1-Hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate reductase (IDS) is encoded by multicopy genes in gymnosperms Ginkgo biloba and Pinus taeda

Isoprenoids are synthesized through the condensation of five-carbon intermediates, isopentenyl diphosphate (IPP) and dimethylallyl diphosphate (DMAPP), derived from two distinct biosynthetic routes: cytosolic mevalonate (MVA) and plastidial 2-C-methyl-d-erythritol 4-phosphate (MEP) pathways. 1-Hydro...

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Bibliographic Details
Published in:Planta 2008-01, Vol.227 (2), p.287-298
Main Authors: Kim, Sang-Min, Kuzuyama, Tomohisa, Kobayashi, Akio, Sando, Tomoki, Chang, Yung-Jin, Kim, Soo-Un
Format: Article
Language:English
Subjects:
1-Hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate reductase (IDS)
Agriculture
Amino Acid Sequence
Amino acids
Biological and medical sciences
Biomedical and Life Sciences
Biosynthesis
Complementary DNA
Diphosphates
E coli
Ecology
Embryos
Forestry
Fundamental and applied biological sciences. Psychology
Gene Expression Profiling
Gene Expression Regulation, Plant - radiation effects
Genes
Genes, Plant - genetics
Ginkgo biloba
Ginkgo biloba - enzymology
Ginkgo biloba - genetics
Ginkgo biloba - radiation effects
Ginkgolide
Gymnosperms
Isoprenoid
Life Sciences
Light
Metabolism
Molecular Sequence Data
Nitrogen metabolism
Nonmevalonate pathway (MEP pathway)
Original Article
Oxidoreductases - chemistry
Oxidoreductases - genetics
Phylogeny
Pine trees
Pinus taeda
Pinus taeda - enzymology
Pinus taeda - genetics
Pinus taeda - radiation effects
Plant physiology and development
Plant Proteins - chemistry
Plant Proteins - genetics
Plant Proteins - metabolism
Plant Sciences
Plants
Plasmids
RNA, Plant - genetics
RNA, Plant - metabolism
Roots
Terpenoids
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Summary:Isoprenoids are synthesized through the condensation of five-carbon intermediates, isopentenyl diphosphate (IPP) and dimethylallyl diphosphate (DMAPP), derived from two distinct biosynthetic routes: cytosolic mevalonate (MVA) and plastidial 2-C-methyl-d-erythritol 4-phosphate (MEP) pathways. 1-Hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate reductase (IDS; EC 1.17.1.2), which catalyzes the last step of MEP pathway, was cloned as a multicopy gene from gymnosperms Ginkgo biloba (GbIDS1, GbIDS2, and GbIDS2-1) and Pinus taeda (PtIDS1 and PtIDS2), and characterized. Phylogenetic tree constructed with other plant IDSs demonstrated gymnosperm IDSs were distinctively different from angiosperm IDSs. The gymnosperm IDS clade contained two subclades, one composed of GbIDS1 and PtIDS1, and the other composed of GbIDS2, GbIDS2-1, and PtIDS2. G. biloba IDSs, except GbIDS2-1, successfully complemented Escherichia coli DLYT1, a lytB disruptant, confirming the in vivo competency of isozymes. During the 4 weeks study period, although transcript levels of GbIDS1s were similar both in roots and leaves of cultured G. biloba embryo, the transcripts of GbIDS2 predominantly occurred in the embryo roots, where diterpene ginkgolides are biosynthesized. Levels of PtIDS2 transcripts in the diterpenoid resin-producing wood were 4-5 times higher than those in other tissues. Higher levels of GbIDS1 transcripts were induced by light, whereas those of GbIDS2 were increased by methyl jasmonate treatment. These results strongly imply GbIDS2 and PtIDS2 have high correlation with secondary metabolism. In Arabidopsis transient expression system, N-terminal 100 amino acid residues of GbIDS1 delivered fused GFP protein into chloroplast as well as cytosol and nucleus, whereas those of GbIDS2, GbIDS2-1, and two PtIDSs delivered GFP only into chloroplast.
ISSN:0032-0935
1432-2048
DOI:10.1007/s00425-007-0616-x