about
CathaCyc, a metabolic pathway database built from Catharanthus roseus RNA-Seq data.Molecular cloning and analysis of strictosidine beta-D-glucosidase, an enzyme in terpenoid indole alkaloid biosynthesis in Catharanthus roseus.CrMYC1, a Catharanthus roseus elicitor- and jasmonate-responsive bHLH transcription factor that binds the G-box element of the strictosidine synthase gene promoter.A novel jasmonate- and elicitor-responsive element in the periwinkle secondary metabolite biosynthetic gene Str interacts with a jasmonate- and elicitor-inducible AP2-domain transcription factor, ORCA2.ORCAnization of jasmonate-responsive gene expression in alkaloid metabolism.Engineering secondary metabolite production in plants.Auxin-induced mRNA species in tobacco cell cultures.The use of genetics to dissect plant secondary pathways.RAP-1 is an Arabidopsis MYC-like R protein homologue, that binds to G-box sequence motifs.Regulation of gene expression by jasmonate hormones.The seco-iridoid pathway from Catharanthus roseus.The basic helix-loop-helix transcription factor CrMYC2 controls the jasmonate-responsive expression of the ORCA genes that regulate alkaloid biosynthesis in Catharanthus roseus.Fusion with fluorescent proteins for subcellular localization of enzymes involved in plant alkaloid biosynthesis.Plant expression signals of the Agrobacterium T-cyt gene.Characterization of the plastidial geraniol synthase from Madagascar periwinkle which initiates the monoterpenoid branch of the alkaloid pathway in internal phloem associated parenchyma.Nuclear factors GT-1 and 3AF1 interact with multiple sequences within the promoter of the Tdc gene from Madagascar periwinkle: GT-1 is involved in UV light-induced expression.The promoter of the strictosidine synthase gene from periwinkle confers elicitor-inducible expression in transgenic tobacco and binds nuclear factors GT-1 and GBF.Two GCC boxes and AP2/ERF-domain transcription factor ORA59 in jasmonate/ethylene-mediated activation of the PDF1.2 promoter in Arabidopsis.Geraniol hydroxylase and hydroxygeraniol oxidase activities of the CYP76 family of cytochrome P450 enzymes and potential for engineering the early steps of the (seco)iridoid pathway.Catharanthus roseus G-box binding factors 1 and 2 act as repressors of strictosidine synthase gene expression in cell cultures.Biotransformation of tryptamine and secologanin into plant terpenoid indole alkaloids by transgenic yeast.Tobacco genes encoding acidic and basic isoforms of pathogenesis-related proteins display different expression patterns.Characterization of two geraniol synthases from Valeriana officinalis and Lippia dulcis: similar activity but difference in subcellular localization.Auxin-induced, SCF(TIR1)-mediated poly-ubiquitination marks AUX/IAA proteins for degradation.Zinc finger proteins act as transcriptional repressors of alkaloid biosynthesis genes in Catharanthus roseus.Putting the opium in poppy to sleep.Characterization of cDNA clones for a virus-inducible, glycine-rich protein from petunia.Tailoring the plant metabolome without a loose stitch.The AP2/ERF domain transcription factor ORA59 integrates jasmonic acid and ethylene signals in plant defense.Molecular cloning and characterization of a vacuolar class III peroxidase involved in the metabolism of anticancer alkaloids in Catharanthus roseus.Identification of UV-B light-responsive regions in the promoter of the tryptophan decarboxylase gene from Catharanthus roseus.A promoter region that controls basal and