, etc.
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Is there a more “elegant” & lightweight
way to be FAIR?
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FAIR Projection:
Providing FAIR Datafrom non-FAIR Data
Dynamically
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This is going to be a bit complicated, but please be patient
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Imagine the data we need to integrate
is in a CSV filein FigShare or Zenodo
How do we discover and integrate that data?
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Things we need to do:
We need a way to query “opaque” data blobs (like CSV) about their content
We need a way to retrieve that content in a FAIR format
We need, therefore, to model semantics for that opaque data content
We need to model various semantics for that content (one “size” doesn’t fit all!)
We need to associate those semantic models with a record or record-sets
We need a way to query those semantics determine which “size” fits our req’s
We would like to reuse semantic definitions as much as possible
We need to do all of this without creating a new API :-)
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Triple Pattern Fragments+
RDF Mapping Language
Ruben VerborghGhent University
Anastasia DimouGhent University
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Triple Pattern Fragments (TPF)A REST interface for requesting/retrieving RDF Triples
(from any source)
Ruben Verborgh
“Slices” of data, from any source, are considered Resources and are therefore represented by a distinct URL:
http://some.database.org/dataset?s=___;p=___;o=___
Calling HTTP GET on a TPF URL returns the set of Triples matching {?s, ?p, ?o}
PLUS hypermedia instructions and Resource URLs for other relevant slices.
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Triple Pattern Fragments (TPF)A REST interface for retrieving RDF Triples
(from any source)
Ruben Verborgh
For example, the “BMI” column from a patient registry is a Resource with the URL:
http://my.registry.org/patients?p=CMO:0000105 (CMO:0000105 = “body mass index””)
HTTP GET gives me all BMI triples in the registry, together with other Resource URLs representing other “slices” that
might be useful, for example:
http://my.registry.org/patients?p=CMO:0000004 (CMO:0000004 = “systolic B.P.”)
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Triple Pattern Fragments (TPF)A REST interface for retrieving RDF Triples
(from any source)
Ruben Verborgh
For example, the “BMI” column from a patient registry is a Resource with the URL:
http://my.registry.org/patients?p=CMO:0000105 (CMO:0000105 = “body mass index””)
HTTP GET gives me all BMI triples in the registry, together with other Resource URLs representing other “slices” that
might be useful, for example:
http://my.registry.org/patients?p=CMO:0000004 (CMO:0000004 = “systolic B.P.”)
![Page 139: IBC FAIR Data Prototype Implementation slideshow](https://reader035.vdocuments.site/reader035/viewer/2022062522/58870cf91a28abf2228b5553/html5/thumbnails/139.jpg)
We have a standard, RESTful way to request triples from
any data source
i.e. every slice of every dataset will be considered a distinct Resource
→ simply call HTTP GET on that Resource to get the Triples
![Page 140: IBC FAIR Data Prototype Implementation slideshow](https://reader035.vdocuments.site/reader035/viewer/2022062522/58870cf91a28abf2228b5553/html5/thumbnails/140.jpg)
But... We have no way to know what
TPF Resources are available for any given dataset
or what those Resources “are” (proteins? genes? patients? articles?)
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RMLA way to describe the structure of an RDF
document
Anastasia Dimou
RML allows us to create models of (meta)data structures
“What could this data look like, if it were mapped to RDF?”
RML fulfills similar objectives to DCAT Profiles, the Dublin Core Application Profile, and ISO
11179 - Metadata Registries;but has added advantages!
http://rml.io/RMLmappingLanguage.html
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Using RML to describe the structure
and semantics of a single Triple
Map1
PredicateObject Map
SubjectMap
ObjectMap
ex:PatientRecord
subjectMap template“http://example.org/patient/{id}”
predicateObjectM
ap
predicate ex:hasVariant
objectMa
p
class
Map2
parentTriplesMap
SubjectMap2
SO:0000694(“SNP”)
subjectMap template“http://identifiers.org/dbsnp/{snp}”
class
THE MODEL
![Page 143: IBC FAIR Data Prototype Implementation slideshow](https://reader035.vdocuments.site/reader035/viewer/2022062522/58870cf91a28abf2228b5553/html5/thumbnails/143.jpg)
Using RML to describe the structure
and semantics of a single Triple
Map1
PredicateObject Map
SubjectMap
ObjectMap
ex:PatientRecord
subjectMap template“http://example.org/patient/{id}”
predicateObjectM
ap
predicate ex:hasVariant
objectMa
p
class
Map2
parentTriplesMap
SubjectMap2
SO:0000694(“SNP”)
subjectMap template“http://identifiers.org/dbsnp/{snp}”
class
THE MODEL
We call this a “Triple Descriptor”
These are used to describe the structure of data
“slices” in which all Triples have the same structure
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THE MODEL
Using RML to describe the structure
and semantics of a single Triple
Map1
PredicateObject Map
SubjectMap
ObjectMap
ex:PatientRecord
subjectMap template“http://example.org/patient/{id}”
predicateObjectM
ap
predicate ex:hasVariant
objectMa
p
class
Map2
parentTriplesMap
SubjectMap2
SO:0000694(“SNP”)
subjectMap template“http://identifiers.org/dbsnp/{snp}”
class
Patient:123
rdf:type
ex:PatientRecord
snp:rs0020394
ex:hasVariant
rdf:type
ex:PatientRecord
The Data
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Where are we now?
