about
Interspecific nematode signals regulate dispersal behaviorTwo Defensive Lines in Juvenile Leaf Beetles; Esters of 3-nitropropionic Acid in the Hemolymph and Aposematic WarningA modular library of small molecule signals regulates social behaviors in Caenorhabditis elegansCombinatorial chemistry in nematodes: modular assembly of primary metabolism-derived building blocks.Comparative metabolomics reveals biogenesis of ascarosides, a modular library of small-molecule signals in C. elegans.Chemical detoxification of small molecules by Caenorhabditis elegans.Evolution of 'pollinator'- attracting signals in fungi.Conserved nematode signalling molecules elicit plant defenses and pathogen resistance.Ascaroside signaling is widely conserved among nematodes.Targeted metabolomics reveals a male pheromone and sex-specific ascaroside biosynthesis in Caenorhabditis elegans.Mating dynamics in a nematode with three sexes and its evolutionary implications.Sex-specific mating pheromones in the nematode Panagrellus redivivus2D NMR-based metabolomics uncovers interactions between conserved biochemical pathways in the model organism Caenorhabditis elegans.Succinylated octopamine ascarosides and a new pathway of biogenic amine metabolism in Caenorhabditis elegans.Complex small-molecule architectures regulate phenotypic plasticity in a nematodeThe SMUL_1544 Gene Product Governs Norcobamide Biosynthesis in the Tetrachloroethene-Respiring Bacterium Sulfurospirillum multivorans.Erratum: Mating dynamics in a nematode with three sexes and its evolutionary implications.Octamethylbicyclo[3.2.1]octadienes from the rhizobacterium Serratia odorifera.Sesquiterpene constituents from the essential oils of the liverworts Mylia taylorii and Mylia nuda.Selective MS screening reveals a sex pheromone in Caenorhabditis briggsae and species-specificity in indole ascaroside signalling.Ascaroside Profiling of Caenorhabditis elegans Using Gas Chromatography-Electron Ionization Mass Spectrometry.Halogenated C15 Acetogenin Analogues of Obtusallene III from a Laurenciella sp. Collected in Corsica.Comparative Ascaroside Profiling of Caenorhabditis Exometabolomes Reveals Species-Specific (ω) and (ω - 2)-Hydroxylation Downstream of Peroxisomal β-Oxidation.Synthesis and photosensitivity of isoxazolin-5-one glycosides.The pathogen causing Dutch elm disease makes host trees attract insect vectors.Asymmetric synthesis of corsifuran A by an enantioselective oxazaborolidine reductionSpirocyclopropane-type sesquiterpene hydrocarbons from Schinus terebinthifolius RaddiExploring Modular Glycolipids Involved in Nematode Chemical CommunicationSodorifen Biosynthesis in the Rhizobacterium Serratia plymuthica Involves Methylation and Cyclization of MEP-Derived Farnesyl Pyrophosphate by a SAM-Dependent C-MethyltransferaseEpimerization of an Ascaroside-Type Glycolipid Downstream of the Canonical β-Oxidation Cycle in the Nematode Caenorhabditis nigoniCorrection to Halogenated C15 Acetogenin Analogues of Obtusallene III from a Laurenciella sp. Collected in CorsicaAscaroside Signaling in the Bacterivorous Nematode Caenorhabditis remanei Encodes the Growth Phase of Its Bacterial Food Source
P50
Q27301319-8283AB02-7BD2-4745-9530-6AD695C374E9Q27315855-BCEDEAD0-13E5-4DE7-A604-D020EEF79DC4Q27320473-6470F38F-38A6-45FD-926F-937AD461F1ADQ27690760-3859BE00-7325-4B18-8A5F-A3F24AFB9E9EQ34125569-D1A69600-652B-40E5-A6A3-60FAB0B564A9Q34481125-AA093378-3F9A-440D-9D34-952628AE22EAQ35204187-77B76402-695C-4996-9F82-408FA5335EC4Q35916993-522B7D2E-7793-4FD1-A2AA-1483322E5389Q35990193-6D0F5AFB-5CC5-4C9B-AB82-539F38789406Q36177150-1F4C1FA8-1685-4AD1-972D-55FB7DA072F1Q36343899-971088A3-6E3F-4B8C-A66C-51F771E00A28Q36485135-B1089137-F98F-40D3-91A6-5BFC940A34B6Q36614778-0D616144-63DC-4B6B-89AF-98706B07C4C2Q36967280-006089C8-0F9D-43D2-B922-B36D50FC48DEQ37069883-5DB8A216-F5B8-4D68-B63E-E6E8735DC21DQ37138136-57E9A78E-50F6-47AB-A73B-96F68B163939Q39953104-0F1A63AE-D0E3-4EA0-B6DB-EB9B5F147AA8Q43162098-22378C8E-D17D-45CB-A0A5-F97F4E630607Q45179653-B9273DCE-2E78-43D8-AFB3-D5E321E6DEECQ46522596-677A528B-04C3-4977-AF2F-86123650A881Q48135485-2B62E71A-8522-4EB1-B288-5D3F732B7382Q48142155-41859BD5-507A-4FB5-AC2A-1816CA1199DAQ50421894-03B4C3FD-E372-415D-8D81-363266604276Q51369837-8205B200-68BA-402F-890E-49E3966C419AQ52662205-22014AFB-6103-44F4-A419-6B4E9BF09CBCQ80859322-0A536088-59D1-475D-92B0-47421739935BQ84393272-335303E7-6D77-4819-86AC-9E07CDB38E36Q88776911-14DDE11C-0034-4819-9AEA-CFB9BD347BA9Q91077609-233C667C-3E4C-49EA-A291-D0D502E4913AQ91753924-A8C219E0-B1AD-42FA-8A38-D9FD2AD9BF3EQ91761151-29604B28-E248-435F-91AA-E17C37516009Q91875675-9C4F8FC4-FAA6-4BB2-A7E1-4FCA54BE3074
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Stephan H von Reuss
@ast
Stephan H von Reuss
@en
Stephan H von Reuss
@es
Stephan H von Reuss
@nl
type
label
Stephan H von Reuss
@ast
Stephan H von Reuss
@en
Stephan H von Reuss
@es
Stephan H von Reuss
@nl
prefLabel
Stephan H von Reuss
@ast
Stephan H von Reuss
@en
Stephan H von Reuss
@es
Stephan H von Reuss
@nl
P108
P106
P1153
6508276535
P31
P496
0000-0003-4325-5495