# molecular_function 20160307: rosids_PTN001887812 has function carboxylic ester hydrolase activity (GO:0052689) 20160307: Boreoeutheria_PTN000546257 has function triglyceride lipase activity (GO:0004806) 20160307: Boreoeutheria_PTN000546257 has function serine hydrolase activity (GO:0017171) 20160307: Boreoeutheria_PTN000546257 has function lipase activity (GO:0016298) 20160307: Viridiplantae_PTN001887592 has function prenylcysteine methylesterase activity (GO:0010296) 20160307: Euteleostomi_PTN001494480 has function serine hydrolase activity (GO:0017171) 20160307: Ecdysozoa_PTN001494510 has function arylformamidase activity (GO:0004061) 20160307: Bacteria _PTN000546472 has function short-chain carboxylesterase activity (GO:0034338) 20160307: Actinomycetales_PTN001125654 has function triglyceride lipase activity (GO:0004806) 20160307: Magnoliophyta_PTN000546395 has function gibberellin binding (GO:0010331) 20160307: Eukaryota_PTN001887580 has function arylformamidase activity (GO:0004061) 20160307: Dikarya_PTN001887539 has function steryl deacetylase activity (GO:0034084) 20160307: Pentapetalae_PTN001887345 has function carboxylic ester hydrolase activity (GO:0052689) 20160307: fabids_PTN001887354 has function 2-hydroxyisoflavanone dehydratase activity (GO:0033987) 20160307: root_PTN000546123 has function hydrolase activity (GO:0016787) # cellular_component 20160307: Bilateria_PTN001125588 located in cytoplasm (GO:0005737) 20160307: Pentapetalae_PTN001887345 located in cytosol (GO:0005829) 20160307: Magnoliophyta_PTN000546395 located in nucleus (GO:0005634) 20160307: Magnoliophyta_PTN000546395 located in cytoplasm (GO:0005737) 20160307: Ecdysozoa_PTN001494510 located in prefoldin complex (GO:0016272) 20160307: Boreoeutheria_PTN000546257 located in endoplasmic reticulum membrane (GO:0005789) 20160307: Viridiplantae_PTN001887592 located in endoplasmic reticulum membrane (GO:0005789) 20160307: Viridiplantae_PTN001887592 located in Golgi membrane (GO:0000139) 20160307: Euteleostomi_PTN001494480 located in membrane (GO:0016020) 20160307: Dikarya_PTN001887539 located in endoplasmic reticulum (GO:0005783) # biological_process 20160307: root_PTN000546123 participates in catabolic process (GO:0009056) 20160307: Bilateria_PTN001125588 participates in tryptophan catabolic process to kynurenine (GO:0019441) 20160307: Eukaryota_PTN001887580 participates in NAD biosynthetic process (GO:0009435) 20160307: fabids_PTN001887354 participates in isoflavonoid biosynthetic process (GO:0009717) 20160307: fabids_PTN001887354 participates in isoflavonoid metabolic process (GO:0046287) 20160307: Opisthokonta_PTN001887990 participates in cellular iron ion homeostasis (GO:0006879) 20160307: rosids_PTN001887812 participates in pollen tube growth (GO:0009860) 20160307: Magnoliophyta_PTN000546395 participates in floral organ morphogenesis (GO:0048444) 20160307: Magnoliophyta_PTN000546395 participates in raffinose family oligosaccharide biosynthetic process (GO:0010325) 20160307: Magnoliophyta_PTN000546395 participates in positive regulation of gibberellic acid mediated signaling pathway (GO:0009939) 20160307: Boreoeutheria_PTN000546257 participates in positive regulation of triglyceride catabolic process (GO:0010898) 20160307: Viridiplantae_PTN001887592 participates in response to abscisic acid (GO:0009737) 20160307: Euteleostomi_PTN001494480 participates in xenobiotic metabolic process (GO:0006805) 20160307: Dikarya_PTN001887539 participates in sterol deacetylation (GO:0034210) # Notes Annotation inferences using phylogenetic trees The goal of the GO Reference Genome Project, described in PMID 19578431, is to provide accurate, complete and consistent GO annotations for all genes in twelve model organism genomes. To this end, GO curators are annotating evolutionary trees from the PANTHER database with GO terms describing molecular function, biological process and cellular component. GO terms based on experimental data from the scientific literature are used to annotate ancestral genes in the phylogenetic tree by sequence similarity (ISS), and unannotated descendants of these ancestral genes are inferred to have inherited these same GO annotations by descent. The annotations are done using a tool called PAINT (Phylogenetic Annotation and INference Tool).