Recent advances regarding diterpene cyclase genes in higher plants and fungi.
about
Parsing 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 ricePhenolic Phytoalexins in Rice: Biological Functions and BiosynthesisTo gibberellins and beyond! Surveying the evolution of (di)terpenoid metabolism.Transcripts of two ent-copalyl diphosphate synthase genes differentially localize in rice plants according to their distinct biological rolesSubstrate specificity of Rv3378c, an enzyme from Mycobacterium tuberculosis, and the inhibitory activity of the bicyclic diterpenoids against macrophage phagocytosis.Evident and latent plasticity across the rice diterpene synthase family with potential implications for the evolution of diterpenoid metabolism in the cereals.Identity, regulation, and activity of inducible diterpenoid phytoalexins in maizeNovel acidic sesquiterpenoids constitute a dominant class of pathogen-induced phytoalexins in maize.A functional genomics approach to tanshinone biosynthesis provides stereochemical insights.Terpene Specialized Metabolism in Arabidopsis thalianaOne amino acid makes the difference: the formation of ent-kaurene and 16α-hydroxy-ent-kaurane by diterpene synthases in poplarCharacterization of CYP76M5-8 indicates metabolic plasticity within a plant biosynthetic gene cluster.The application of synthetic biology to elucidation of plant mono-, sesqui-, and diterpenoid metabolism.From hormones to secondary metabolism: the emergence of metabolic gene clusters in plants.The biosynthesis of isoprenoids and the mechanisms regulating it in plants.The role of momilactones in rice allelopathy.Unique biosynthesis of sesquarterpenes (C35 terpenes)Biosynthesis, elicitation and roles of monocot terpenoid phytoalexins.Genomic and transcriptomic analyses reveal differential regulation of diverse terpenoid and polyketides secondary metabolites in Hericium erinaceus.Opportunities and challenges for the sustainable production of structurally complex diterpenoids in recombinant microbial systems.Functional 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.CYP701A8: a rice ent-kaurene oxidase paralog diverted to more specialized diterpenoid metabolism.Identification and functional characterization of monofunctional ent-copalyl diphosphate and ent-kaurene synthases in white spruce reveal different patterns for diterpene synthase evolution for primary and secondary metabolism in gymnosperms.Identification of a novel casbane-type diterpene phytoalexin, ent-10-oxodepressin, from rice leaves.Reverse-genetic approach to verify physiological roles of rice phytoalexins: characterization of a knockdown mutant of OsCPS4 phytoalexin biosynthetic gene in rice.Cloning and characterization of cDNAs encoding ent-copalyl diphosphate synthases in wheat: insight into the evolution of rice phytoalexin biosynthetic genes.Identification of Chimeric αβγ Diterpene Synthases Possessing both Type II Terpene Cyclase and Prenyltransferase Activities.Biochemical synthesis of uniformly 13C-labeled diterpene hydrocarbons and their bioconversion to diterpenoid phytoalexins in planta.Evolutionary trajectory of phytoalexin biosynthetic gene clusters in rice.RNA-Seq analysis of resistant and susceptible sub-tropical maize lines reveals a role for kauralexins in resistance to grey leaf spot disease, caused by Cercospora zeina.Molecular evolution of the substrate specificity of ent-kaurene synthases to adapt to gibberellin biosynthesis in land plants.Biosynthetic Machinery of Diterpene Pleuromutilin Isolated from Basidiomycete Fungi.The genes for gibberellin biosynthesis in wheat.Antimicrobial activity of UV-induced phenylamides from rice leaves.Inferring Roles in Defense from Metabolic Allocation of Rice Diterpenoids.Enzymatic total synthesis of gibberellin A₄ from acetate.
