2.3.1.177: 3,5-dihydroxybiphenyl synthase
This is an abbreviated version!
For detailed information about 3,5-dihydroxybiphenyl synthase, go to the full flat file.
Word Map on EC 2.3.1.177
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2.3.1.177
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biphenyls
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phytoalexins
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dibenzofurans
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sorbus
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apple
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aucuparin
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polyketide
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pear
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elicitor-treated
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starter
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elicitors
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rosaceae
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malus
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maloideae
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subtribe
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benzoic
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domestica
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blight
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pyrus
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amylovora
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benzophenone
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pyrinae
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inaequalis
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4-hydroxylation
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venturia
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4-hydroxycoumarin
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rootstock
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dot-shaped
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delicious
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replant
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rosaceous
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dicoumarol
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greenhouse-grown
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n-acetylcysteamine
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4-coumaroyl-coa
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pyrifolia
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scab-causing
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benzoate-coa
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rowan
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scab
- 2.3.1.177
- biphenyls
-
phytoalexins
- dibenzofurans
-
sorbus
- apple
-
aucuparin
- polyketide
- pear
-
elicitor-treated
-
starter
- elicitors
- rosaceae
- malus
- maloideae
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subtribe
-
benzoic
- domestica
-
blight
- pyrus
- amylovora
- benzophenone
-
pyrinae
- inaequalis
-
4-hydroxylation
-
venturia
- 4-hydroxycoumarin
-
rootstock
-
dot-shaped
-
delicious
-
replant
-
rosaceous
- dicoumarol
-
greenhouse-grown
- n-acetylcysteamine
- 4-coumaroyl-coa
- pyrifolia
-
scab-causing
-
benzoate-coa
- rowan
-
scab
Reaction
3 malonyl-CoA + = 4 CoA + + 4 CO2
Synonyms
biphenyl synthase, BIS, BIS1, BIS1 biphenyl synthase, BIS2, BIS3, BIS3 biphenyl synthase, BIS4, MdBIS1, MdBIS3, PcBIS1, PcBIS2
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General Information
General Information on EC 2.3.1.177 - 3,5-dihydroxybiphenyl synthase
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evolution
metabolism
physiological function
additional information
biphenyl synthase, BIS, is a type III polyketide synthase
evolution
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the type-III polyketide synthase biphenyl synthase is encoded by a gene family, members of which are differentially regulated
evolution
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the type-III polyketide synthase biphenyl synthase is encoded by a gene family, members of which are differentially regulated
evolution
-
the type-III polyketide synthase biphenyl synthase is encoded by a gene family, members of which are differentially regulated
evolution
-
the type-III polyketide synthase biphenyl synthase is encoded by a gene family, members of which are differentially regulated
evolution
-
the type-III polyketide synthase biphenyl synthase is encoded by a gene family, members of which are differentially regulated
evolution
-
the type-III polyketide synthase biphenyl synthase is encoded by a gene family, members of which are differentially regulated
evolution
-
the type-III polyketide synthase biphenyl synthase is encoded by a gene family, members of which are differentially regulated
evolution
-
the type-III polyketide synthase biphenyl synthase is encoded by a gene family, members of which are differentially regulated
evolution
-
the type-III polyketide synthase biphenyl synthase is encoded by a gene family, members of which are differentially regulated
evolution
-
the type-III polyketide synthase biphenyl synthase is encoded by a gene family, members of which are differentially regulated
evolution
-
the type-III polyketide synthase biphenyl synthase is encoded by a gene family, members of which are differentially regulated
evolution
crystal structures of biphenyl synthase from Malus domestica and benzophenone synthase from Hypericum androsaemum are compared with the structure of an archetypal type III polyketide synthase - chalcone synthase from Malus domestica. The results illuminate structural determinants of benzoic acid-specific type III PKSs and expand the understanding of the evolution of specialized metabolic pathways in plants
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BIS is the key enzyme of biphenyl metabolism, producing for instance 3,5-dihydroxybiphenyl which is the precursor of the phytoalexins of the Maloideae.
