Difference between revisions of "Needs Analysis Workshop/Correlation Breakout"
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TV - but at least both may be annotated as affecting the same part of morphology | TV - but at least both may be annotated as affecting the same part of morphology | ||
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| + | AA - user may want to be able to see traits at various levels within ontology - see everything within the tail or just one vertebra | ||
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| + | TV - Covariance matrix can provide table of co-occurring changes in entities on tree | ||
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| + | EJ - there are many complicated ways for doing character reconstruction - user will probably want to get data and run themselves | ||
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| + | HH - especially in the case of parsimony, can't always treat transition probabilities as equal | ||
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| + | HH & EJ - maybe provide some default methods, such as parsimony, maybe allowing specifying of transition models | ||
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| + | EJ - co-ocurrrence table will be useful for eyeballing interesting groupings | ||
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| + | EJ - also want to see which traits are related to the same genes | ||
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| + | HH - this should be either location of expression in both entities, or same type of effect in both entities | ||
Revision as of 13:51, 18 September 2007
Notes
AA - Important to note difference in naming conventions between genetic terminology and diversity terminology
TV - Ontologies are meant to solve this problem - can map synonym terms to each other
EJ - many natural phenotypes are much more subtle than genetic mutants
TV - that is an advantage of relationships in ontology - can tell that phenotypes are related to the same morphology
AA - only some phenotypes will overlap - the types of variation are different
TV - but at least both may be annotated as affecting the same part of morphology
AA - user may want to be able to see traits at various levels within ontology - see everything within the tail or just one vertebra
TV - Covariance matrix can provide table of co-occurring changes in entities on tree
EJ - there are many complicated ways for doing character reconstruction - user will probably want to get data and run themselves
HH - especially in the case of parsimony, can't always treat transition probabilities as equal
HH & EJ - maybe provide some default methods, such as parsimony, maybe allowing specifying of transition models
EJ - co-ocurrrence table will be useful for eyeballing interesting groupings
EJ - also want to see which traits are related to the same genes
HH - this should be either location of expression in both entities, or same type of effect in both entities
