CPANTS

Bio-Chado-Schema 0.05500

Kwalitee Issues

This is not the latest release. The following issues may have already been fixed in the newer releases.

No Core Issues.

1 Extra Issue

has_meta_json: Add a META.json to the distribution. Your buildtool should be able to autogenerate it.

3 Experimental Issues

has_security_doc: Add SECURITY(.pod|md). See Software::Security::Policy.
security_doc_contains_contact: Add SECURITY(.pod|md) and add a contact address. See Software::Security::Policy.
has_contributing_doc: Add CONTRIBUTING(.pod|md). See https://docs.github.com/en/communities/setting-up-your-project-for-healthy-contributions/setting-guidelines-for-repository-contributors.

Modules

Name	Abstract	Version	View
Bio::Chado::Schema	standard DBIx::Class layer for the Chado database schema	0.05500	metacpan
Bio::Chado::Schema::CellLine::CellLine			metacpan
Bio::Chado::Schema::CellLine::CellLineCvterm			metacpan
Bio::Chado::Schema::CellLine::CellLineCvtermprop			metacpan
Bio::Chado::Schema::CellLine::CellLineDbxref			metacpan
Bio::Chado::Schema::CellLine::CellLineFeature			metacpan
Bio::Chado::Schema::CellLine::CellLineLibrary			metacpan
Bio::Chado::Schema::CellLine::CellLinePub			metacpan
Bio::Chado::Schema::CellLine::CellLineRelationship			metacpan
Bio::Chado::Schema::CellLine::CellLineSynonym			metacpan
Bio::Chado::Schema::CellLine::CellLineprop			metacpan
Bio::Chado::Schema::CellLine::CellLinepropPub			metacpan
Bio::Chado::Schema::Companalysis::Analysis	An analysis is a particular type of a computational analysis; it may be a blast of one sequence against another, or an all by all blast, or a different kind of analysis altogether. It is a single unit of computation.		metacpan
Bio::Chado::Schema::Companalysis::Analysisfeature	Computational analyses generate features (e.g. Genscan generates transcripts and exons; sim4 alignments generate similarity/match features). analysisfeatures are stored using the feature table from the sequence module. The analysisfeature table is used to decorate these features, with analysis specific attributes. A feature is an analysisfeature if and only if there is a corresponding entry in the analysisfeature table. analysisfeatures will have two or more featureloc entries, with rank indicating query/subject		metacpan
Bio::Chado::Schema::Companalysis::Analysisfeatureprop			metacpan
Bio::Chado::Schema::Companalysis::Analysisprop			metacpan
Bio::Chado::Schema::Composite::AllFeatureNames			metacpan
Bio::Chado::Schema::Composite::Dfeatureloc			metacpan
Bio::Chado::Schema::Composite::FLoc			metacpan
Bio::Chado::Schema::Composite::FType			metacpan
Bio::Chado::Schema::Composite::FeatureContains	subject intervals contains (or is same as) object interval. transitive,reflexive		metacpan
Bio::Chado::Schema::Composite::FeatureDifference	size of gap between two features. must be abutting or disjoint		metacpan
Bio::Chado::Schema::Composite::FeatureDisjoint	featurelocs do not meet. symmetric		metacpan
Bio::Chado::Schema::Composite::FeatureDistance			metacpan
Bio::Chado::Schema::Composite::FeatureIntersection	set-intersection on interval defined by featureloc. featurelocs must meet		metacpan
Bio::Chado::Schema::Composite::FeatureMeets	intervals have at least one interbase point in common (ie overlap OR abut). symmetric,reflexive		metacpan
Bio::Chado::Schema::Composite::FeatureMeetsOnSameStrand	as feature_meets, but featurelocs must be on the same strand. symmetric,reflexive		metacpan
Bio::Chado::Schema::Composite::FeatureUnion	set-union on interval defined by featureloc. featurelocs must meet		metacpan
Bio::Chado::Schema::Composite::FeaturesetMeets			metacpan
Bio::Chado::Schema::Composite::FnrType			metacpan
Bio::Chado::Schema::Composite::FpKey			metacpan
Bio::Chado::Schema::Composite::Gff3atts			metacpan
Bio::Chado::Schema::Composite::Gff3view			metacpan
Bio::Chado::Schema::Composite::Gffatts			metacpan
Bio::Chado::Schema::Contact::Contact	Model persons, institutes, groups, organizations, etc.		metacpan
Bio::Chado::Schema::Contact::ContactRelationship	Model relationships between contacts		metacpan
