Rice contains two disparate ent-copalyl diphosphate synthases with distinct metabolic functions
about
Gibberellin metabolism enzymes in riceIdentification of unique mechanisms for triterpene biosynthesis in Botryococcus brauniiParsing a multifunctional biosynthetic gene cluster from rice: Biochemical characterization of CYP71Z6 & 7CYP76M7 is an ent-cassadiene C11alpha-hydroxylase defining a second multifunctional diterpenoid biosynthetic gene cluster in riceTo gibberellins and beyond! Surveying the evolution of (di)terpenoid metabolism.Diterpene cyclases and the nature of the isoprene foldIncreasing diterpene yield with a modular metabolic engineering system in E. coli: comparison of MEV and MEP isoprenoid precursor pathway engineeringTranscripts of two ent-copalyl diphosphate synthase genes differentially localize in rice plants according to their distinct biological rolesIdentification and characterization of pseudogenes in the rice gene complement.A copal-8-ol diphosphate synthase from the angiosperm Cistus creticus subsp. creticus is a putative key enzyme for the formation of pharmacologically active, oxygen-containing labdane-type diterpenes.Functional annotation, genome organization and phylogeny of the grapevine (Vitis vinifera) terpene synthase gene family based on genome assembly, FLcDNA cloning, and enzyme assays.Herbivory by the insect diaphorina citri induces greater change in citrus plant volatile profile than does infection by the bacterium, Candidatus Liberibacter asiaticusA single residue switch for Mg(2+)-dependent inhibition characterizes plant class II diterpene cyclases from primary and secondary metabolism.CYP99A3: functional identification of a diterpene oxidase from the momilactone biosynthetic gene cluster in riceEvident and latent plasticity across the rice diterpene synthase family with potential implications for the evolution of diterpenoid metabolism in the cereals.Characterization of two genes for the biosynthesis of the labdane diterpene Z-abienol in tobacco (Nicotiana tabacum) glandular trichomes.A rice fungal MAMP-responsive MAPK cascade regulates metabolic flow to antimicrobial metabolite synthesis.Identity, regulation, and activity of inducible diterpenoid phytoalexins in maizeAndrographis paniculata transcriptome provides molecular insights into tissue-specific accumulation of medicinal diterpenesCharacterization of CYP76M5-8 indicates metabolic plasticity within a plant biosynthetic gene cluster.Genome-wide identification and expression profiling reveal tissue-specific expression and differentially-regulated genes involved in gibberellin metabolism between Williams banana and its dwarf mutantSingle-feature polymorphism mapping of isogenic rice lines identifies the influence of terpene synthase on brown planthopper feeding preferences.Picking sides: distinct roles for CYP76M6 and CYP76M8 in rice oryzalexin biosynthesisThe application of synthetic biology to elucidation of plant mono-, sesqui-, and diterpenoid metabolism.Diterpene synthases and their responsible cyclic natural products.Two rings in them all: the labdane-related diterpenoids.Biosynthesis, elicitation and roles of monocot terpenoid phytoalexins.Genus Cistus: a model for exploring labdane-type diterpenes' biosynthesis and a natural source of high value products with biological, aromatic, and pharmacological propertiesRice ethylene-response AP2/ERF factor OsEATB restricts internode elongation by down-regulating a gibberellin biosynthetic gene.Product Rearrangement from Altering a Single Residue in the Rice syn-Copalyl Diphosphate SynthaseFunctional characterization of wheat copalyl diphosphate synthases sheds light on the early evolution of labdane-related diterpenoid metabolism in the cereals.Functional characterization of wheat ent-kaurene(-like) synthases indicates continuing evolution of labdane-related diterpenoid metabolism in the cereals.Investigating inducible short-chain alcohol dehydrogenases/reductases clarifies rice oryzalexin biosynthesis.Two CYP716A subfamily cytochrome P450 monooxygenases of sweet basil play similar but nonredundant roles in ursane- and oleanane-type pentacyclic triterpene biosynthesis.Optimization of recombinant expression enables discovery of novel cytochrome P450 activity in rice diterpenoid biosynthesisRv0989c encodes a novel (E)-geranyl diphosphate synthase facilitating decaprenyl diphosphate biosynthesis in Mycobacterium tuberculosis.The rice dwarf virus P2 protein interacts with ent-kaurene oxidases in vivo, leading to reduced biosynthesis of gibberellins and rice dwarf symptoms.CYP701A8: a rice ent-kaurene oxidase paralog diverted to more specialized diterpenoid metabolism.Novel product chemistry from mechanistic analysis of ent-copalyl diphosphate synthases from plant hormone biosynthesis.Functional identification of a rice ent-kaurene oxidase, OsKO2, using the Pichia pastoris expression system.