elicitor-inducible expression levels of the NADPH:cytochrome P450 reductase gene (Cpr) from Catharanthus roseus binds nuclear factor GT-1.Identification of a bipartite jasmonate-responsive promoter element in the Catharanthus roseus ORCA3 transcription factor gene that interacts specifically with AT-Hook DNA-binding proteins.A Catharanthus roseus BPF-1 homologue interacts with an elicitor-responsive region of the secondary metabolite biosynthetic gene Str and is induced by elicitor via a JA-independent signal transduction pathway.Corrigendum: The seco-iridoid pathway from Catharanthus roseus.A G-box element from the Catharanthus roseus strictosidine synthase (Str) gene promoter confers seed-specific expression in transgenic tobacco plants.Salicylic acid suppresses jasmonic acid signaling downstream of SCFCOI1-JAZ by targeting GCC promoter motifs via transcription factor ORA59Binding specificity and tissue-specific expression pattern of the Arabidopsis bZIP transcription factor TGA2Versatile transformation vectors to assay the promoter activity of DNA elements in plantsThe ternary transformation system: constitutive virG on a compatible plasmid dramatically increases Agrobacterium-mediated plant transformation
P50
Q30598661-CA8A1B3B-5FEF-4FAB-876F-1E436569B93EQ30835394-1A0CA314-1FD3-4ECD-BAB8-46BD45C47429Q31156416-EF9F0851-8C61-4B21-A93D-20247DB29024Q33871182-458B6C5F-F933-45DF-903F-8D23F8296789Q34240341-EE39EB05-7B6D-47E4-BB8F-8A7ACC884948Q34598092-3E030D93-C05F-4E71-931B-F46823BC041EQ35052924-1A863FDE-D422-4401-8E6C-370913DB0EECQ36110221-D53B56B8-0ED9-4F89-AF47-B732ECE07433Q36864546-98699378-ABF9-4110-A3A6-335642A2C337Q37606754-2E8F6E0B-50A4-4371-A66B-AB46ABA49935Q37711722-16A697AD-349D-4A64-B2A4-E24FCC3ECA2BQ39576504-0FABDC42-9657-4185-AF97-3B7795C16E8AQ39692363-4226A8A3-7E79-4420-BF50-176632F8D1BEQ40391047-51494C7F-D4BC-4661-875E-0BB5442EF85AQ41406863-4EA6957F-9950-4D09-981D-E3036F3AB5ACQ41482428-AB95769F-7AE1-4370-B872-89746DCFBA37Q41482511-6A066EA4-30FF-4F1F-9EE5-E7AB15B04B51Q42118370-C9F3B5F6-3DEE-4C22-BF77-241A233618B5Q42709912-A2C74387-21E3-4C83-96A5-078D8D2267E2Q43607286-750935AF-A87A-4EAA-8DFB-23371AD33F6DQ43731748-B57243D4-0816-4D00-AEA0-61AAE8E7D016Q44246728-076986D5-46E6-486E-8289-4CFF70BAF0B8Q44585746-FB70DC4B-0011-435D-8618-B23E3D3C87E1Q44947807-0034F63B-2BDF-41A2-A801-66EEC2FF6A86Q45091136-557118D7-B980-4E2F-80C5-BFE32D4796D3Q45176943-5A015E9E-1019-442C-92D1-43703CCE9C17Q45852392-BF6DD082-00CF-4EFC-B46E-3329A03EC0A1Q46540984-B8712647-61A1-4C54-9CD3-FB93E60D9335Q46604373-E9D321C8-41DE-471A-B7E7-970A91816CA6Q46861446-BA843E16-7431-4E20-AC7E-72E9FDD5A039Q47898761-FB857D0D-0828-4C71-BE26-132BB2A352F0Q48041006-AB8F2B57-39FC-44AD-972F-00238B4FB302Q48079545-5101D84B-0324-4BF9-8FAF-EF31F7032358Q48379943-1D5E3F2A-1CF8-4319-8B1D-DC16DCFEF8F3Q50132669-FE4B077C-5AF0-4215-8873-522948822E2BQ52535660-842F9A34-EBE3-4DA6-88C5-BAA1EC2F07B1Q59166200-C1F4F9EA-2577-41AE-B0A9-2DEF5FBF7D65Q71073781-89E90893-0661-45AC-9DF8-6445B29527AAQ72801248-E15AD43D-80EB-4E28-A6DA-5C1F6C288CEEQ73125052-AE52672B-B4E8-4E59-8E9D-DD9357CF8A9A
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Johan Memelink
@ast
Johan Memelink
@en
Johan Memelink
@es
Johan Memelink
@nl
Johan Memelink
@sl
type
label
Johan Memelink
@ast
Johan Memelink
@en
Johan Memelink
@es
Johan Memelink
@nl
Johan Memelink
@sl
altLabel
J. Memelink
@nl
prefLabel
Johan Memelink
@ast
Johan Memelink
@en
Johan Memelink
@es
Johan Memelink
@nl
Johan Memelink
@sl
P1153
7003700835
P21
P31
P496
0000-0002-4767-506X
P735
P7449
PRS1248078