2.4.1.215: cis-zeatin O-beta-D-glucosyltransferase
This is an abbreviated version!
For detailed information about cis-zeatin O-beta-D-glucosyltransferase, go to the full flat file.
Word Map on EC 2.4.1.215
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2.4.1.215
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cytokinin
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phaseolus
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o-glucosylation
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trans-zeatin
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maize
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lunatus
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o-glucoside
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shoots
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glucosyltransferases
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thidiazuron
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stereo-specific
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riboside
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benzyladenine
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kernel
- 2.4.1.215
- cytokinin
- phaseolus
-
o-glucosylation
- trans-zeatin
- maize
- lunatus
-
o-glucoside
- shoots
-
glucosyltransferases
- thidiazuron
-
stereo-specific
- riboside
- benzyladenine
- kernel
Reaction
Synonyms
cis-zeatin O-beta-D-glucosyltransferase, cis-zeatin O-glucosyltransferase, cisZOG1, cZOG, cZOG1, cZOGT1, cZOGT2, cZOGT3, OscZOG1, zeatin glycosyltransferase, zeatin O-glucosyltransferase, ZOG1
ECTree
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Source Tissue
Source Tissue on EC 2.4.1.215 - cis-zeatin O-beta-D-glucosyltransferase
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during early developmental stages of spikelets, the strong hybridization signals are observed in floral meristem (FM) and the primordia of glumes, palea and lemma in out whorls While the stamen primordia are continuing to grow, OscZOG1 expression concentrates on the remaining tissue of the central meristem and developing stamens. At a late stage of spikelet development, the strong hybridization signals are observed in anther locules and filaments
additional information
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OscZOG1 is highly expressed in primary root meristem and lateral root primordia. Expression patterns of OscZOG1 during lateral root initiation, overview
OscZOG1 is highly expressed in primary root meristem and lateral root primordia in rice
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OscZOG1 is preferentially expressed in shoot and root meristematic tissues and nascent organs. Th strong hybridization signals in the meristematic tissues of inflorescence suggests that OscZOG1 expression is targeted to cells in rapidly growing regions. The early activation of OscZOG1 expression in SAM, leaf primordia and young leaves suggest that OscZOG1 may play a critical role in early seedling growth
additional information
OscZOG1 is preferentially expressed in shoot and root meristematic tissues and nascent organs