Phylogenetic annotation overview: Difference between revisions
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[[Category: PAINT]] | |||
= PAINT (Phylogenetic Annotation and INference Tool) = | = PAINT (Phylogenetic Annotation and INference Tool) = | ||
PAINT is a Java software application for supporting inference of ancestral as well as present-day characters (represented by ontology terms) in the context of a phylogenetic tree. PAINT is currently being used in the GO [[ | PAINT is a Java software application for supporting inference of ancestral as well as present-day characters (represented by ontology terms) in the context of a phylogenetic tree. PAINT is currently being used in the GO [[Phylogenetic Annotation Project]] to support inference of GO function terms (molecular function, cellular component and biological process) by homology. | ||
== Principles underlying PAINT == | == Principles underlying PAINT == | ||
For a more complete description, please see the publication on the GO Phylogenetic Annotation process, [https://www.ncbi.nlm.nih.gov/pubmed/21873635 Gaudet et al, Briefings in Bioinformatics, 2011]. Annotation of a gene's function by homology is often referred to as "transitive annotation", in which an experimentally-characterized function of one gene is "transferred" to another gene because of their similarity in sequence. This pairwise transfer paradigm derives from the success of sequence searching algorithms such as BLAST and Smith-Waterman. Of course, pairwise conservation of function is really due to descent from a common ancestor (homology). In other words, two sequences of sufficient length are similar because they share a common ancestor, and the reason they have a common function is most likely that they inherited that function from their common ancestor. This process can be explicitly captured using a phylogenetic model. | For a more complete description, please see the publication on the GO Phylogenetic Annotation process, [https://www.ncbi.nlm.nih.gov/pubmed/21873635 Gaudet et al, Briefings in Bioinformatics, 2011]. Annotation of a gene's function by homology is often referred to as "transitive annotation", in which an experimentally-characterized function of one gene is "transferred" to another gene because of their similarity in sequence. This pairwise transfer paradigm derives from the success of sequence searching algorithms such as BLAST and Smith-Waterman. Of course, pairwise conservation of function is really due to descent from a common ancestor (homology). In other words, two sequences of sufficient length are similar because they share a common ancestor, and the reason they have a common function is most likely that they inherited that function from their common ancestor. This process can be explicitly captured using a phylogenetic model. | ||
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== Availability == | == Availability == | ||
PAINT is freely available for download | PAINT is freely available for download from the Panther website: http://paintcuration.usc.edu/ | ||
== Installing and using PAINT == | == Installing and using PAINT == | ||
See the [[PAINT User Guide]] for more information. | See the [[PAINT User Guide]] for more information. | ||
== Standard operating procedures for GO annotation using PAINT == | == Standard operating procedures for GO annotation using PAINT == | ||
The GO Reference Genome Project is annotating trees generated for [http://pantherdb.org PANTHER version | The GO Reference Genome Project is annotating trees generated for [http://pantherdb.org PANTHER version 15], released on 2020-02-14. | ||
Annotation of GO terms using PAINT | Annotation of GO terms using PAINT follows the (see the [[PAINT SOP]]). | ||
== Review Status == | |||
Last reviewed: November 11, 2020 |
Revision as of 03:55, 11 November 2020
PAINT (Phylogenetic Annotation and INference Tool)
PAINT is a Java software application for supporting inference of ancestral as well as present-day characters (represented by ontology terms) in the context of a phylogenetic tree. PAINT is currently being used in the GO Phylogenetic Annotation Project to support inference of GO function terms (molecular function, cellular component and biological process) by homology.
Principles underlying PAINT
For a more complete description, please see the publication on the GO Phylogenetic Annotation process, Gaudet et al, Briefings in Bioinformatics, 2011. Annotation of a gene's function by homology is often referred to as "transitive annotation", in which an experimentally-characterized function of one gene is "transferred" to another gene because of their similarity in sequence. This pairwise transfer paradigm derives from the success of sequence searching algorithms such as BLAST and Smith-Waterman. Of course, pairwise conservation of function is really due to descent from a common ancestor (homology). In other words, two sequences of sufficient length are similar because they share a common ancestor, and the reason they have a common function is most likely that they inherited that function from their common ancestor. This process can be explicitly captured using a phylogenetic model.
Rather than a pairwise paradigm, PAINT uses this more accurate phylogenetic model to infer gene function by homology. PAINT annotation is intended to capture actual inferences about the evolution of gene function within a gene family: the gain, inheritance, modification and loss of function over evolutionary time. Inference is a two-step process, and involves directly annotating a phylogenetic tree. In the first step, experimental GO annotations for extant sequences are used to make inferences about when a given function may have first evolved. In PAINT, this is referred to as "up-propagation", in which ancestral genes are annotated based on information about extant sequences. In the second step, "down-propagation", ancestral annotations are used to make inferences about unannotated extant sequences, based on the principle of inheritance from the common ancestor, and allowing for modification and even loss of function during evolution.
PAINT software
PAINT is implemented in Java, as a joint project between Paul Thomas's group (USC) and Suzanna Lewis's group (LBL). Development of PAINT has been funded by grant GM081084 from the U.S. National Institutes of Health, and the GO Consortium grant 5U41HG002273.
Availability
PAINT is freely available for download from the Panther website: http://paintcuration.usc.edu/
Installing and using PAINT
See the PAINT User Guide for more information.
Standard operating procedures for GO annotation using PAINT
The GO Reference Genome Project is annotating trees generated for PANTHER version 15, released on 2020-02-14.
Annotation of GO terms using PAINT follows the (see the PAINT SOP).
Review Status
Last reviewed: November 11, 2020