Molecular Interaction Map - ComplexAssembly - Classes | NCBO BioPortal

Molecular Interaction Map

Last uploaded: October 30, 2014

Details

Acronym	MIM
Visibility	Public
Description	The Molecular Interaction Map (MIM) notation seeks to provide a standardized method to draw diagrams for bioregulatory networks with features similar to technical diagrams in other fields. This vocabulary uses the term hierarchy from the Formal MIM Notation Specification. Where possible, Systems Biology Ontology (SBO) and Biological Pathway Exchange (BioPAX) terms and IRIs are used. If no SBO or BioPAX term is available, a new term and IRI are created. This is currently only a partial implementation. Many elements still need to be added to cover the full the specification.
Status	Alpha
Format	OWL
Contact	Anders Riutta, anders.riutta@gladstone.ucsf.edu
Categories	Biological Process, Vocabularies

Version	Released	Uploaded	Downloads
10:30:2014 16:04 (Parsed, Indexed, Metrics, Annotator)	10/30/2014	10/30/2014	OWL \| CSV \| RDF/XML \| Diff
10:10:2014 16:04 (Archived)	10/29/2014	10/29/2014	OWL \| Diff
10:10:2014 16:04 (Archived)	10/29/2014	10/29/2014	OWL

No views of MIM available

Classes	88
Individuals	0
Properties	96
Maximum depth	3
Maximum number of children	15
Average number of children	3
Classes with a single child	7
Classes with more than 25 children	0
Classes with no definition	6

No projects using MIM

Id	http://www.biopax.org/release/biopax-level3.owl#ComplexAssembly http://www.biopax.org/release/biopax-level3.owl#ComplexAssembly
Preferred Name	ComplexAssembly
Definitions	Definition: A conversion interaction in which a set of physical entities, at least one being a macromolecule (e.g. protein, RNA, DNA), aggregate to from a complex physicalEntity. One of the participants of a complexAssembly must be an instance of the class Complex. The modification of the physicalentities involved in the ComplexAssembly is captured via BindingFeature class. Usage: This class is also used to represent complex disassembly. The assembly or disassembly of a complex is often a spontaneous process, in which case the direction of the complexAssembly (toward either assembly or disassembly) should be specified via the SPONTANEOUS property. Conversions in which participants obtain or lose CovalentBindingFeatures ( e.g. glycolysation of proteins) should be modeled with BiochemicalReaction. Synonyms: aggregation, complex formation Examples: Assembly of the TFB2 and TFB3 proteins into the TFIIH complex, and assembly of the ribosome through aggregation of its subunits.
Type	http://www.w3.org/2002/07/owl#Class

definition	Definition: A conversion interaction in which a set of physical entities, at least one being a macromolecule (e.g. protein, RNA, DNA), aggregate to from a complex physicalEntity. One of the participants of a complexAssembly must be an instance of the class Complex. The modification of the physicalentities involved in the ComplexAssembly is captured via BindingFeature class. Usage: This class is also used to represent complex disassembly. The assembly or disassembly of a complex is often a spontaneous process, in which case the direction of the complexAssembly (toward either assembly or disassembly) should be specified via the SPONTANEOUS property. Conversions in which participants obtain or lose CovalentBindingFeatures ( e.g. glycolysation of proteins) should be modeled with BiochemicalReaction. Synonyms: aggregation, complex formation Examples: Assembly of the TFB2 and TFB3 proteins into the TFIIH complex, and assembly of the ribosome through aggregation of its subunits.
prefLabel	ComplexAssembly
comment	Definition: A conversion interaction in which a set of physical entities, at least one being a macromolecule (e.g. protein, RNA, DNA), aggregate to from a complex physicalEntity. One of the participants of a complexAssembly must be an instance of the class Complex. The modification of the physicalentities involved in the ComplexAssembly is captured via BindingFeature class. Usage: This class is also used to represent complex disassembly. The assembly or disassembly of a complex is often a spontaneous process, in which case the direction of the complexAssembly (toward either assembly or disassembly) should be specified via the SPONTANEOUS property. Conversions in which participants obtain or lose CovalentBindingFeatures ( e.g. glycolysation of proteins) should be modeled with BiochemicalReaction. Synonyms: aggregation, complex formation Examples: Assembly of the TFB2 and TFB3 proteins into the TFIIH complex, and assembly of the ribosome through aggregation of its subunits.
prefixIRI	ComplexAssembly
subClassOf	http://www.biopax.org/release/biopax-level3.owl#Conversion
type	http://www.w3.org/2002/07/owl#Class
disjointWith	http://www.biopax.org/release/biopax-level3.owl#Transport http://www.biopax.org/release/biopax-level3.owl#Degradation

