about
Harvesting the biosynthetic machineries that cultivate a variety of indispensable plant natural productsTo gibberellins and beyond! Surveying the evolution of (di)terpenoid metabolism.Biosynthesis of the diterpenoid lycosantalonol via nerylneryl diphosphate in Solanum lycopersicumArabidopsis thaliana isoprenyl diphosphate synthases produce the C25 intermediate geranylfarnesyl diphosphate.RNA sequencing on Solanum lycopersicum trichomes identifies transcription factors that activate terpene synthase promoters.cis-Prenyltransferase interacts with a Nogo-B receptor homolog for dolichol biosynthesis in Panax ginseng Meyer.PTIR: Predicted Tomato Interactome Resource.Genetic defects in dolichol metabolism.Mechanisms and ecological consequences of plant defence induction and suppression in herbivore communitiesLarge-Scale Evolutionary Analysis of Genes and Supergene Clusters from Terpenoid Modular Pathways Provides Insights into Metabolic Diversification in Flowering Plants.Identification and reconstitution of the rubber biosynthetic machinery on rubber particles from Hevea brasiliensis.Natural products - modifying metabolite pathways in plants.Synthetic biology for production of natural and new-to-nature terpenoids in photosynthetic organisms.cis-Prenyltransferase: New Insights into Protein Glycosylation, Rubber Synthesis, and Human Diseases.Lipid sugar carriers at the extremes: The phosphodolichols Archaea use in N-glycosylation.Opportunities and challenges for the sustainable production of structurally complex diterpenoids in recombinant microbial systems.A lettuce (Lactuca sativa) homolog of human Nogo-B receptor interacts with cis-prenyltransferase and is necessary for natural rubber biosynthesis.Biosynthesis of lycosantalonol, a cis-prenyl derived diterpenoid.Overexpression of an isoprenyl diphosphate synthase in spruce leads to unexpected terpene diversion products that function in plant defense.Dependence of the product chain-length on detergents for long-chain E-polyprenyl diphosphate synthases.Evolution of a complex locus for terpene biosynthesis in solanum.Determination of residues responsible for substrate and product specificity of Solanum habrochaites short-chain cis-prenyltransferases.A conserved C-terminal RXG motif in the NgBR subunit of cis-prenyltransferase is critical for prenyltransferase activity.Improved fruit α-tocopherol, carotenoid, squalene and phytosterol contents through manipulation of Brassica juncea 3-HYDROXY-3-METHYLGLUTARYL-COA SYNTHASE1 in transgenic tomato.A two-component enzyme complex is required for dolichol biosynthesis in tomato.Heterologous expression of methylketone synthase1 and methylketone synthase2 leads to production of methylketones and myristic acid in transgenic plants.
P2860
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P2860
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh
2012年學術文章
@zh-hant
name
The tomato cis-prenyltransferase gene family.
@en
The tomato cis-prenyltransferase gene family.
@nl
type
label
The tomato cis-prenyltransferase gene family.
@en
The tomato cis-prenyltransferase gene family.
@nl
prefLabel
The tomato cis-prenyltransferase gene family.
@en
The tomato cis-prenyltransferase gene family.
@nl
P2093
P2860
P356
P1433
P1476
The tomato cis-prenyltransferase gene family.
@en
P2093
Eran Pichersky
Hazel A Lees
Ines Schauvinhold
Samuel E Klein
Tariq A Akhtar
Yuki Matsuba
P2860
P304
P356
10.1111/TPJ.12063
P577
2012-12-31T00:00:00Z