Literature summary extracted from

Esteban, R.; Olano, J.M.; Castresana, J.; Fernandez-Marin, B.; Hernandez, A.; Becerril, J.M.; Garcia-Plazaola, J.I.
Distribution and evolutionary trends of photoprotective isoprenoids (xanthophylls and tocopherols) within the plant kingdom (2009), Physiol. Plant., 135, 379-389.

Cloned(Commentary)

EC Number	Cloned (Comment)	Organism
1.14.15.21	Polyphyletic analyses of the presence of photoprotective compounds and zeaxanthin epoxidase sequences across a wide representation of the plant kingdom reveals no correlation between the presence of lutein-epoxide and recurrent mutations in sequences, including the duplications. There is an evolutionary trend to increase the content of alpha-tocopherol and to decrease the total amount of violaxanthin-cycle pigments.	Citrus unshiu
1.14.15.21	Polyphyletic analyses of the presence of photoprotective compounds and zeaxanthin epoxidase ZE sequences across a wide representation of the plant kingdom reveals no correlation between the presence of lutein-epoxide and recurrent mutations in ZE sequences, including the duplications. There is an evolutionary trend to increase the content of alpha-tocopherol and to decrease the total amount of violaxanthin-cycle pigments.	Solanum lycopersicum
1.14.15.21	Polyphyletic analyses of the presence of photoprotective compounds and zeaxanthin epoxidase ZE sequences across a wide representation of the plant kingdom reveals no correlation between the presence of lutein-epoxide and recurrent mutations in ZE sequences, including the duplications. There is an evolutionary trend to increase the content of alpha-tocopherol and to decrease the total amount of violaxanthin-cycle pigments.	Arabidopsis thaliana
1.14.15.21	Polyphyletic analyses of the presence of photoprotective compounds and zeaxanthin epoxidase ZE sequences across a wide representation of the plant kingdom reveals no correlation between the presence of lutein-epoxide and recurrent mutations in ZE sequences, including the duplications. There is an evolutionary trend to increase the content of alpha-tocopherol and to decrease the total amount of violaxanthin-cycle pigments.	Solanum tuberosum
1.14.15.21	Polyphyletic analyses of the presence of photoprotective compounds and zeaxanthin epoxidase ZE sequences across a wide representation of the plant kingdom reveals no correlation between the presence of lutein-epoxide and recurrent mutations in ZE sequences, including the duplications. There is an evolutionary trend to increase the content of alpha-tocopherol and to decrease the total amount of violaxanthin-cycle pigments.	Citrus unshiu

Organism

EC Number	Organism	UniProt	Comment	Textmining
1.14.15.21	Arabidopsis thaliana	Q9FGC7	-	-
1.14.15.21	Citrus unshiu	Q766F5	-	-
1.14.15.21	Citrus unshiu	Q8W3L2	-	-
1.14.15.21	Solanum lycopersicum	A5JV19	-	-
1.14.15.21	Solanum lycopersicum	P93236	-	-
1.14.15.21	Solanum tuberosum	A0N062	-	-
1.14.15.21	Solanum tuberosum	Q3HNF5	-	-

Synonyms

EC Number	Synonyms	Comment	Organism
1.14.15.21	zeaxanthin epoxidase	-	Solanum lycopersicum
1.14.15.21	zeaxanthin epoxidase	-	Arabidopsis thaliana
1.14.15.21	zeaxanthin epoxidase	-	Solanum tuberosum
1.14.15.21	zeaxanthin epoxidase	-	Citrus unshiu

Expression

EC Number	Organism	Comment	Expression
1.14.15.21	Citrus unshiu	Polyphyletic analyses of the presence of photoprotective compounds and zeaxanthin epoxidase sequences across a wide representation of the plant kingdom reveals no correlation between the presence of lutein-epoxide and recurrent mutations in sequences, including the duplications. There is an evolutionary trend to increase the content of alpha-tocopherol and to decrease the total amount of violaxanthin-cycle pigments.	additional information
1.14.15.21	Solanum lycopersicum	Polyphyletic analyses of the presence of photoprotective compounds and zeaxanthin epoxidase ZE sequences across a wide representation of the plant kingdom reveals no correlation between the presence of lutein-epoxide and recurrent mutations in ZE sequences, including the duplications. There is an evolutionary trend to increase the content of alpha-tocopherol and to decrease the total amount of violaxanthin-cycle pigments.	additional information
1.14.15.21	Arabidopsis thaliana	Polyphyletic analyses of the presence of photoprotective compounds and zeaxanthin epoxidase ZE sequences across a wide representation of the plant kingdom reveals no correlation between the presence of lutein-epoxide and recurrent mutations in ZE sequences, including the duplications. There is an evolutionary trend to increase the content of alpha-tocopherol and to decrease the total amount of violaxanthin-cycle pigments.	additional information
1.14.15.21	Solanum tuberosum	Polyphyletic analyses of the presence of photoprotective compounds and zeaxanthin epoxidase ZE sequences across a wide representation of the plant kingdom reveals no correlation between the presence of lutein-epoxide and recurrent mutations in ZE sequences, including the duplications. There is an evolutionary trend to increase the content of alpha-tocopherol and to decrease the total amount of violaxanthin-cycle pigments.	additional information
1.14.15.21	Citrus unshiu	Polyphyletic analyses of the presence of photoprotective compounds and zeaxanthin epoxidase ZE sequences across a wide representation of the plant kingdom reveals no correlation between the presence of lutein-epoxide and recurrent mutations in ZE sequences, including the duplications. There is an evolutionary trend to increase the content of alpha-tocopherol and to decrease the total amount of violaxanthin-cycle pigments.	additional information

General Information

EC Number	General Information	Comment	Organism
1.14.15.21	physiological function	part of the xanthophyll biosynthetic pathway and the xanthophyll cycle	Solanum lycopersicum
1.14.15.21	physiological function	part of the xanthophyll biosynthetic pathway and the xanthophyll cycle	Arabidopsis thaliana
1.14.15.21	physiological function	part of the xanthophyll biosynthetic pathway and the xanthophyll cycle	Solanum tuberosum
1.14.15.21	physiological function	part of the xanthophyll biosynthetic pathway and the xanthophyll cycle	Citrus unshiu

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Release 2023.1 (January 2023)