Bio::Chado::Schema::Cv::CommonAncestorCvterm	The common ancestor of any two terms is the intersection of both terms ancestors. Two terms can have multiple common ancestors. Use total_pathdistance to get the least common ancestor		metacpan
Bio::Chado::Schema::Cv::CommonDescendantCvterm	The common descendant of any two terms is the intersection of both terms descendants. Two terms can have multiple common descendants. Use total_pathdistance to get the least common ancestor		metacpan
Bio::Chado::Schema::Cv::Cv	A controlled vocabulary or ontology. A cv is composed of cvterms (AKA terms, classes, types, universals - relations and properties are also stored in cvterm) and the relationships between them.		metacpan
Bio::Chado::Schema::Cv::CvCvtermCount	per-cv terms counts (excludes obsoletes)		metacpan
Bio::Chado::Schema::Cv::CvCvtermCountWithObs	per-cv terms counts (includes obsoletes)		metacpan
Bio::Chado::Schema::Cv::CvLeaf	the leaves of a cv are the set of terms which have no children (terms that are not the object of a relation). All cvs will have at least 1 leaf		metacpan
Bio::Chado::Schema::Cv::CvLinkCount	per-cv summary of number of links (cvterm_relationships) broken down by relationship_type. num_links is the total # of links of the specified type in which the subject_id of the link is in the named cv		metacpan
Bio::Chado::Schema::Cv::CvPathCount	per-cv summary of number of paths (cvtermpaths) broken down by relationship_type. num_paths is the total # of paths of the specified type in which the subject_id of the path is in the named cv. See also: cv_distinct_relations		metacpan
Bio::Chado::Schema::Cv::CvRoot	the roots of a cv are the set of terms which have no parents (terms that are not the subject of a relation). Most cvs will have a single root, some may have >1. All will have at least 1		metacpan
Bio::Chado::Schema::Cv::Cvterm	A term, class, universal or type within an ontology or controlled vocabulary. This table is also used for relations and properties. cvterms constitute nodes in the graph defined by the collection of cvterms and cvterm_relationships.		metacpan
Bio::Chado::Schema::Cv::CvtermDbxref	In addition to the primary identifier (cvterm.dbxref_id) a cvterm can have zero or more secondary identifiers/dbxrefs, which may refer to records in external databases. The exact semantics of cvterm_dbxref are not fixed. For example: the dbxref could be a pubmed ID that is pertinent to the cvterm, or it could be an equivalent or similar term in another ontology. For example, GO cvterms are typically linked to InterPro IDs, even though the nature of the relationship between them is largely one of statistical association. The dbxref may be have data records attached in the same database instance, or it could be a "hanging" dbxref pointing to some external database. NOTE: If the desired objective is to link two cvterms together, and the nature of the relation is known and holds for all instances of the subject cvterm then consider instead using cvterm_relationship together with a well-defined relation.		metacpan
Bio::Chado::Schema::Cv::CvtermRelationship	A relationship linking two cvterms. Each cvterm_relationship constitutes an edge in the graph defined by the collection of cvterms and cvterm_relationships. The meaning of the cvterm_relationship depends on the definition of the cvterm R refered to by type_id. However, in general the definitions are such that the statement "all SUBJs REL some OBJ" is true. The cvterm_relationship statement is about the subject, not the object. For example "insect wing part_of thorax".		metacpan
Bio::Chado::Schema::Cv::Cvtermpath	The reflexive transitive closure of the cvterm_relationship relation.		metacpan
Bio::Chado::Schema::Cv::Cvtermprop	Additional extensible properties can be attached to a cvterm using this table. Corresponds to -AnnotationProperty- in W3C OWL format.		metacpan
Bio::Chado::Schema::Cv::Cvtermsynonym	A cvterm actually represents a distinct class or concept. A concept can be refered to by different phrases or names. In addition to the primary name (cvterm.name) there can be a number of alternative aliases or synonyms. For example, "T cell" as a synonym for "T lymphocyte".		metacpan
