Squalene
Top View
- Squalene and Squalane As Adulterants
- NAPRALERT Classification Codes
- Simplified LC-MS Method for Analysis of Sterols in Biological Samples
- The Interdependency and Co-Regulation of the Vitamin D and Cholesterol Metabolism
- Not So Slim Anymore—Evidence for the Role of SUMO in the Regulation of Lipid Metabolism
- An Ester of Β-Hydroxybutyrate Regulates Cholesterol Biosynthesis
- Transporter-Mediated Biofuel Secretion
- Terpene Biosynthesis 2.1 Introduction Terpenes Are A
- Changes of Physicochemical Properties, Oxidative Stability And
- Safety Assessment of Squalane and Squalene As Used in Cosmetics
- Atmospheric Oxidation of Squalene: Molecular Study Using COBRA Modeling and High-Resolution Mass Spectrometry † ‡ § ∥ ‡ David R
- Epoxidation of Terpenes
- Marisa Mayer Microbial Diversity 2016 Utilizing Squalene Tetrahymanol
- Cholesterol-Dependent Degradation and Unsaturated Fatty Acid-Dependent Stabilisation of Squalene Monooxygenase in the Control of Cholesterol Synthesis
- Staphylococcal Responses to Skin Surface Lipid Squalene
- Carotenoids Overproduction in Dunaliella Sp.: Transcriptional Changes and New Insights Through Lycopene Β Cyclase Regulation
- Squalene Biochemistry, Molecular Biology, Process Biotechnology
- Isobutene Formation from 3-Hydroxy-3-Methylbutyrate (3-HMB