about
Chromatin mapping identifies BasR, a key regulator of bacteria-triggered production of fungal secondary metabolitesDifferential regulation of host plant adaptive genes in Pieris butterflies exposed to a range of glucosinolate profiles in their host plantsThe use of Leaf Surface Contact Cues During Oviposition Explains Field Preferences in the Willow Sawfly Nematus OligospilusTritrophic metabolism of plant chemical defenses and its effects on herbivore and predator performanceAuthor Correction: The use of Leaf Surface Contact Cues During Oviposition Explains Field Preferences in the Willow Sawfly Nematus OligospilusA light-dependent molecular link between competition cues and defence responses in plantsMolecular Basis of the Evolution of Methylthioalkylmalate Synthase and the Diversity of Methionine-Derived GlucosinolatesThe plastidial metabolite 2-C-methyl-D-erythritol-2,4-cyclodiphosphate modulates defence responses against aphidsThe Ca2+ Channel CNGC19 Regulates Arabidopsis Defense Against Spodoptera HerbivoryHerbivory meets fungivory: insect herbivores feed on plant pathogenic fungi for their own benefitSeparate Pathways Contribute to the Herbivore-Induced Formation of 2-Phenylethanol in PoplarHeterotic patterns of primary and secondary metabolites in the oilseed crop Brassica junceaSclerotinia sclerotiorum Circumvents Flavonoid Defenses by Catabolizing Flavonol Glycosides and AglyconesAnalysis of the isoprenoid pathway intermediates, dimethylallyl diphosphate and isopentenyl diphosphate, from crude plant extracts by liquid chromatography tandem mass spectrometryThe phytopathogenic fungus Sclerotinia sclerotiorum detoxifies plant glucosinolate hydrolysis products via an isothiocyanate hydrolase
P50
Q57470837-8E6F7C18-3B76-44D8-8168-C8190D01CDB4Q64059228-C04A9F41-F7C9-4A84-9CF0-34DFA4F42AFDQ64073012-40BBB846-9B3C-4790-88E4-415F39D67D14Q83225263-976D237F-2118-4753-9C6C-6CDDE6F4D11CQ89686486-447544A1-18FD-4F9E-B67C-5D70F13BD678Q90318130-F4B10ED9-3933-4923-AE42-1BC07D26C97FQ91522824-F390B5F4-E591-4D86-A030-CB8DA0720009Q91749306-8C66B7C6-983F-43E3-BC9F-00FD5ED47CAEQ91930321-8757B149-3EBB-45D4-919D-882A78CCF951Q92055729-0C9546EF-3A93-4376-87B5-3D231C34EFDFQ92205607-784DF3B7-4387-4DE4-A1C4-0077C0678115Q92615260-C6C29E2F-D29C-4EB7-8F16-7762973FAA89Q92916451-C347B900-F614-4028-A7BA-D4EFD1317246Q93245101-0D11A018-7EE9-4385-AA87-D4BF9AC4B492Q96576362-A1CC88D7-65FE-4218-89CF-1B4CD2FB4092
P50
description
researcher
@en
name
Michael Reichelt
@en
type
label
Michael Reichelt
@en
prefLabel
Michael Reichelt
@en
P31
P496
0000-0002-6691-6500