Bio::Chado::Schema::Cv::Dbxrefprop	Metadata about a dbxref. Note that this is not defined in the dbxref module, as it depends on the cvterm table. This table has a structure analagous to cvtermprop.		metacpan
Bio::Chado::Schema::Cv::StatsPathsToRoot	per-cvterm statistics on its placement in the DAG relative to the root. There may be multiple paths from any term to the root. This gives the total number of paths, and the average minimum and maximum distances. Here distance is defined by cvtermpath.pathdistance		metacpan
Bio::Chado::Schema::Expression::Eimage			metacpan
Bio::Chado::Schema::Expression::Expression	The expression table is essentially a bridge table.		metacpan
Bio::Chado::Schema::Expression::ExpressionCvterm			metacpan
Bio::Chado::Schema::Expression::ExpressionCvtermprop	Extensible properties for expression to cvterm associations. Examples: qualifiers.		metacpan
Bio::Chado::Schema::Expression::ExpressionImage			metacpan
Bio::Chado::Schema::Expression::ExpressionPub			metacpan
Bio::Chado::Schema::Expression::Expressionprop			metacpan
Bio::Chado::Schema::Expression::FeatureExpression			metacpan
Bio::Chado::Schema::Expression::FeatureExpressionprop	Extensible properties for feature_expression (comments, for example). Modeled on feature_cvtermprop.		metacpan
Bio::Chado::Schema::General::Db	A database authority. Typical databases in bioinformatics are FlyBase, GO, UniProt, NCBI, MGI, etc. The authority is generally known by this shortened form, which is unique within the bioinformatics and biomedical realm. To Do - add support for URIs, URNs (e.g. LSIDs). We can do this by treating the URL as a URI - however, some applications may expect this to be resolvable - to be decided.		metacpan
Bio::Chado::Schema::General::DbDbxrefCount	per-db dbxref counts		metacpan
Bio::Chado::Schema::General::Dbxref	A unique, global, public, stable identifier. Not necessarily an external reference - can reference data items inside the particular chado instance being used. Typically a row in a table can be uniquely identified with a primary identifier (called dbxref_id); a table may also have secondary identifiers (in a linking table <T>_dbxref). A dbxref is generally written as <DB>:<ACCESSION> or as <DB>:<ACCESSION>:<VERSION>.		metacpan
Bio::Chado::Schema::General::Project			metacpan
Bio::Chado::Schema::General::Tableinfo			metacpan
Bio::Chado::Schema::Genetic::Environment	The environmental component of a phenotype description.		metacpan
Bio::Chado::Schema::Genetic::EnvironmentCvterm			metacpan
Bio::Chado::Schema::Genetic::FeatureGenotype			metacpan
Bio::Chado::Schema::Genetic::Genotype	Genetic context. A genotype is defined by a collection of features, mutations, balancers, deficiencies, haplotype blocks, or engineered constructs.		metacpan
Bio::Chado::Schema::Genetic::Phendesc	A summary of a _set_ of phenotypic statements for any one gcontext made in any one publication.		metacpan
Bio::Chado::Schema::Genetic::PhenotypeComparison	Comparison of phenotypes e.g., genotype1/environment1/phenotype1 "non-suppressible" with respect to genotype2/environment2/phenotype2.		metacpan
Bio::Chado::Schema::Genetic::PhenotypeComparisonCvterm			metacpan
Bio::Chado::Schema::Genetic::Phenstatement	Phenotypes are things like "larval lethal". Phenstatements are things like "dpp-1 is recessive larval lethal". So essentially phenstatement is a linking table expressing the relationship between genotype, environment, and phenotype.		metacpan
Bio::Chado::Schema::Library::Library			metacpan
Bio::Chado::Schema::Library::LibraryCvterm	The table library_cvterm links a library to controlled vocabularies which describe the library. For instance, there might be a link to the anatomy cv for "head" or "testes" for a head or testes library.		metacpan
Bio::Chado::Schema::Library::LibraryDbxref			metacpan
Bio::Chado::Schema::Library::LibraryFeature	library_feature links a library to the clones which are contained in the library. Examples of such linked features might be "cDNA_clone" or "genomic_clone".		metacpan
Bio::Chado::Schema::Library::LibraryPub			metacpan
Bio::Chado::Schema::Library::LibrarySynonym			metacpan
Bio::Chado::Schema::Library::Libraryprop			metacpan