TPF - A standard, RESTful way to request Triples
Triple Descriptors - A standard way to describe the structure and meaning of a Triple
![Page 146: IBC FAIR Data Prototype Implementation slideshow](https://reader035.vdocuments.site/reader035/viewer/2022062522/58870cf91a28abf2228b5553/html5/thumbnails/146.jpg)
Where are we now?
TPF - A standard, RESTful way to request Triples
Triple Descriptors - A standard way to describe the structure and meaning of a Triple
We need a way to associate these with each other
We need a way to associate these with a dataset or record
![Page 147: IBC FAIR Data Prototype Implementation slideshow](https://reader035.vdocuments.site/reader035/viewer/2022062522/58870cf91a28abf2228b5553/html5/thumbnails/147.jpg)
Luckily, we have already solved this!
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MetaRecord Resource3
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2format application/xml
HTTP GET
The FAIR Accessor can do this
Using the metadata structures defined by DCAT the FAIR Accessor also tells you how to get the content of the record, and what formats are available
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If we consider the TPF Resource URL to be just another DCAT Distribution, we get...
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2format application/xml
dcat:Distribution_3 Source TPF_URL Format rdf+xml
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<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2format application/xml
dcat:Distribution_3 Source TPF_URL Format rdf+xml
If we consider the TPF Resource URL to be just another DCAT Distribution, we get...
URL representing the Triple Pattern Fragment Resource
![Page 151: IBC FAIR Data Prototype Implementation slideshow](https://reader035.vdocuments.site/reader035/viewer/2022062522/58870cf91a28abf2228b5553/html5/thumbnails/151.jpg)
If we consider the TPF Resource URL to be just another DCAT Distribution, we get… now add the Triple Descriptor <FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2
format application/xml dcat:Distribution_3
Source TPFrag_URL_1
format rdf+xmlModel: Triple_Desc_URL
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2format application/xml
dcat:Distribution_3 Source TPF_URL Format rdf+xml Model: Triple_Desc_URL
![Page 152: IBC FAIR Data Prototype Implementation slideshow](https://reader035.vdocuments.site/reader035/viewer/2022062522/58870cf91a28abf2228b5553/html5/thumbnails/152.jpg)
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2format application/xml
dcat:Distribution_3 Source
TPF_URL_1 Format rdf+xml Model: Triple_Desc_URL
If we consider the TPF Resource URL to be just another DCAT Distribution, we get… now add the Triple Descriptor
HTTP GET on thatURL returns:
![Page 153: IBC FAIR Data Prototype Implementation slideshow](https://reader035.vdocuments.site/reader035/viewer/2022062522/58870cf91a28abf2228b5553/html5/thumbnails/153.jpg)
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2format application/xml
dcat:Distribution_3 Source TPF_URL Format rdf+xml Model: Triple_Desc_URL
If we consider the TPF Resource URL to be just another DCAT Distribution, we get… now add the Triple Descriptor
Record+
TPF Server+
RML Model=
FAIR Projector
![Page 154: IBC FAIR Data Prototype Implementation slideshow](https://reader035.vdocuments.site/reader035/viewer/2022062522/58870cf91a28abf2228b5553/html5/thumbnails/154.jpg)
If we consider the TPF Resource URL to be just another DCAT Distribution, we get… now add the Triple DescriptorHTTP GET on TPF_URL
returns rdf+xml triples from Record R
That look like
Interoperability
without Brute Force
<FAIR metadata/>
foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2format application/xml
dcat:Distribution_3 Source TPF_URL Format rdf+xml Model: Triple_Desc_URL
![Page 155: IBC FAIR Data Prototype Implementation slideshow](https://reader035.vdocuments.site/reader035/viewer/2022062522/58870cf91a28abf2228b5553/html5/thumbnails/155.jpg)
I hear you objecting… I skipped something important!!!We still have not defined a
way to CREATE these triples
![Page 156: IBC FAIR Data Prototype Implementation slideshow](https://reader035.vdocuments.site/reader035/viewer/2022062522/58870cf91a28abf2228b5553/html5/thumbnails/156.jpg)
<FAIR metadata/> foaf:primaryTopic Record R
dcat:Distribution_1Source URL_U1format rdf+xml
dcat:Distribution_2Source URL_U2format application/xml
dcat:Distribution_3 Source TPF_URL Format rdf+xml Model: Triple_Desc_URL
I hear you objecting… I skipped something important!!!
How does this return Triples?
