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PDBsum entry 5e8h
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References listed in PDB file
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Key reference
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Title
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Structural analyses of short-Chain prenyltransferases identify an evolutionarily conserved gfpps clade in brassicaceae plants.
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Authors
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C.Wang,
Q.Chen,
D.Fan,
J.Li,
G.Wang,
P.Zhang.
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Ref.
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Mol Plant, 2016,
9,
195-204.
[DOI no: ]
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PubMed id
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Abstract
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Terpenoids are the largest and most diverse class of plant-specialized
metabolites, which function in diverse physiological processes during plant
development. In the biosynthesis of plant terpenoids, short-chain
prenyltransferases (SC-PTs), together with terpene synthases (TPSs), play
critical roles in determining terpenoid diversity. SC-PTs biosynthesize prenyl
pyrophosphates with different chain lengths, and these compounds are the direct
precursors of terpenoids. Arabidopsis thaliana possesses a subgroup of SC-PTs
whose functions are not clearly known. In this study, we focus on 10
geranylgeranyl pyrophosphate synthase-like [GGPPSL] proteins, which are commonly
thought to produce GGPP [C20]. We found that a subset of members of the
Arabidopsis GGPPSL gene family have undergone neo-functionalization: GGPPSL6, 7,
9, and 10 mainly have geranylfarnesyl pyrophosphate synthase activity (C25;
renamed AtGFPPS1, 2, 3, and 4), and GGPPSL8 produces even longer chain prenyl
pyrophosphate (≥ C30; renamed polyprenyl pyrophosphate synthase 2, AtPPPS2).
By solving the crystal structures of AtGFPPS2, AtPPPS2, and AtGGPPS11, we reveal
the product chain-length determination mechanism of SC-PTs and interpret it as a
"three floors" model. Using this model, we identified a novel GFPPS
clade distributed in Brassicaceae plants and found that the GFPPS gene typically
occurs in tandem with a gene encoding a TPS, forming a GFPPS-TPS gene cluster.
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