metabolism
BIS is the key enzyme of biphenyl metabolism, producing for instance 3,5-dihydroxybiphenyl which is the precursor of the phytoalexins of the Maloideae.
metabolism
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biphenyl synthase 1 is the key enzyme of the biphenyl biosynthetic pathway and aucuparin accumulation
metabolism
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biphenyl synthase is the key enzyme that forms the carbon skeleton, it is involved in biosynthesis of aucuparin
metabolism
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biphenyl synthase is the key enzyme that forms the carbon skeleton, it is involved in biosynthesis of aucuparin
metabolism
-
biphenyl synthase is the key enzyme that forms the carbon skeleton, it is involved in biosynthesis of aucuparin
metabolism
-
biphenyl synthase is the key enzyme that forms the carbon skeleton, it is involved in biosynthesis of aucuparin
metabolism
-
biphenyl synthase is the key enzyme that forms the carbon skeleton, it is involved in biosynthesis of aucuparin
metabolism
-
biphenyl synthase is the key enzyme that forms the carbon skeleton, it is involved in biosynthesis of aucuparin
metabolism
-
biphenyl synthase is the key enzyme that forms the carbon skeleton, it is involved in biosynthesis of aucuparin
metabolism
-
biphenyl synthase is the key enzyme that forms the carbon skeleton, it is involved in biosynthesis of aucuparin
metabolism
-
biphenyl synthase is the key enzyme that forms the carbon skeleton, it is involved in biosynthesis of aucuparin
metabolism
-
biphenyl synthase is the key enzyme that forms the carbon skeleton, it is involved in biosynthesis of aucuparin
metabolism
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biphenyl synthase is the key enzyme that forms the carbon skeleton, it is involved in biosynthesis of aucuparin. Biosynthetic reactions leading to biphenyl and dibenzofuran phytoalexins in cell cultures of Sorbus aucuparia, overview
metabolism
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the enzyme is involved in biphenyl biosynthesis. Pyrus pyrifolia cell cultures respond to yeast extract treatment by accumulating benzoate-derived biphenyl phytoalexins, namely, noraucuparin and aucuparin
biphenyl synthase is induced by elicitors, e.g. phytopathogen infection. In stems infected with Erwinia amylovora the transition zone between necrotic and healthy tissues is the accumulation site of biphenyl and dibenzofuran phytoalexins and of expression of biphenyl synthase
physiological function
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biphenyls, whose biosynthesis involves the biphenyl synthase, and dibenzofurans are the phytoalexins of the Pyrinae, corresponding to the Maloideae, a subfamily of the plant family Rosaceae. Occurrence of biphenyl phytoalexins in species of the Pyrinae, overview
physiological function
-
biphenyls, whose biosynthesis involves the biphenyl synthase, and dibenzofurans are the phytoalexins of the Pyrinae, corresponding to the Maloideae, a subfamily of the plant family Rosaceae. Occurrence of biphenyl phytoalexins in species of the Pyrinae, overview
physiological function
-
biphenyls, whose biosynthesis involves the biphenyl synthase, and dibenzofurans are the phytoalexins of the Pyrinae, corresponding to the Maloideae, a subfamily of the plant family Rosaceae. Occurrence of biphenyl phytoalexins in species of the Pyrinae, overview
physiological function
-
biphenyls, whose biosynthesis involves the biphenyl synthase, and dibenzofurans are the phytoalexins of the Pyrinae, corresponding to the Maloideae, a subfamily of the plant family Rosaceae. Occurrence of biphenyl phytoalexins in species of the Pyrinae, overview
physiological function
-
biphenyls, whose biosynthesis involves the biphenyl synthase, and dibenzofurans are the phytoalexins of the Pyrinae, corresponding to the Maloideae, a subfamily of the plant family Rosaceae. Occurrence of biphenyl phytoalexins in species of the Pyrinae, overview