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Add NCBO Web Widgets to your site for MIM

Widget type	Widget demonstration
Jump To Type a class name from MIM and jump to it in BioPortal Get code	Step 2: Follow the Instructions Download the quick_jump.js file and put it on your server Copy the code below and paste it to your HTML page Note: If you would like to use Quick Jump across multiple ontologies: You can enter a comma-separated list of ontology ids: var BP_ontology_id = "NCIt,SNOMEDCT"; You can set the variable to 'all' to search all ontologies in BioPortal: var BP_ontology_id = "all"; To include definitions in the Jump To drop-down, add the following variable in Javascript: var BP_include_definitions = true; In the code that you just pasted, make sure to change the path to the quick_jump.js file to point to the location where you put the file (relative to your HTML file) For example, if you put the quick_jump.js file in the same directory as your HTML file, this is the code you would use: <div id="bp_quick_jump"></div> <script type="text/javascript"> var BP_ontology_id = "MIM";</script> <script src="quick_jump.js" type="text/javascript" charset="utf-8"></script> For more help visit NCBO Widget Wiki
Form Autocomplete Fill your form fields with classes from MIM Get code	Example 1 (start typing the class name to get its full URI) Example 2 (get the ID for a class) Example 3 (get the preferred name for a class) Step 2: Follow the Instructions Download the form_complete.js file and put it on your server. In the header for the page where you want the form field, include the form_complete.js file. On your form, for the fields where you want to use the class-selection widget, specify the field's class in the following format: `bp_form_complete-{ontology_id_list}-{value}` For example, `bp_form_complete-NCIT-uri` will use NCI Thesaurus (ontology id is NCIT) and will put the class URI in the field after the user selects the class from the pull-down list. Note: In addition to single ontology ids, you can use a list: `bp_form_complete-NCIT,NCBITAXON-uri` OR use 'all' to search across all BioPortal ontologies: `bp_form_complete-all-uri` The autocomplete widget accesses ontology content from the latest version of the ontology. You can use the following parameters to select which value will be placed into the user-visible input field: `uri` put the complete URI of the class (e.g., http://www.biopax.org/release/biopax-level3.owl#EntityReference ) `shortid` put the short id of the class, as used in BioPortal (e.g., "Common_Neoplasm"); `name` put the preferred name of the class (e.g., "Common Neoplasm"); In addition to the input element you defined, there are four hidden form elements that are created and then set when a user selects a class from the list. For example, if you create a field with this code: <input type="text" name="a" class="bp_form_complete-all-uri" size="100"/> The 'name' attribute is used to create the four following fields (note how the 'a' from the name attribute is appended to the id attribute): <input type="hidden" id="a_bioportal_preferred_name"> <input type="hidden" id="a_bioportal_concept_id"> <input type="hidden" id="a_bioportal_ontology_id"> <input type="hidden" id="a_bioportal_full_id"> Additional parameters are documented on the NCBO Widget Wiki For more help visit NCBO Widget Wiki
Visualization Display a visualization for a given class in MIM Get code	Step 2: Follow the Instructions Copy the code below and paste it to your HTML page <iframe frameborder="0" src="/widgets/visualization?ontology=MIM&class=http%3A%2F%2Fwww.biopax.org%2Frelease%2Fbiopax-level3.owl%23EntityReference&apikey=YOUR_API_KEY"></iframe> For more help visit NCBO Widget Wiki
Tree Widget Display a class tree with a search field for MIM Get code	Step 2: Follow the Instructions Copy the code below and paste it to your HTML page <link rel="stylesheet" type="text/css" href="/widgets/jquery.ncbo.tree.css"> <script src="/widgets/jquery.ncbo.tree-2.0.2.js"></script> <div id="widget_tree"></div> var widget_tree = $("#widget_tree").NCBOTree({ apikey: "YOUR_API_KEY", ontology: "MIM" }); You can also view a detailed demonstration For more help visit NCBO Widget Wiki