1.1.1.237: hydroxyphenylpyruvate reductase
This is an abbreviated version!
For detailed information about hydroxyphenylpyruvate reductase, go to the full flat file.
Word Map on EC 1.1.1.237
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1.1.1.237
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rosmarinic
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coronary
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clopidogrel
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post-treatment
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salvia
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miltiorrhiza
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adp-induced
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percutaneous
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aggregometry
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verifynow
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antiplatelet
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lamiaceae
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p-selectin
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cilostazol
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bunge
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coleus
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4-hydroxyphenyllactic
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lithospermic
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blumei
- 1.1.1.237
-
rosmarinic
- coronary
- clopidogrel
-
post-treatment
- salvia
- miltiorrhiza
-
adp-induced
-
percutaneous
-
aggregometry
-
verifynow
-
antiplatelet
- lamiaceae
-
p-selectin
- cilostazol
- bunge
-
coleus
-
4-hydroxyphenyllactic
-
lithospermic
- blumei
Reaction
Synonyms
4-hydroxyphenylpyruvate reductase, At1g12940, At1g79870, H(P)PR, HPPR, HPPR2, HPPR3, HPR2, HPR3, HPRP, hydroxy(phenyl)pyruvate reductase, hydroxyphenylpyruvate reductase, hydroxyphenylpyruvic acid reductase, Ppr, pprA
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Source Tissue
Source Tissue on EC 1.1.1.237 - hydroxyphenylpyruvate reductase
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additional information
hig enzyme activity and rosmarinic acid content, transcript expression level during cell suspension culture
additional information
quantitative reverse transcription PCR enzyme expression analysis
additional information
quantitative reverse transcription PCR enzyme expression analysis
additional information
quantitative reverse transcription PCR enzyme expression analysis
additional information
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quantitative reverse transcription PCR enzyme expression analysis
additional information
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quantitative reverse transcription PCR enzyme expression analysis
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additional information
plants inoculated with bacteria, and mycorrhizal plants
additional information
quantitative real-time PCR analysis of the transcription pattern indicates that the PfHPPR expresses constitutively in all examined tissues but most highly in leaves
additional information
the enzyme gene expression is the highest in stem, the second in root, and lowest in leaf
additional information
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the enzyme gene expression is the highest in stem, the second in root, and lowest in leaf
additional information
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transcript levels of SbHPPR in the flowers are higher than those in other organs. The amount of accumulated rosmarinic acid in the flowers is 28.7times higher than that in the roots. No rosmarinic acid is detected in the leaves and stems