Matches in Nanopublications for { ?s <http://purl.org/dc/terms/description> ?o ?g. }
- assertion description "This nanopublication defines an assertion template. Such templates are used to generate the input form for the (blue) assertion part of nanopublications." assertion.
- assertion description "This nanopublication defines an assertion template. Such templates are used to generate the input form for the (blue) assertion part of nanopublications." assertion.
- assertion description "<p>Such a nanopublication defines a new class. Classes represent sets of concrete or abstract things, and are by convention named with singular nouns (or noun phrases) like 'human', 'cardiovascular disease', or 'approach'.</p> <p>If the term you want to define does not refer to a set of things but a single instance, such as the planet Mars or Marie Curie, define them with the template for individuals instead.</p>" assertion.
- assertion description "This nanopublication defines an assertion template. Such templates are used to generate the input form for the (blue) assertion part of nanopublications." assertion.
- assertion description "<p>Such a nanopublication expresses an association between an organism (normally identified as belonging to a certain taxon concept) and a nucleotide sequence (that can correspond to a gene or subunit of a gene), for example expressing that Sequence ID (INSDC / Genbank accession number or BOLD Process ID) identifies Organism X as belonging to a Taxon Concept Y.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses an association between an organism taxon and a nucleotide sequence (that can correspond to a gene or subunit of a gene), for example expressing that Sequence ID (INSDC / Genbank accession number or BOLD Process ID) identifies a given taxon concept.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses an association between an organism taxon and a nucleotide sequence (that can correspond to a gene or subunit of a gene), for example expressing that Sequence ID (INSDC / Genbank accession number or BOLD Process ID) identifies a given taxon concept.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses an association between an organism taxon and a nucleotide sequence (that can correspond to a gene or subunit of a gene), for example expressing that Sequence ID (INSDC / Genbank accession number or BOLD Process ID) identifies a given taxon concept.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses an association between an organism (normally identified as belonging to a certain taxon concept) and a nucleotide sequence (that can correspond to a gene or subunit of a gene), for example expressing that Sequence ID (INSDC / Genbank accession number or BOLD Process ID) identifies Organism X as belonging to a Taxon Concept Y.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses an association between an organism (normally identified as belonging to a certain taxon concept) and a nucleotide sequence (that can correspond to a gene or subunit of a gene), for example expressing that Sequence ID (INSDC / Genbank accession number or BOLD Process ID) identifies Organism X as belonging to a Taxon Concept Y.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses an association between an organism instance and an environment, expressing that the given organism was observed in the specified type of environment.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses an association between an organism instance and an environment, expressing that the given organism was observed in the specified type of environment.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses an association between an organism (normally identified as belonging to a certain taxon concept) and a nucleotide sequence (that can correspond to a gene or subunit of a gene), for example expressing that Sequence ID (INSDC / Genbank accession number or BOLD Process ID) identifies Organism X as belonging to a Taxon Concept Y.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses an association between two organism instances (subject and object), for example expressing that one subject individual ate the object individual.</p> <p>For expressing interactions or more general knowledge between classes of organisms (taxa), please use the alternative template "Associations between taxa".</p>" assertion.
- assertion description "<p>Such a nanopublication expresses an association between an organism taxon and a nucleotide sequence (that can correspond to a gene or subunit of a gene), for example expressing that Sequence ID (INSDC / Genbank accession number or BOLD Process ID) identifies a given taxon concept.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses an association between an organism taxon and a nucleotide sequence (that can correspond to a gene or subunit of a gene), for example expressing that Sequence ID (INSDC / Genbank accession number or BOLD Process ID) identifies a given taxon concept.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses a relation of synonymy between two organism taxons.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses a relation of synonymy between two organism taxons.</p>" assertion.
- assertion description "<p>Such nanopublications define a new named individual. Such a named individual represets a single concrete or abstract thing that is in some way relevant. Examples are the planet Mars, Marie Curie, or the Universal Declaration of Human Rights.</p> <p>Such individuals do <strong>not</strong> represent sets of things, like humans, diseases, or ideas. Such concepts representing sets should be defined with the template for classes.</p>" assertion.