Bio::Chado::Schema::Library::LibrarypropPub			metacpan
Bio::Chado::Schema::Mage::Acquisition	This represents the scanning of hybridized material. The output of this process is typically a digital image of an array.		metacpan
Bio::Chado::Schema::Mage::AcquisitionRelationship	Multiple monochrome images may be merged to form a multi-color image. Red-green images of 2-channel hybridizations are an example of this.		metacpan
Bio::Chado::Schema::Mage::Acquisitionprop	Parameters associated with image acquisition.		metacpan
Bio::Chado::Schema::Mage::Arraydesign	General properties about an array. An array is a template used to generate physical slides, etc. It contains layout information, as well as global array properties, such as material (glass, nylon) and spot dimensions (in rows/columns).		metacpan
Bio::Chado::Schema::Mage::Arraydesignprop	Extra array design properties that are not accounted for in arraydesign.		metacpan
Bio::Chado::Schema::Mage::Assay	An assay consists of a physical instance of an array, combined with the conditions used to create the array (protocols, technician information). The assay can be thought of as a hybridization.		metacpan
Bio::Chado::Schema::Mage::AssayBiomaterial	A biomaterial can be hybridized many times (technical replicates), or combined with other biomaterials in a single hybridization (for two-channel arrays).		metacpan
Bio::Chado::Schema::Mage::AssayProject	Link assays to projects.		metacpan
Bio::Chado::Schema::Mage::Assayprop	Extra assay properties that are not accounted for in assay.		metacpan
Bio::Chado::Schema::Mage::Biomaterial	A biomaterial represents the MAGE concept of BioSource, BioSample, and LabeledExtract. It is essentially some biological material (tissue, cells, serum) that may have been processed. Processed biomaterials should be traceable back to raw biomaterials via the biomaterialrelationship table.		metacpan
Bio::Chado::Schema::Mage::BiomaterialDbxref			metacpan
Bio::Chado::Schema::Mage::BiomaterialRelationship	Relate biomaterials to one another. This is a way to track a series of treatments or material splits/merges, for instance.		metacpan
Bio::Chado::Schema::Mage::BiomaterialTreatment	Link biomaterials to treatments. Treatments have an order of operations (rank), and associated measurements (unittype_id, value).		metacpan
Bio::Chado::Schema::Mage::Biomaterialprop	Extra biomaterial properties that are not accounted for in biomaterial.		metacpan
Bio::Chado::Schema::Mage::Channel	Different array platforms can record signals from one or more channels (cDNA arrays typically use two CCD, but Affymetrix uses only one).		metacpan
Bio::Chado::Schema::Mage::Control			metacpan
Bio::Chado::Schema::Mage::Element	Represents a feature of the array. This is typically a region of the array coated or bound to DNA.		metacpan
Bio::Chado::Schema::Mage::ElementRelationship	Sometimes we want to combine measurements from multiple elements to get a composite value. Affymetrix combines many probes to form a probeset measurement, for instance.		metacpan
Bio::Chado::Schema::Mage::Elementresult	An element on an array produces a measurement when hybridized to a biomaterial (traceable through quantification_id). This is the base data from which tables that actually contain data inherit.		metacpan
Bio::Chado::Schema::Mage::ElementresultRelationship	Sometimes we want to combine measurements from multiple elements to get a composite value. Affymetrix combines many probes to form a probeset measurement, for instance.		metacpan
Bio::Chado::Schema::Mage::Magedocumentation			metacpan
Bio::Chado::Schema::Mage::Mageml	This table is for storing extra bits of MAGEml in a denormalized form. More normalization would require many more tables.		metacpan
Bio::Chado::Schema::Mage::Protocol	Procedural notes on how data was prepared and processed.		metacpan
Bio::Chado::Schema::Mage::Protocolparam	Parameters related to a protocol. For example, if the protocol is a soak, this might include attributes of bath temperature and duration.		metacpan
Bio::Chado::Schema::Mage::Quantification	Quantification is the transformation of an image acquisition to numeric data. This typically involves statistical procedures.		metacpan