P2860
Q24547946-A6C2934B-D7B4-43B2-A5D6-59E14156D83DQ24627740-85BD13F1-8824-4546-9DAD-BBD1C341DA67Q24633497-3DA530F6-1DE5-45FB-8CAF-2D8DAE904C8FQ24651248-A70C36AA-DF3C-452E-8F3C-44E08B91FF26Q27014087-9D247E9D-5AFE-4E86-8CA4-8C446C61D9EAQ28662264-AEA57384-4B75-42A7-BFA0-1833CC7A0DAEQ28749174-54DD73B2-0220-4F9F-ABDC-2225BC24BB9EQ33359330-ADC4A141-F04F-452D-9298-4B9C011E4235Q33483058-38CC5CA4-6EBA-4737-A2D4-95453389872FQ33623240-2C31606C-5989-4645-B15E-FC21D97C7DD3Q33724802-A86B3FA5-AB16-4D83-B138-97063A22FCD5Q33878728-0CFEF5BA-AEA8-4DEC-894B-0ADAFB352F3CQ33967019-A9DE8E0A-F2AD-441E-9B3E-4DA67914E6CEQ34156047-2AA69029-6A74-4FC3-BB5E-B20B60E5AFA9Q34164798-5E7EDE23-6351-4EF7-B317-275448B7ABBFQ34279289-94C5BBDE-F21A-44F8-AAE2-32707FB278E7Q34333975-709EAA63-4AAA-476A-8631-253B6EBFA758Q34627588-B5FF4696-92C2-4E6C-9D3A-582B83A196E1Q35761370-5498AFAC-100A-4A21-AD14-91C7E8645E03Q35838913-FDF50CEE-4DEA-45DD-A787-597C7DF98144Q36032938-802EF544-A822-4731-B7B6-7275C20CE9F7Q36943886-129C76D7-4AEE-4A69-94CB-EFBF7F450D63Q37209718-F5BBAD96-439B-4812-A663-7FFF7DB7889EQ37432810-7E4D8F58-2C30-45D8-B69D-AD696F551F2DQ37732733-8C57F603-4913-4838-AD62-09083A8EA935Q37796616-D8B3DE5F-FC5D-4376-9FD8-791567BEC21AQ38180801-81BCB485-DED9-40B7-87C3-67D4F03D52A0Q38223420-3506B173-AAE9-420F-8ECE-69CD27F1DC4DQ38333449-ED5B8A1D-0E00-4E11-9D41-0583BA9834AAQ38842013-55B21B5C-6EFF-40AF-8B3A-C3D4C67DA94CQ41654093-91CBB3BC-EC54-40C9-B270-7737AC2DACA0Q41654691-CB8BEC29-533D-4D8C-99D9-0DD003891BA7Q41656271-06A18AEF-6FBB-4F3E-9FEB-71C3FD5BE1B4Q41926857-3C8BA9C1-A7EB-4305-8580-C66AD31448F8Q41966622-E49A7F10-A2F4-4719-A2D2-256BD126F1EFQ42649881-E4535363-F809-48D5-8A36-89E2170F4FB7Q42673785-8BA4A57E-D1C6-4853-AFEA-7F721BAF3A6CQ42722391-EB06AA97-4018-403A-818B-B2452AC7B760Q42752790-A708541A-4414-4E77-8A4D-105F373AEF27Q46211729-01DAC06A-C489-4721-B2B5-D0AAA6227D38
P2860
Rice contains two disparate ent-copalyl diphosphate synthases with distinct metabolic functions
description
2004 nî lūn-bûn
@nan
2004 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Rice contains two disparate en ...... h distinct metabolic functions
@ast
Rice contains two disparate en ...... h distinct metabolic functions
@en
type
label
Rice contains two disparate en ...... h distinct metabolic functions
@ast
Rice contains two disparate en ...... h distinct metabolic functions
@en
prefLabel
Rice contains two disparate en ...... h distinct metabolic functions
@ast
Rice contains two disparate en ...... h distinct metabolic functions
@en
P2860
P50
P3181
P356
P1433
P1476
Rice contains two disparate en ...... h distinct metabolic functions
@en
P2093
P2860
P304
P3181
P356
10.1104/PP.104.050567
P407
P577
2004-11-12T00:00:00Z