- assertion description "<p>Such a nanopublication defines a new class. Classes represent sets of concrete or abstract things, and are by convention named with singular nouns (or noun phrases) like 'human', 'cardiovascular disease', or 'approach'.</p> <p>If the term you want to define does not refer to a set of things but a single instance, such as the planet Mars or Marie Curie, define them with the template for individuals instead.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses a relation of synonymy between two organism taxons.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses a relation of synonymy between two organism taxons.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses an association between an organism taxon and a nucleotide sequence (that can correspond to a gene or subunit of a gene), for example expressing that Sequence ID (INSDC / Genbank accession number or BOLD Process ID) identifies a given taxon concept.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses an association between two organism instances (subject and object), for example expressing that one subject individual ate the object individual.</p> <p>For expressing interactions or more general knowledge between classes of organisms (taxa), please use the alternative template "Associations between taxa".</p>" assertion.
- assertion description "<p>Such a nanopublication expresses an association between an organism (normally identified as belonging to a certain taxon concept) and a nucleotide sequence (that can correspond to a gene or subunit of a gene), for example expressing that Sequence ID (INSDC / Genbank accession number or BOLD Process ID) identifies Organism X as belonging to a Taxon Concept Y.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses an association between an organism instance and an environment, expressing that the given organism was observed in the specified type of environment.</p>" assertion.
- assertion description "<p>Such a nanopublication expresses an association between classes of organisms (taxa), a subject axon and an object taxon, for example expressing that the organisms of the subject taxon prey on organisms of the object taxon.</p> <p>For expressing observations of interactions between individual organisms, please use the alternative template "Associations between organisms".</p>" assertion.
- assertion description "Such a nanopublication expresses an association between an organism taxon (e.g. a species) and an environment, for example expressing that the organisms of the given species inhabit the specified environment." assertion.
- assertion description "Such a nanopublication includes a text that refers to an existing paper or other document, such as stating an agreement or a correction. The reference to the existing paper is based on the <a href="https://sparontologies.github.io/cito/current/cito.html" target="_blank">Citation Typing Ontology (CiTO)</a>." assertion.
- assertion description "<p>Such nanopublications express biology-related relations, such as that a chemical can treat a disease or that a given type of protein interacts with another one.</p> <p>The relations of this template are based on the <a href="https://biolink.github.io/biolink-model/docs/">Biolink model</a>.</p>" assertion.
- assertion description "<p>Such nanopublications express a causal (e.g. "A causes B"), spatio-temporal (e.g. "A is included in B"), or comparative (e.g. "A is larger than B") relation between the instances of two classes.</p> <p>The subject and object are classes that are connected by the fact that their instances tend to have a particular relation.</p> <p>The aspect of "tending to" is left underspecified; for more precise statements, use the super-pattern template instead.</p>" assertion.
- assertion description "<p>Such nanopublications express a causal (e.g. "A caused B"), spatio-temporal (e.g. "A is included in B"), or comparative (e.g. "A is larger than B") relation between two things.</p> <p>Note that the left-hand side element (subject) as well as the right-hand side one (object) need to be <strong>individuals</strong> that exist just once, like <em>the French revolution</em> or <em>the Internet</em>, and <strong>not classes</strong> that stand for a set of things, like <em>city</em> or <em>headache</em>.</p>" assertion.
- assertion description "Such a nanopublication contains the main high-level metadata about a scholarly article, including title, authors, and links to other nanopublications." assertion.
- assertion description "Such a nanopublication declares that its creator is on the editorial board for a given journal." assertion.
- assertion description "This nanopublication maps identifiers to labels, which can be used, for example, to populate drop-down lists of input forms." assertion.
- assertion description "This nanopublication maps identifiers to labels, which can be used, for example, to populate drop-down lists of input forms." assertion.
- assertion description "Such a nanopublications defines a group to which people can be linked as members." assertion.
- assertion description "Such a nanopublication expresses that its creator thinks the given thing is either overrated or underrated. This thing can be anything, such as an approach, a website, or a city." assertion.
- assertion description "<p>Such a nanopublication describes the results of a Machine Learning experiment, such as the accuracy achieved by a applying a given ML technique on a given dataset. This template is based on <a href="https://ml-schema.github.io/documentation/ML%20Schema.html">ML Schema</a>.</p>" assertion.
- assertion description "Such a nanopublication represents an annotation of a text according to the <a href="https://www.w3.org/ns/oa">Web Annotation Vocabulary</a>." assertion.
- assertion description "The creator of such a nanopublication declares to have participated in the specified event." assertion.
- assertion description "Template for defining a community of practice aiming at implementing the FAIR principles." assertion.
- assertion description "Template for defining a community of practice aiming at implementing the FAIR principles." assertion.
- research-activity description zookeys.740.23495 provenance.
- research-activity description ece3.927 provenance.
- assertion description "<p>Such a nanopublication expresses an association between classes of organisms (taxa), a subject taxon and an object taxon, for example expressing that the organisms of the subject taxon prey on organisms of the object taxon.</p> <p>For expressing observations of interactions between individual organisms, please use the alternative template "Associations between organisms".</p>" assertion.