Bio::Chado::Schema::Mage::QuantificationRelationship	There may be multiple rounds of quantification, this allows us to keep an audit trail of what values went where.		metacpan
Bio::Chado::Schema::Mage::Quantificationprop	Extra quantification properties that are not accounted for in quantification.		metacpan
Bio::Chado::Schema::Mage::Study			metacpan
Bio::Chado::Schema::Mage::StudyAssay			metacpan
Bio::Chado::Schema::Mage::Studydesign			metacpan
Bio::Chado::Schema::Mage::Studydesignprop			metacpan
Bio::Chado::Schema::Mage::Studyfactor			metacpan
Bio::Chado::Schema::Mage::Studyfactorvalue			metacpan
Bio::Chado::Schema::Mage::Studyprop			metacpan
Bio::Chado::Schema::Mage::StudypropFeature			metacpan
Bio::Chado::Schema::Mage::Treatment	A biomaterial may undergo multiple treatments. Examples of treatments: apoxia, fluorophore and biotin labeling.		metacpan
Bio::Chado::Schema::Map::Featuremap			metacpan
Bio::Chado::Schema::Map::FeaturemapPub			metacpan
Bio::Chado::Schema::Map::Featurepos			metacpan
Bio::Chado::Schema::Map::Featurerange	In cases where the start and end of a mapped feature is a range, leftendf and rightstartf are populated. leftstartf_id, leftendf_id, rightstartf_id, rightendf_id are the ids of features with respect to which the feature is being mapped. These may be cytological bands.		metacpan
Bio::Chado::Schema::Organism::Organism	The organismal taxonomic classification. Note that phylogenies are represented using the phylogeny module, and taxonomies can be represented using the cvterm module or the phylogeny module.		metacpan
Bio::Chado::Schema::Organism::OrganismDbxref			metacpan
Bio::Chado::Schema::Organism::Organismprop	Tag-value properties - follows standard chado model.		metacpan
Bio::Chado::Schema::Phenotype::FeaturePhenotype			metacpan
Bio::Chado::Schema::Phenotype::Phenotype	A phenotypic statement, or a single atomic phenotypic observation, is a controlled sentence describing observable effects of non-wild type function. E.g. Obs=eye, attribute=color, cvalue=red.		metacpan
Bio::Chado::Schema::Phenotype::PhenotypeCvterm			metacpan
Bio::Chado::Schema::Phylogeny::Phylonode	This is the most pervasive element in the phylogeny module, cataloging the "phylonodes" of tree graphs. Edges are implied by the parent_phylonode_id reflexive closure. For all nodes in a nested set implementation the left and right index will be between the parents left and right indexes.		metacpan
Bio::Chado::Schema::Phylogeny::PhylonodeDbxref	For example, for orthology, paralogy group identifiers; could also be used for NCBI taxonomy; for sequences, refer to phylonode_feature, feature associated dbxrefs.		metacpan
Bio::Chado::Schema::Phylogeny::PhylonodeOrganism	This linking table should only be used for nodes in taxonomy trees; it provides a mapping between the node and an organism. One node can have zero or one organisms, one organism can have zero or more nodes (although typically it should only have one in the standard NCBI taxonomy tree).		metacpan
Bio::Chado::Schema::Phylogeny::PhylonodePub			metacpan
Bio::Chado::Schema::Phylogeny::PhylonodeRelationship	This is for relationships that are not strictly hierarchical; for example, horizontal gene transfer. Most phylogenetic trees are strictly hierarchical, nevertheless it is here for completeness.		metacpan
Bio::Chado::Schema::Phylogeny::Phylonodeprop			metacpan
Bio::Chado::Schema::Phylogeny::Phylotree	Global anchor for phylogenetic tree.		metacpan
Bio::Chado::Schema::Phylogeny::PhylotreePub	Tracks citations global to the tree e.g. multiple sequence alignment supporting tree construction.		metacpan
Bio::Chado::Schema::Pub::Pub	A documented provenance artefact - publications, documents, personal communication.		metacpan
Bio::Chado::Schema::Pub::PubDbxref	Handle links to repositories, e.g. Pubmed, Biosis, zoorec, OCLC, Medline, ISSN, coden...		metacpan
Bio::Chado::Schema::Pub::PubRelationship	Handle relationships between publications, e.g. when one publication makes others obsolete, when one publication contains errata with respect to other publication(s), or when one publication also appears in another pub.		metacpan
