1.5.3.17: non-specific polyamine oxidase
This is an abbreviated version!
For detailed information about non-specific polyamine oxidase, go to the full flat file.
Word Map on EC 1.5.3.17
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1.5.3.17
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spermidine
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back-conversion
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putrescine
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peroxisomal
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sativa
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seedling
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tetraamines
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abscisic
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anther
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pollen
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medicine
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analysis
- 1.5.3.17
- spermidine
-
back-conversion
- putrescine
- peroxisomal
- sativa
- seedling
-
tetraamines
-
abscisic
- anther
- pollen
- medicine
- analysis
Reaction
Synonyms
AtPAO2, AtPAO3, AtPAO4, AtPAO5, Bjpao1, Bjpao2, EC 1.5.3.11, Fms1, LC036642, OsPAO1, PAO, PAO1, PAO2, PAO3, PAO5, polyamine oxidase 1, SelPAO5, slr5093, T-Spm oxidase, thermospermine oxidase
ECTree
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Source Tissue
Source Tissue on EC 1.5.3.17 - non-specific polyamine oxidase
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expression at higher extent in the later growth stage within restricted parts of the organs, such as shoot meristem, leaf petiole and also in anther
expression at higher extent in the later growth stage within restricted parts of the organs, such as shoot meristem, leaf petiole and also in anther
additional information
PAO3 promoter activity is detected in cotyledon, distal portion of root, boundary region of mature rosette leaf and in filaments of flower
expression is constitutive, but highest in flower organ
in anthers and in particular in anther tapetal cells, localized in the anther-filament junction site, localized in sepals, petals and pistils, but not in pollen grains
present in very young flower buds, later during flower development in pistils and anthers, especially in pistil walls and septum of young flowers. Anther filaments, pollen grains, nectar andguard cells of sepals are stained too, pollen staining persists during pollination and pollen tube growth
present very early during flower development. As flower development proceeds and before pollen maturation, strong staining appeared in pistils (stigma and ovary wall), which gradually decreases and finally disappears
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present in very young flower buds, later during flower development in pistils and anthers, especially in pistil walls and septum of young flowers. Anther filaments, pollen grains, nectar andguard cells of sepals are stained too, pollen staining persists during pollination and pollen tube growth
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in anthers and in particular in anther tapetal cells, localized in the anther-filament junction site, localized in sepals, petals and pistils, but not in pollen grains
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already in very young, completely closed flower buds
expression at higher extent in the later growth stage within restricted parts of the organs, such as shoot meristem, leaf petiole and also in anther
PAO3 promoter activity is detected in cotyledon, distal portion of root, boundary region of mature rosette leaf and in filaments of flower
Bjpao1 is predominantly expressed in the notochord, testis and ovary
Bjpao1 is predominantly expressed in the notochord, testis and ovary
in mature pollen grains during pollination and pollen tube growth
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in mature pollen grains during pollination and pollen tube growth
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PAO3 promoter activity is detected in cotyledon, distal portion of root, boundary region of mature rosette leaf and in filaments of flower
Bjpao1 is predominantly expressed in the notochord, testis and ovary
isozyme AtPAO3 is abundantly expressed in all tissues
additional information
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isozyme AtPAO3 is abundantly expressed in all tissues
additional information
expression is constitutive, but highest in flower organ. PAO3 promoter activity is detected in cotyledon, distal portion of root, boundary region of mature rosette leaf and in filaments of flower
additional information
expression is constitutive, but highest in flower organ. PAO3 promoter activity is detected in cotyledon, distal portion of root, boundary region of mature rosette leaf and in filaments of flower
additional information
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expression is constitutive, but highest in flower organ. PAO3 promoter activity is detected in cotyledon, distal portion of root, boundary region of mature rosette leaf and in filaments of flower
additional information
expression pattern of AtPAO2 during seedling and flower growth and development through analysis of promoter activity in AtPAO::GUS transgenic Arabidopsis thaliana plants. AtPAO2 is mostly expressed in the quiescent center, columella initials and pollen
additional information
expression pattern of AtPAO2 during seedling and flower growth and development through analysis of promoter activity in AtPAO::GUS transgenic Arabidopsis thaliana plants. AtPAO2 is mostly expressed in the quiescent center, columella initials and pollen
additional information
expression pattern of AtPAO2 during seedling and flower growth and development through analysis of promoter activity in AtPAO::GUS transgenic Arabidopsis thaliana plants. AtPAO2 is mostly expressed in the quiescent center, columella initials and pollen
additional information
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expression pattern of AtPAO2 during seedling and flower growth and development through analysis of promoter activity in AtPAO::GUS transgenic Arabidopsis thaliana plants. AtPAO2 is mostly expressed in the quiescent center, columella initials and pollen
additional information
expression pattern of AtPAO3 during seedling and flower growth and development through analysis of promoter activity in AtPAO::GUS transgenic Arabidopsis thaliana plants. AtPAO3 is mostly expressed in columella, guard cells and pollen
additional information
expression pattern of AtPAO3 during seedling and flower growth and development through analysis of promoter activity in AtPAO::GUS transgenic Arabidopsis thaliana plants. AtPAO3 is mostly expressed in columella, guard cells and pollen
additional information
expression pattern of AtPAO3 during seedling and flower growth and development through analysis of promoter activity in AtPAO::GUS transgenic Arabidopsis thaliana plants. AtPAO3 is mostly expressed in columella, guard cells and pollen
additional information
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expression pattern of AtPAO3 during seedling and flower growth and development through analysis of promoter activity in AtPAO::GUS transgenic Arabidopsis thaliana plants. AtPAO3 is mostly expressed in columella, guard cells and pollen
additional information
expression pattern of AtPAO5 during seedling and flower growth and development through analysis of promoter activity in AtPAO::GUS transgenic Arabidopsis thaliana plants. AtPAO5 is mostly expressed in the vascular system of roots and hypocotyls
additional information
expression pattern of AtPAO5 during seedling and flower growth and development through analysis of promoter activity in AtPAO::GUS transgenic Arabidopsis thaliana plants. AtPAO5 is mostly expressed in the vascular system of roots and hypocotyls
additional information
expression pattern of AtPAO5 during seedling and flower growth and development through analysis of promoter activity in AtPAO::GUS transgenic Arabidopsis thaliana plants. AtPAO5 is mostly expressed in the vascular system of roots and hypocotyls
additional information
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expression pattern of AtPAO5 during seedling and flower growth and development through analysis of promoter activity in AtPAO::GUS transgenic Arabidopsis thaliana plants. AtPAO5 is mostly expressed in the vascular system of roots and hypocotyls
additional information
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expression pattern of AtPAO3 during seedling and flower growth and development through analysis of promoter activity in AtPAO::GUS transgenic Arabidopsis thaliana plants. AtPAO3 is mostly expressed in columella, guard cells and pollen
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additional information
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expression pattern of AtPAO2 during seedling and flower growth and development through analysis of promoter activity in AtPAO::GUS transgenic Arabidopsis thaliana plants. AtPAO2 is mostly expressed in the quiescent center, columella initials and pollen
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additional information
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expression pattern of AtPAO5 during seedling and flower growth and development through analysis of promoter activity in AtPAO::GUS transgenic Arabidopsis thaliana plants. AtPAO5 is mostly expressed in the vascular system of roots and hypocotyls
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