P2860
Q24633497-823BAD13-FDAC-426D-B4A6-3739732610A7Q24651248-D14CE067-CD2B-4C1E-8A2E-32F05E387F3FQ26774427-BC580B2F-8834-450B-A707-75F4ACB412A5Q27014087-FC1EE8C5-9C3A-4B50-9613-EDC5713561FEQ33359330-E129A387-DD31-4A18-B4F2-4BE7EB041AE0Q34162289-77831DC8-840C-4DD7-86B2-176459DFF73DQ34164798-EF9BED9B-CB1B-458C-A28D-5415E544BDA5Q34627588-80CCDEFC-B415-48ED-A434-E6FDFCFA8D11Q34630440-EAC10952-7F49-4A3B-B4D9-24B9BBE46930Q35012327-840ED282-10FB-4EEB-97AA-49DE44096FB6Q35710557-FDC1A0FD-C70E-4F03-9DF0-6D0058D0A71AQ35825345-47DF1A2F-0AC5-4D58-8144-DB67DAC9D6B6Q35838913-86148AA7-01F8-49ED-8D1C-A7D1DFBC6E82Q37432810-F687E745-6040-4913-AF35-06CD68AF0DA5Q37858621-58EF1349-92B5-4458-98B8-009B974D1C21Q37898953-B9191516-98FF-42DA-ADD1-40477C4102CAQ38079420-AE37F123-F4E5-4F48-B545-E1A829D86686Q38113114-970D7211-E384-41BE-9953-2D0BD4936019Q38180801-D0376775-EC82-43B3-97F0-906AFA51BA29Q38634747-B135B1A2-8201-44B5-BF38-966B54589979Q39331667-E44891E6-9C18-41BF-8746-ED36C2B0A27EQ41654093-3F01DFC5-EDC4-4A7A-A5E9-C95451C85544Q41654691-B67CCCE4-6BE0-4D06-90B4-62BE1B00E86EQ41656271-00D6A422-D79E-41EC-B972-7474C56A331AQ42722391-39046E8C-06D2-4E84-8E9D-CEC6FB5C785AQ43203791-6B3F31AD-AD37-4980-88B5-4CDB295AF1ABQ43650885-BF3E64A9-3AE0-4217-8E70-BCCE9DD4D75EQ45229401-9D63F4DA-6F30-4A16-A3FB-EC7D53ACCDD8Q46095620-DF08B195-3CEA-4652-84A8-402A619AFDB4Q46312444-1796FA7A-A599-4A50-9E69-054572634168Q46423050-95BDA74A-A1EC-4EB9-BB71-DF46F1A72D40Q46555086-2DAB83C7-5CD8-441D-8A88-A365DD43AE70Q46857471-072A6C85-47DE-49BC-9CB4-08780F99669EQ47628063-4462AA57-BC59-4083-9EC7-3AE05B922685Q47780684-75BE37C5-2786-4DFB-9899-38E91C103ACFQ51857077-886DA899-48C4-4836-B29E-16948929A4FFQ53251544-CEF5C6DB-115A-422A-8D75-DDEE6F3CF642Q53691909-E3D50210-7829-4359-AD4C-E5FF41DD9ADAQ54372293-700B2C23-7185-4E2E-AC33-3A258ACD7012
P2860
Recent advances regarding diterpene cyclase genes in higher plants and fungi.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 07 May 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Recent advances regarding diterpene cyclase genes in higher plants and fungi.
@en
Recent advances regarding diterpene cyclase genes in higher plants and fungi.
@nl
type
label
Recent advances regarding diterpene cyclase genes in higher plants and fungi.
@en
Recent advances regarding diterpene cyclase genes in higher plants and fungi.
@nl
prefLabel
Recent advances regarding diterpene cyclase genes in higher plants and fungi.
@en
Recent advances regarding diterpene cyclase genes in higher plants and fungi.
@nl
P356
P1476
Recent advances regarding diterpene cyclase genes in higher plants and fungi.
@en
P2093
Tomonobu Toyomasu
P304
P356
10.1271/BBB.80044
P577
2008-05-07T00:00:00Z