Bio::Chado::Schema::Pub::Pubauthor	An author for a publication. Note the denormalisation (hence lack of _ in table name) - this is deliberate as it is in general too hard to assign IDs to authors.		metacpan
Bio::Chado::Schema::Pub::Pubprop	Property-value pairs for a pub. Follows standard chado pattern.		metacpan
Bio::Chado::Schema::Sequence::Cvtermsynonym			metacpan
Bio::Chado::Schema::Sequence::Feature	A feature is a biological sequence or a section of a biological sequence, or a collection of such sections. Examples include genes, exons, transcripts, regulatory regions, polypeptides, protein domains, chromosome sequences, sequence variations, cross-genome match regions such as hits and HSPs and so on; see the Sequence Ontology for more. The combination of organism_id, uniquename and type_id should be unique.		metacpan
Bio::Chado::Schema::Sequence::FeatureCvterm	Associate a term from a cv with a feature, for example, GO annotation.		metacpan
Bio::Chado::Schema::Sequence::FeatureCvtermDbxref	Additional dbxrefs for an association. Rows in the feature_cvterm table may be backed up by dbxrefs. For example, a feature_cvterm association that was inferred via a protein-protein interaction may be backed by by refering to the dbxref for the alternate protein. Corresponds to the WITH column in a GO gene association file (but can also be used for other analagous associations). See http://www.geneontology.org/doc/GO.annotation.shtml#file for more details.		metacpan
Bio::Chado::Schema::Sequence::FeatureCvtermPub	Secondary pubs for an association. Each feature_cvterm association is supported by a single primary publication. Additional secondary pubs can be added using this linking table (in a GO gene association file, these corresponding to any IDs after the pipe symbol in the publications column.		metacpan
Bio::Chado::Schema::Sequence::FeatureCvtermprop	Extensible properties for feature to cvterm associations. Examples: GO evidence codes; qualifiers; metadata such as the date on which the entry was curated and the source of the association. See the featureprop table for meanings of type_id, value and rank.		metacpan
Bio::Chado::Schema::Sequence::FeatureDbxref	Links a feature to dbxrefs. This is for secondary identifiers; primary identifiers should use feature.dbxref_id.		metacpan
Bio::Chado::Schema::Sequence::FeaturePub	Provenance. Linking table between features and publications that mention them.		metacpan
Bio::Chado::Schema::Sequence::FeaturePubprop	Property or attribute of a feature_pub link.		metacpan
Bio::Chado::Schema::Sequence::FeatureRelationship	Features can be arranged in graphs, e.g. "exon part_of transcript part_of gene"; If type is thought of as a verb, the each arc or edge makes a statement [Subject Verb Object]. The object can also be thought of as parent (containing feature), and subject as child (contained feature or subfeature). We include the relationship rank/order, because even though most of the time we can order things implicitly by sequence coordinates, we can not always do this - e.g. transpliced genes. It is also useful for quickly getting implicit introns.		metacpan
Bio::Chado::Schema::Sequence::FeatureRelationshipPub	Provenance. Attach optional evidence to a feature_relationship in the form of a publication.		metacpan
Bio::Chado::Schema::Sequence::FeatureRelationshipprop			metacpan
Bio::Chado::Schema::Sequence::FeatureRelationshippropPub	Provenance for feature_relationshipprop.		metacpan
Bio::Chado::Schema::Sequence::FeatureSynonym	Linking table between feature and synonym.		metacpan