physiological function
-
biphenyls, whose biosynthesis involves the biphenyl synthase, and dibenzofurans are the phytoalexins of the Pyrinae, corresponding to the Maloideae, a subfamily of the plant family Rosaceae. Occurrence of biphenyl phytoalexins in species of the Pyrinae, overview
physiological function
-
biphenyls, whose biosynthesis involves the biphenyl synthase, and dibenzofurans are the phytoalexins of the Pyrinae, corresponding to the Maloideae, a subfamily of the plant family Rosaceae. Occurrence of biphenyl phytoalexins in species of the Pyrinae, overview
physiological function
-
biphenyls, whose biosynthesis involves the biphenyl synthase, and dibenzofurans are the phytoalexins of the Pyrinae, corresponding to the Maloideae, a subfamily of the plant family Rosaceae. Occurrence of biphenyl phytoalexins in species of the Pyrinae, overview
physiological function
-
biphenyls, whose biosynthesis involves the biphenyl synthase, and dibenzofurans are the phytoalexins of the Pyrinae, corresponding to the Maloideae, a subfamily of the plant family Rosaceae. Occurrence of biphenyl phytoalexins in species of the Pyrinae, overview
physiological function
-
biphenyls, whose biosynthesis involves the biphenyl synthase, and dibenzofurans are the phytoalexins of the Pyrinae, corresponding to the Maloideae, a subfamily of the plant family Rosaceae. Occurrence of biphenyl phytoalexins in species of the Pyrinae, overview
physiological function
-
biphenyls, whose biosynthesis involves the biphenyl synthase, and dibenzofurans are the phytoalexins of the Pyrinae, corresponding to the Maloideae, a subfamily of the plant family Rosaceae. Occurrence of biphenyl phytoalexins in species of the Pyrinae, overview
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biphenyls exhibit stronger antibacterial activity than structurally related dibenzofurans do, occurrence of dibenzofuran phytoalexins in species of the Pyrinae, overview
additional information
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biphenyls exhibit stronger antibacterial activity than structurally related dibenzofurans do, occurrence of dibenzofuran phytoalexins in species of the Pyrinae, overview
additional information
-
biphenyls exhibit stronger antibacterial activity than structurally related dibenzofurans do, occurrence of dibenzofuran phytoalexins in species of the Pyrinae, overview
additional information
-
biphenyls exhibit stronger antibacterial activity than structurally related dibenzofurans do, occurrence of dibenzofuran phytoalexins in species of the Pyrinae, overview
additional information
-
biphenyls exhibit stronger antibacterial activity than structurally related dibenzofurans do, occurrence of dibenzofuran phytoalexins in species of the Pyrinae, overview
additional information
-
biphenyls exhibit stronger antibacterial activity than structurally related dibenzofurans do, occurrence of dibenzofuran phytoalexins in species of the Pyrinae, overview
additional information
-
biphenyls exhibit stronger antibacterial activity than structurally related dibenzofurans do, occurrence of dibenzofuran phytoalexins in species of the Pyrinae, overview
additional information
-
biphenyls exhibit stronger antibacterial activity than structurally related dibenzofurans do, occurrence of dibenzofuran phytoalexins in species of the Pyrinae, overview
additional information
-
biphenyls exhibit stronger antibacterial activity than structurally related dibenzofurans do, occurrence of dibenzofuran phytoalexins in species of the Pyrinae, overview
additional information
-
biphenyls exhibit stronger antibacterial activity than structurally related dibenzofurans do, occurrence of dibenzofuran phytoalexins in species of the Pyrinae, overview
additional information
-
biphenyls exhibit stronger antibacterial activity than structurally related dibenzofurans do, occurrence of dibenzofuran phytoalexins in species of the Pyrinae, overview