We still have not defined a way to
CREATE these triples
![Page 157: IBC FAIR Data Prototype Implementation slideshow](https://reader035.vdocuments.site/reader035/viewer/2022062522/58870cf91a28abf2228b5553/html5/thumbnails/157.jpg)
Sadly, there is no magic wand to create interoperability
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Sadly, there is no magic wand to create interoperability
Someone has to write the TPF server that converts the data
Interoperability will never come “for free”
(because semantics will never come “for free”)
![Page 159: IBC FAIR Data Prototype Implementation slideshow](https://reader035.vdocuments.site/reader035/viewer/2022062522/58870cf91a28abf2228b5553/html5/thumbnails/159.jpg)
However, there are reasons for optimism!
1.Researchers transform data anyway to integrate it - this is a daily routine in most bioinformatics labs
2. For the most common file formats (e.g. CSV or Excel), there are RML-based tools to automate the RDF transformation; simply create an RML model of what you want, and ask the tool to covert the file.
3.Investing time into creating an RML model is more FAIR than ad hoc “re-useless” brute-force transformation. When you create a FAIR Projector for your own data transformation needs, it is reusable!
![Page 160: IBC FAIR Data Prototype Implementation slideshow](https://reader035.vdocuments.site/reader035/viewer/2022062522/58870cf91a28abf2228b5553/html5/thumbnails/160.jpg)
However, there are reasons for optimism!
AND4. RML Triple Descriptors are very simple
(one triple!) so we can also templatize their construction creating a FAIR Projector is quite easy in many cases!
5. Citations Citations Citations! FAIR Accessors/Projectors are FAIR objects - You can get credit if other people use your Projector for their analyses
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Summary of FAIR Projectors
FAIR Projectors provide a discoverable and standardized REST interface to retrieve interoperable data, and its interoperable metadata
F+I+R
A + I
IFAIR Projectors can convert non-FAIR data into FAIR data, or can change the structure, URL format, or semantics of existing FAIR data sources
FAIR Projectors can be deployed over, and provide a common interface to:
- Static Data Deposits, in any format, anywhere- Databases- Triplestores- Certain (common) types of Web ServicesR+
++Triple Descriptors are FAIR entities, intended for reuse, & None of this required a new API
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Siri…
I need data about the expression of the Oryza dwarf-1 gene under high salt conditions.
Please find that data, regardless of location and format
If possible, please reformat it automatically to match my local dataset
Also, please collect the citation information for each piece of data
If the data is not under an open access license, or if any of the data is behind a firewall or paywall, please provide me the contact information of the data owner so that I can ask them for a copy.
The (near!) future of FAIR
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Thanks to:Michel Dumontier - Stanford Center for Biomedical Informatics Research, Stanford, California.
Ruben Verborgh – Ghent University – imec, Ghent, Belgium
Luiz Olavo Bonino da Silva Santos - Dutch Techcentre for Life Sciences, Utrecht, The Netherlands - Vrije Universiteit Amsterdam, Amsterdam, The Netherlands.
Tim Clark - Department of Neurology, Massachusetts General Hospital Boston MA and Harvard Medical School, Boston, MA, USA
Morris A. Swertz - Genomics Coordination Center and Department of Genetics, University Medical Center Groningen, Groningen, The Netherlands
Fleur D.L. Kelpin - Genomics Coordination Center and Department of Genetics, University Medical Center Groningen, Groningen, The Netherlands
Alasdair J. G. Gray - Department of Computer Science, School of Mathematical and Computer Sciences, Heriot-Watt University, Edinburgh, UK
Erik A. Schultes - Department of Human Genetics, Leiden University Medical Center, The Netherlands
Erik M. van Mulligen - Department of Medical Informatics, Erasmus University Medical Center Rotterdam, The Netherlands
Paolo Ciccarese - Perkin Elmer Innovation Lab, Cambridge MA and Harvard Medical School, Boston MA, USA
Mark Thompson - Leiden University Medical Center, Leiden, The Netherlands
Jerven T. Bolleman - Swiss-Prot group, SIB Swiss Institute of Bioinformatics, Centre Medical Universitaire, Geneva, Switzerland
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Thanks to my former lab members… I MISS YOU!!!
Dr. Mikel Egaña ArangurenOntologist
Dr. Alejandro Rodríguez GonzálezDatabase Expert
Dr. Alejandro Rodríguez Iglesias(PhD student at the time)
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Funding for Mark Wilkinson from: Fundacion BBVA and the UPM Isaac Peral programme, and the Spanish Ministerio de Economía y Competitividad grant number TIN2014-55993-R. Additional support for FAIR Skunkworks members comes from:
European Union funded projects ELIXIR-EXCELERATE (H2020 no. 676559), ADOPT BBMRI-ERIC (H2020 no. 676550)CORBEL (H2020 no. 654248)Netherlands Organisation for Scientific Research (Odex4all project)Stichting Topconsortium voor Kennis en Innovatie High Tech Systemen en Materialen (FAIRdICT project)BBMRI-NLRD-Connect and ELIXIR (Rare disease implementation study FP7 no. 305444).
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You are not only welcome to share and reuse this presentation...
...You are encouraged to!http://tinyurl.com/IBC-FAIR
![Page 167: IBC FAIR Data Prototype Implementation slideshow](https://reader035.vdocuments.site/reader035/viewer/2022062522/58870cf91a28abf2228b5553/html5/thumbnails/167.jpg)
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