1.1.1.294: chlorophyll(ide) b reductase
This is an abbreviated version!
For detailed information about chlorophyll(ide) b reductase, go to the full flat file.
Word Map on EC 1.1.1.294
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1.1.1.294
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stay-green
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oxygenase
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light-harvesting
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pheophorbide
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7-hydroxymethyl
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dark-induced
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thylakoids
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ryegrass
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lhcii
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lolium
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perenne
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perennial
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etioplasts
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grana
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pheophytinase
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pao
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chlorophyll-binding
- 1.1.1.294
-
stay-green
- oxygenase
-
light-harvesting
- pheophorbide
-
7-hydroxymethyl
-
dark-induced
-
thylakoids
-
ryegrass
- lhcii
-
lolium
-
perenne
-
perennial
- etioplasts
-
grana
-
pheophytinase
- pao
-
chlorophyll-binding
Reaction
Synonyms
BoNYC1, CBR, Chl b reductase, chlorophyll b reductase, chlorophyll(ide) b reductase, LpNYC1, More, NOL, NON-YELLOW COLORING 1, NON-YELLOW COLORING1, NYC-like, NYC1, NYC1-LIKE
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Source Tissue
Source Tissue on EC 1.1.1.294 - chlorophyll(ide) b reductase
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expression of NYC1 during embryo development and regulation, semiquantitative reverse transcription-PCR analysis, overview
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innercellular structures of the enzyme wild-type and mutant seeds
additional information
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during fruit development, no obvious change of chlorophyll b reductase mRNA is found. Chlorophyll loss is greatly accelerated by postharvest ethylene fumigation, and NYC transcript abundance is only related to accelerated chlorophyll degradation in ethylene-induced degreening
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during fruit development, no obvious change of chlorophyll b reductase mRNA is found. Chlorophyll loss is greatly accelerated by postharvest ethylene fumigation, and NYC transcript abundance is only related to accelerated chlorophyll degradation in ethylene-induced degreening
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low abundance of mRNA and protein in green leaves, levels increase in response to dark-induced senescence
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a pronounced maximum of Chl b reductase activity at day 2 of senescence
expression in leaf sheaths is detectable but is significantly lower than those in expanding and mature leaves. During the progression of natural leaf senescence at 24, 30, and 36 d after leaf emergence, the expression levels of LpNYC1 increase and are approximately 23.1, 38.8, and 148.7times higher than those at the expanding stage (12 d after leaf emergence), respectively
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isozymes NOL and NYC1 are differentially expressed in Arabidopsis during development
additional information
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BoNYC1 expression increases during first days of postharvest, but decreases in advanced senescence stages, simultaneously with chlorophyll degradation. Treatments with cytokinins and 1-MCP delays the increment of BoNYC1 expression whereas ethylene accelerates the process
additional information
the expression pattern is correlated with the progression of leaf senescence