about
It All Starts with a Sandwich: Identification of Sialidases with Trans-Glycosylation ActivityNatural variability in bovine milk oligosaccharides from Danish Jersey and Holstein-Friesian breeds.The Effect of Gestational and Lactational Age on the Human Milk Metabolome.NMR-Based Milk Metabolomics.Mdm2 controls CREB-dependent transactivation and initiation of adipocyte differentiation.Lean-seafood intake decreases urinary markers of mitochondrial lipid and energy metabolism in healthy subjects: Metabolomics results from a randomized crossover intervention study.PPARγ ligand production is tightly linked to clonal expansion during initiation of adipocyte differentiation.A randomised, controlled, crossover study of the effect of diet on angiopoietin-like protein 4 (ANGPTL4) through modification of the gut microbiome.Nuclear magnetic resonance metabonomics reveals strong association between milk metabolites and somatic cell count in bovine milk.A Comprehensive Approach to Assess Feathermeal as an Alternative Protein Source in Aquafeed.Association between the bovine milk metabolome and rennet-induced coagulation properties of milk.Estimation of genetic parameters and detection of quantitative trait loci for metabolites in Danish Holstein milk.High resolution magic angle spinning NMR spectroscopy reveals that pectoralis muscle dystrophy in chicken is associated with reduced muscle content of anserine and carnosine.The Effect of Lean-Seafood and Non-Seafood Diets on Fasting and Postprandial Serum Metabolites and Lipid Species: Results from a Randomized Crossover Intervention Study in Healthy Adults.1H-13C NMR-Based Profiling of Biotechnological Starch Utilization.The effect of casein, hydrolyzed casein, and whey proteins on urinary and postprandial plasma metabolites in overweight and moderately obese human subjectsThe Effect of Lean-Seafood and Non-Seafood Diets on Fecal Metabolites and Gut Microbiome: Results from a Randomized Crossover Intervention StudyQuantification of Human Milk Phospholipids: the Effect of Gestational and Lactational Age on Phospholipid CompositionSalmon in Combination with High Glycemic Index Carbohydrates Increases Diet-Induced Thermogenesis Compared with Salmon with Low Glycemic Index Carbohydrates⁻An Acute Randomized Cross-Over Meal Test StudyRelationship between the metabolite profile and technological properties of bovine milk from two dairy breeds elucidated by NMR-based metabolomicsChemical and proteolysis-derived changes during long-term storage of lactose-hydrolyzed ultrahigh-temperature (UHT) milkLactose-hydrolyzed milk is more prone to chemical changes during storage than conventional ultra-high-temperature (UHT) milkGenetic analysis of orotic acid predicted with Fourier transform infrared milk spectraBackground Diet Influences TMAO Concentrations Associated with Red Meat Intake without Influencing Apparent Hepatic TMAO-Related Activity in a Porcine ModelAn Integrated Multi-Omics Analysis Defines Key Pathway Alterations in a Diet-Induced Obesity Mouse ModelNuclear Magnetic Resonance Metabolomics Reveals Qualitative and Quantitative Differences in the Composition of Human Breast Milk and Milk FormulasLactose and Bovine Milk Oligosaccharides Synergistically Stimulate B. longum subsp. longum Growth in a Simplified Model of the Infant Gut MicrobiomeInfluence of herd diet on the metabolome of Maasdam cheesesMetabolic Effects of Bovine Milk Oligosaccharides on Selected Commensals of the Infant Microbiome-Commensalism and Postbiotic EffectsCirculating Levels of Muscle-Related Metabolites Increase in Response to a Daily Moderately High Dose of a Vitamin D3 Supplement in Women with Vitamin D Insufficiency-Secondary Analysis of a Randomized Placebo-Controlled Trial
P50
Q36065873-19905CB6-1224-478A-860E-4EBFA06436FAQ36068242-7BD99D71-7173-4042-BB23-13A90AAD12BCQ36941870-239C66E0-F980-495A-9668-DC59326AD7B8Q37512742-F61752B3-7C57-402C-BFC5-A9402B87E614Q39386085-403B4DDA-80ED-450C-A31C-27C1E7264389Q39999715-EB06BBDF-B09F-4046-9DEB-3161A2152675Q41871002-EB2536DA-01F4-40BF-8C8A-7143B52FDE60Q42210874-C56C6A1A-B586-4E40-8041-48FB335D4D25Q43758978-582CECC5-8AE2-401D-AA72-BBAB04BCB153Q47422339-7B4C39F7-7933-43AD-B568-FCDB38F0800DQ50463717-65FD06CC-8132-4032-ACD2-DB1874A3B162Q50558585-24EFA716-4626-4B88-9EFF-D7422537304FQ51466963-DE535388-CA57-4FF9-AE64-B72885D3F0F0Q53683721-81063C4D-921A-4F08-B36C-E58D4697E610Q54306075-23D4E1D6-E54E-45D3-8476-4CEF743BBD5DQ59386859-39D51F04-540D-4C78-9193-4B30E99ADA69Q60863083-5AB5C66C-B6CA-45F0-96DE-9B3CB1542144Q64255995-2F3E0D42-D82E-446D-9379-93BFDD97968AQ64259315-970834EB-3E90-4BB5-9D4C-077120DDD359Q84296728-4C3841B8-F94F-44D3-950D-7F331F3D9FFCQ85891670-187788B4-6202-49EF-A120-2AC65882E2C3Q87395491-734F16D5-EB2A-4FA8-8547-4B9038449D9FQ89488739-113C2099-56A5-4BE6-B065-DB00D14F27F0Q89633614-94084838-BAF4-4168-BF2C-E127CDBC4A78Q89920388-59A4BCAB-84D4-4E72-858E-C8C0173D1D58Q90773013-83E7992A-4071-42C3-9C82-962BDB047EF2Q91541452-DE5DA3BC-32A6-4BC6-BC8D-D74CB12BAE85Q91719203-1A40B226-6C65-4FE1-B118-A2FCE13CDFD4Q94448318-0E8F9F72-7027-475C-B376-25E6AD624CAEQ94582713-4ABBBF8A-31FD-4D76-B63D-E72EB469ED28
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Ulrik K. Sundekilde
@ast
Ulrik K. Sundekilde
@en
Ulrik K. Sundekilde
@es
Ulrik K. Sundekilde
@nl
Ulrik K. Sundekilde
@sl
type
label
Ulrik K. Sundekilde
@ast
Ulrik K. Sundekilde
@en
Ulrik K. Sundekilde
@es
Ulrik K. Sundekilde
@nl
Ulrik K. Sundekilde
@sl
prefLabel
Ulrik K. Sundekilde
@ast
Ulrik K. Sundekilde
@en
Ulrik K. Sundekilde
@es
Ulrik K. Sundekilde
@nl
Ulrik K. Sundekilde
@sl
P106
P1153
42462593000
P31
P496
0000-0003-4849-0996