5.4.99.39: beta-amyrin synthase
This is an abbreviated version!
For detailed information about beta-amyrin synthase, go to the full flat file.
Word Map on EC 5.4.99.39
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5.4.99.39
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triterpene
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oxidosqualene
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saponin
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triterpenoids
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lupeol
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cyclases
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glycyrrhiza
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cycloartenol
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oleanolic
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lanosterol
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uralensis
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oleanane-type
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2,3-oxidosqualene
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oleanane
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dammarenediol
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soyasapogenol
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synthesis
- 5.4.99.39
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triterpene
- oxidosqualene
- saponin
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triterpenoids
- lupeol
- cyclases
- glycyrrhiza
- cycloartenol
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oleanolic
- lanosterol
- uralensis
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oleanane-type
- 2,3-oxidosqualene
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oleanane
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dammarenediol
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soyasapogenol
- synthesis
Reaction
Synonyms
AMS1, amyrin synthase, B-AS, bAS, BAS-like 2, BAS1, BAS2, beta-amyrin cyclase, beta-amyrin synthase, beta-AS, betaAS, BPY, CbbAS, CrAS, EsBAS, EtAS, GmAMS1, GsAS1, GsAS2, MdOSC1, MtAMY1, multifunctional OSC, ObAS1, OPSC 1, OSC, OSC1, OSC2, OXA1, Oxidosqualene cyclase, PBA, PlgOSC1, PNY, PSY, PtBS, SITTS1, SlTTS1, SvBS
ECTree
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Source Tissue
Source Tissue on EC 5.4.99.39 - beta-amyrin synthase
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additional information
the transcript level of OXA1 is very low in leaf during early vegetative stages as compared to early reproductive stages
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leaf epidermis is the preferred site of CrAS expression. CrAS is preferentialy expressed in younger leaves
highest enzyme level, very high GsAS2 activity in roots
in five-day old dark-grown seedling, enzyme expression is strongly induced by light, weakly induced by methyl jasmonate and low temperature, and not induced by elicitor or UV-B treatment
analysis of temporal and spatial specificity of the expression of beta-AS
additional information
OXA1 is deficient in roots of early reproductive stage
additional information
analysis of temporal and spatial specificity of the expression of beta-AS
additional information
H9NAL5
analysis of temporal and spatial specificity of the expression of beta-AS
additional information
analysis of temporal and spatial specificity of the expression of beta-AS
additional information
transcriptomics analysis of plant leaves, quantitative order of EsBAS mRNA accumulation is roots - stem barks - leaves in descending order
additional information
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transcriptomics analysis of plant leaves, quantitative order of EsBAS mRNA accumulation is roots - stem barks - leaves in descending order
additional information
analysis of temporal and spatial specificity of the expression of beta-AS
additional information
GsAS1 transcript levels in roots are 2.3fold higher than the levels in either the leaves or stems. GsAS2 expression is 13.3fold higher than GsAS1 expression in roots and 1.6fold higher in stems
additional information
GsAS1 transcript levels in roots are 2.3fold higher than the levels in either the leaves or stems. GsAS2 expression is 13.3fold higher than GsAS1 expression in roots and 1.6fold higher in stems
additional information
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GsAS1 transcript levels in roots are 2.3fold higher than the levels in either the leaves or stems. GsAS2 expression is 13.3fold higher than GsAS1 expression in roots and 1.6fold higher in stems
additional information
GsAS2 transcript levels in roots are 27.5fold greater compared to leaves and 18.6fold higher than in stems. GsAS2 expression is 13.3fold higher than GsAS1 expression in roots and 1.6fold higher in stems
additional information
GsAS2 transcript levels in roots are 27.5fold greater compared to leaves and 18.6fold higher than in stems. GsAS2 expression is 13.3fold higher than GsAS1 expression in roots and 1.6fold higher in stems
additional information
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GsAS2 transcript levels in roots are 27.5fold greater compared to leaves and 18.6fold higher than in stems. GsAS2 expression is 13.3fold higher than GsAS1 expression in roots and 1.6fold higher in stems
additional information
analysis of temporal and spatial specificity of the expression of beta-AS
additional information
analysis of temporal and spatial specificity of the expression of beta-AS
additional information
analysis of temporal and spatial specificity of the expression of beta-AS
additional information
analysis of temporal and spatial specificity of the expression of beta-AS
additional information
analysis of temporal and spatial specificity of the expression of beta-AS
additional information
about equal enzyme expression in the different tissues, quantitative tissue-specific real-time RT-PCR gene expression analysis
additional information
analysis of temporal and spatial specificity of the expression of beta-AS