- research-activity description ece3.927 provenance.
- assertion description "Template for defining a FAIR specification for the following subtypes: metadata schema, metadata-data linking schema, communication protocol, knowledge representation language, structured vocabulary, semantic model and provenance model." assertion.
- assertion description "This template allows for describing the benchmark procedure and other metadata of benchmarks performed with RiverBench tasks and datasets. Please refer to RiverBench profiles and tasks using their permanent URLs (PURLs) with a specified version (not dev!). For example: https://w3id.org/riverbench/v/2.0.1/profiles/flat-mixed https://w3id.org/riverbench/v/2.0.1/tasks/flat-compression In the benchmark metrics field, use the names of the metrics specified in the task definition that you have used. If possible, link to the paper that reported this benchmark using the "cites as data source" field. This way, a citation of this paper will appear on RiverBench's website." assertion.
- assertion description "This template allows you to make annotate external resources (e.g., papers, software, published datasets) with their RDF stream type, according to RDF-STaX. The assertion is subjective and it includes information on who made it (you) and how was it derived from the source material. More information about RDF-STaX: https://w3id.org/stax" assertion.
- _step description "Step 1" assertion.
- _step description "Step 2" assertion.
- _step description "Step 3" assertion.
- _plan description "This is a test workflow." assertion.
- _step description "Step 1" assertion.
- _step description " @is_fairstep(label='test_label') def add(a: int, b: int) -> int: """ Computational step adding two ints together. """ return a + b " assertion.
- _step description "Step 1" assertion.
- _step description " @is_fairstep(label='test_label') def add(a: int, b: int) -> int: """ Computational step adding two ints together. """ return a + b " assertion.
- _step description "Step 1" assertion.
- _step description " @is_fairstep(label='test_label') def add(a: int, b: int) -> int: """ Computational step adding two ints together. """ return a + b " assertion.
- _step description "Step 1" assertion.
- _step description " @is_fairstep(label='test_label') def add(a: int, b: int) -> int: """ Computational step adding two ints together. """ return a + b " assertion.
- _step description "Step 1" assertion.
- _step description " @is_fairstep(label='test_label') def add(a: int, b: int) -> int: """ Computational step adding two ints together. """ return a + b " assertion.
- _step description "Step 1" assertion.
- _step description " @is_fairstep(label='test_label') def add(a: int, b: int) -> int: """ Computational step adding two ints together. """ return a + b " assertion.
- _step description "Step 1" assertion.
- _step description "Step 2" assertion.
- _step description "Step 3" assertion.
- _plan description "This is a test workflow." assertion.
- _step description "Preheat an oven to 200 degrees C." assertion.
- _step description " @is_fairstep(label='test_label') def add(a: int, b: int) -> int: """ Computational step adding two ints together. """ return a + b " assertion.
- _step description "Step 1" assertion.
- _step description "Step 2" assertion.
- _step description "Step 3" assertion.
- _plan description "This is a test workflow." assertion.
- _step description "Preheat an oven to 200 degrees C." assertion.
- _step description " @is_fairstep(label='test_label') def add(a: int, b: int) -> int: """ Computational step adding two ints together. """ return a + b " assertion.
- _step description "Step 1" assertion.
- _step description "Step 2" assertion.
- _step description "Step 3" assertion.
- _plan description "This is a test workflow." assertion.
- _step description "Preheat an oven to 200 degrees C." assertion.
- _step description " @is_fairstep(label='test_label') def add(a: int, b: int) -> int: """ Computational step adding two ints together. """ return a + b " assertion.
- _step description "Step 1" assertion.
- _step description "Step 2" assertion.
- _step description "Step 3" assertion.
- _plan description "This is a test workflow." assertion.
- _step description "Preheat an oven to 200 degrees C." assertion.
- _step description " @is_fairstep(label='test_label') def add(a: int, b: int) -> int: """ Computational step adding two ints together. """ return a + b " assertion.
- _step description "Step 1" assertion.
- _step description "Step 2" assertion.
- _step description "Step 3" assertion.
- _plan description "This is a test workflow." assertion.
- _step description "Preheat an oven to 200 degrees C." assertion.
- _step description " @is_fairstep(label='test_label') def add(a: int, b: int) -> int: """ Computational step adding two ints together. """ return a + b " assertion.
- _step description "Step 1" assertion.
- _step description "Step 2" assertion.
- _step description "Step 3" assertion.
- _plan description "This is a test workflow." assertion.