Bio::Chado::Schema::Sequence::Featureloc	The location of a feature relative to another feature. Important: interbase coordinates are used. This is vital as it allows us to represent zero-length features e.g. splice sites, insertion points without an awkward fuzzy system. Features typically have exactly ONE location, but this need not be the case. Some features may not be localized (e.g. a gene that has been characterized genetically but no sequence or molecular information is available). Note on multiple locations: Each feature can have 0 or more locations. Multiple locations do NOT indicate non-contiguous locations (if a feature such as a transcript has a non-contiguous location, then the subfeatures such as exons should always be manifested). Instead, multiple featurelocs for a feature designate alternate locations or grouped locations; for instance, a feature designating a blast hit or hsp will have two locations, one on the query feature, one on the subject feature. Features representing sequence variation could have alternate locations instantiated on a feature on the mutant strain. The column:rank is used to differentiate these different locations. Reflexive locations should never be stored - this is for -proper- (i.e. non-self) locations only; nothing should be located relative to itself.		metacpan
Bio::Chado::Schema::Sequence::FeaturelocPub	Provenance of featureloc. Linking table between featurelocs and publications that mention them.		metacpan
Bio::Chado::Schema::Sequence::Featureprop	A feature can have any number of slot-value property tags attached to it. This is an alternative to hardcoding a list of columns in the relational schema, and is completely extensible.		metacpan
Bio::Chado::Schema::Sequence::FeaturepropPub	Provenance. Any featureprop assignment can optionally be supported by a publication.		metacpan
Bio::Chado::Schema::Sequence::IntronCombinedView			metacpan
Bio::Chado::Schema::Sequence::IntronlocView			metacpan
Bio::Chado::Schema::Sequence::ProteinCodingGene			metacpan
Bio::Chado::Schema::Sequence::Synonym	A synonym for a feature. One feature can have multiple synonyms, and the same synonym can apply to multiple features.		metacpan
Bio::Chado::Schema::Sequence::TypeFeatureCount	per-feature-type feature counts		metacpan
Bio::Chado::Schema::Stock::Stock	Any stock can be globally identified by the combination of organism, uniquename and stock type. A stock is the physical entities, either living or preserved, held by collections. Stocks belong to a collection; they have IDs, type, organism, description and may have a genotype.		metacpan
Bio::Chado::Schema::Stock::StockCvterm	stock_cvterm links a stock to cvterms. This is for secondary cvterms; primary cvterms should use stock.type_id.		metacpan
Bio::Chado::Schema::Stock::StockDbxref	stock_dbxref links a stock to dbxrefs. This is for secondary identifiers; primary identifiers should use stock.dbxref_id.		metacpan
Bio::Chado::Schema::Stock::StockGenotype	Simple table linking a stock to a genotype. Features with genotypes can be linked to stocks thru feature_genotype -> genotype -> stock_genotype -> stock.		metacpan
Bio::Chado::Schema::Stock::StockPub	Provenance. Linking table between stocks and, for example, a stocklist computer file.		metacpan
Bio::Chado::Schema::Stock::StockRelationship			metacpan
Bio::Chado::Schema::Stock::StockRelationshipPub	Provenance. Attach optional evidence to a stock_relationship in the form of a publication.		metacpan
Bio::Chado::Schema::Stock::Stockcollection	The lab or stock center distributing the stocks in their collection.		metacpan
Bio::Chado::Schema::Stock::StockcollectionStock	stockcollection_stock links a stock collection to the stocks which are contained in the collection.		metacpan
Bio::Chado::Schema::Stock::Stockcollectionprop	The table stockcollectionprop contains the value of the stock collection such as website/email URLs; the value of the stock collection order URLs.		metacpan
Bio::Chado::Schema::Stock::Stockprop	A stock can have any number of slot-value property tags attached to it. This is an alternative to hardcoding a list of columns in the relational schema, and is completely extensible. There is a unique constraint, stockprop_c1, for the combination of stock_id, rank, and type_id. Multivalued property-value pairs must be differentiated by rank.		metacpan
Bio::Chado::Schema::Stock::StockpropPub	Provenance. Any stockprop assignment can optionally be supported by a publication.		metacpan
Bio::Chado::Schema::Util	utility functions shared by Bio::Chado::Schema objects		metacpan

Other Files


Build.PL	metacpan
Changes	metacpan
MANIFEST	metacpan
META.yml	metacpan
Makefile.PL	metacpan
README	metacpan