about
Nanostructure imaging mass spectrometry: the role of fluorocarbons in metabolite analysis and yoctomole level sensitivityEndothelial targeting of cowpea mosaic virus (CPMV) via surface vimentinABHD12 controls brain lysophosphatidylserine pathways that are deregulated in a murine model of the neurodegenerative disease PHARCResponse and recovery in the plasma metabolome tracks the acute LCMV-induced immune responseMETLIN: a metabolite mass spectral databaseThe identification of an adenovirus receptor by using affinity capture and mass spectrometry.Data-driven synthesis of proteolysis-resistant peptide hormones.Acylcarnitines are anticoagulants that inhibit factor Xa and are reduced in venous thrombosis, based on metabolomics data.Quantitative ESI-TOF analysis of macromolecular assembly kineticsActivation of human brown adipose tissue by a β3-adrenergic receptor agonist.Type I signal peptidase and protein secretion in Staphylococcus epidermidis.Regulation of astrocyte activation by glycolipids drives chronic CNS inflammation.The GPR 55 agonist, L-α-lysophosphatidylinositol, mediates ovarian carcinoma cell-induced angiogenesis.Ant and Mite Diversity Drives Toxin Variation in the Little Devil Poison Frog.Mass spectrometry reveals specific and global molecular transformations during viral infection.Warfarin untargeted metabolomics study identifies novel procoagulant ethanolamide plasma lipids.Potential role of intratumor bacteria in mediating tumor resistance to the chemotherapeutic drug gemcitabine.Lysine addressability and mammalian cell interactions of bacteriophage λ procapsids.The anticancer natural product ophiobolin A induces cytotoxicity by covalent modification of phosphatidylethanolamine.Selective metabolite and peptide capture/mass detection using fluorous affinity tags.In vivo performance of a drug-eluting contact lens to treat glaucoma for a month.Correlating the transcriptome, proteome, and metabolome in the environmental adaptation of a hyperthermophile.A metalloantibody that irreversibly binds a protein antigen.Molecular physiology of chemical defenses in a poison frogHydrogen peroxide as a hydride donor and reductant under biologically relevant conditions
P50
Q27014795-7735AA9A-1D26-44FB-924A-52C165B694EFQ28475414-59B48B29-EDA8-47D0-AD7E-DC57DE539442Q28509608-5A6D76B1-23B1-42EE-848A-1588D6FF9EE4Q28727959-7DC86C8C-B143-489C-AEF2-4DBCF84DC1C9Q29614808-F7CC7969-9315-4849-A76F-CB0F7044AE44Q30834507-8105F7CA-15CC-4416-8074-5C86F536F7E8Q30877336-8DAEE622-42A4-4F9C-8B0B-5A6E1C926AABQ30980433-54100BA7-FB13-47E1-BCF2-C9955A01B832Q33384258-6E0DC65A-8E53-4C17-8AEF-A64B5F12C82CQ34456901-4F6CA7F9-8FDD-4F43-AA1E-FE7517789530Q34484327-AA4CD960-6BE0-4C80-9552-00E6245F0605Q34632490-E28538D6-992F-4178-9DB4-AF28FB74DD73Q35978114-82846CD7-3EC5-4977-A16E-116822D77EA1Q36056218-A5B21991-775C-4B49-A4FE-41760C6CFA22Q36935602-4E4050E7-77ED-4520-A653-E367ECF94F20Q37699506-FB6B08B1-8A71-49C4-BABC-72029799ED1EQ40045156-FB42CB7C-42FC-47B6-809F-2A8BABE10E9CQ42254581-8553884F-70DC-4D6E-87AF-DD293C67E901Q42424833-966F66CF-DDCE-4A59-899B-3815F1F79213Q42429757-06159FD3-63D7-46A4-B505-632A9B8B7AFAQ42773028-F2447D03-B7FD-4F40-9934-84FEC8937CD9Q43024065-F8F81AAB-26A9-4FA9-B4EB-32BCD9E5A018Q43808918-7540E520-537C-437A-94BB-3E18F26391EBQ92355059-15FDC624-3E98-4A93-AC1B-E3AC91FF23EEQ92431467-F729D730-0FEF-48C4-AD2E-AB6E83327957
P50
description
researcher
@en
wetenschapper
@nl
name
Sunia A Trauger
@en
Sunia A Trauger
@nl
type
label
Sunia A Trauger
@en
Sunia A Trauger
@nl
prefLabel
Sunia A Trauger
@en
Sunia A Trauger
@nl
P106
P31
P496
0000-0002-1678-8715