Systems biology of lipid metabolism: from yeast to human.
about
Srf1 is a novel regulator of phospholipase D activity and is essential to buffer the toxic effects of C16:0 platelet activating factorA novel approach to the discovery of anti-tumor pharmaceuticals: searching for activators of liponecrosisFunctional expression and characterization of five wax ester synthases in Saccharomyces cerevisiae and their utility for biodiesel productionThe COP9 signalosome is involved in the regulation of lipid metabolism and of transition metals uptake in Saccharomyces cerevisiae.Many InChIs and quite some featReconstruction of genome-scale active metabolic networks for 69 human cell types and 16 cancer types using INITImproving production of malonyl coenzyme A-derived metabolites by abolishing Snf1-dependent regulation of Acc1Integrative analysis of human omics data using biomolecular networks.Reliable Drosophila body fat quantification by a coupled colorimetric assay.Integration of clinical data with a genome-scale metabolic model of the human adipocyte.Systematic lipidomic analysis of yeast protein kinase and phosphatase mutants reveals novel insights into regulation of lipid homeostasis.The stearoyl-coenzyme A desaturase 1 is essential for virulence and membrane stress in Candida parapsilosis through unsaturated fatty acid production.Systems biology: the next frontier for bioinformatics.The effects of statins on the mevalonic acid pathway in recombinant yeast strains expressing human HMG-CoA reductase.An assessment of growth media enrichment on lipid metabolome and the concurrent phenotypic properties of Candida albicansImproved production of fatty acids by Saccharomyces cerevisiae through screening a cDNA library from the oleaginous yeast Yarrowia lipolytica.Development of cellobiose-degrading ability in Yarrowia lipolytica strain by overexpression of endogenous genesReconstruction of cytosolic fumaric acid biosynthetic pathways in Saccharomyces cerevisiaeCandida parapsilosis produces prostaglandins from exogenous arachidonic acid and OLE2 is not required for their synthesis.Mapping condition-dependent regulation of lipid metabolism in Saccharomyces cerevisiaeAn overview of bioinformatics methods for modeling biological pathways in yeast.Splice isoform and pharmacological studies reveal that sterol depletion relocalizes α-synuclein and enhances its toxicityA unifying view of 21st century systems biology.An overview of lipid metabolism in yeasts and its impact on biotechnological processes.Yeast as a model system for studying lipid homeostasis and function.Genome-scale modeling of human metabolism - a systems biology approach.Yeast lipid metabolism at a glance.Cocoa butter-like lipid production ability of non-oleaginous and oleaginous yeasts under nitrogen-limited culture conditionsBudding Yeast: An Ideal Backdrop for In vivo Lipid Biochemistry.Computational Modeling of Lipid Metabolism in YeastMetabolic Engineering of Oleaginous Yeasts for Production of Fuels and Chemicals.Fatty acid oxidation: systems analysis and applications.Engineering Saccharomyces cerevisiae for high-level synthesis of fatty acids and derived products.Nile Red Staining of Neutral Lipids in Yeast.Growth-Coupled Carotenoids Production Using Adaptive Laboratory Evolution.Fat storage-inducing transmembrane (FIT or FITM) proteins are related to lipid phosphatase/phosphotransferase enzymes.A systematic assessment of chemical, genetic, and epigenetic factors influencing the activity of anticancer drug KP1019 (FFC14A).Lipid droplets accumulation and other biochemical changes induced in the fungal pathogen Ustilago maydis under nitrogen-starvation.Enhanced production of fatty alcohols by engineering the TAGs synthesis pathway in Saccharomyces cerevisiae.Genetic engineering and molecular characterization of yeast strain expressing hybrid human-yeast squalene synthase as a tool for anti-cholesterol drug assessment.
P2860
Q24627548-3A9FA1CC-7759-401A-A92B-586A78325566Q26774351-B3FD73E5-7263-433B-9846-E25BD05F5303Q27499119-DC27B55D-5CD0-44CB-865D-A7DB9E3AFE88Q27931851-2D737E09-13F4-4138-9B2D-C3FBB713FB11Q27943500-F1870F73-DE1B-450C-8585-650C4A44758AQ28483779-D512C049-B2C9-436E-AB8D-E182849556D1Q28657921-A768A4AD-88B2-40E0-ADA1-55C09111C1A7Q31120979-B5663DF0-240F-40FB-971A-5046C0174C39Q34023151-EA02B297-B400-40F9-A350-5F7B992B2CF6Q34334051-D4E8265E-5E8D-4DA0-A456-D9ECF9D9958DQ34338023-C5B165EE-68D9-4377-BD82-89A7CC2A94F8Q34484553-372BE8F6-DD60-4293-9C02-8CE2D67CC248Q34571547-BD022132-1EE4-402F-A5B2-6A703F387812Q35017735-DB150CF1-DCD9-4346-99D5-58BD09296931Q35448907-E87C4E6E-7E7D-4181-8FB2-CB483B73F8A0Q35866641-4238D715-B56C-4969-8B96-9C766CF0574EQ35914842-662BFA4E-16A9-4900-AEBA-6821BB694672Q35922719-3D41D800-0DF4-44B4-BF8A-EAD0B3FC7A00Q36155016-CF94FE89-9C85-45EA-B382-EE6727763EA7Q37272929-7C3C7EDB-828C-4C48-BCB6-48FD1FBA29FEQ37341560-752F8D7A-B8F9-46EC-A493-42208211516FQ37612718-A3BFA61E-300E-4E9A-886E-2EAA917237BBQ37632840-3B6DEF3F-B9DF-4959-872E-4E1DC3B02753Q37859649-0D8B629D-6E4E-474C-8C54-AA4270DE7654Q38028724-FCDD53C9-D36E-4418-A814-645DEBAE5F7DQ38101307-7C80858F-65E5-4C05-A54F-6165742DB16FQ38187442-736C40DB-6BE1-4F40-A34C-40D3CAF83A42Q38760572-E06FB062-D24F-4C9F-8BC2-F4D80EAA59EFQ39102034-5C4BA0FD-B742-4DC4-AE96-781A16B19F50Q41188333-A4A6B454-AAA7-4A70-9B4A-70C2812E582CQ44048714-77D3906F-8DF6-4F04-9757-BD26802FA75EQ44821168-58A45752-7BDA-4347-BFB2-5C958DE74288Q45080966-0D7C84BC-3E59-4193-9236-DE178321BCF5Q46423810-EE7C0DBB-E21D-473A-ADFD-5C2719470606Q47318275-FF6B8843-7E01-4C0B-B071-7FCD8501C8E9Q49269777-7392C342-080A-44B5-8E2F-3AF88F4C7FD4Q49517494-476401DF-2E07-418B-B594-28257027759AQ50976241-EE680202-9452-4DF2-8A80-D433F5B7030AQ51063507-BCAE0A34-8627-44ED-9E64-94BE35256E57Q51565685-539AC5C9-6717-4A24-97F0-E0AE433FD069
P2860
Systems biology of lipid metabolism: from yeast to human.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on December 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Systems biology of lipid metabolism: from yeast to human.
@en
Systems biology of lipid metabolism: from yeast to human.
@nl
type
label
Systems biology of lipid metabolism: from yeast to human.
@en
Systems biology of lipid metabolism: from yeast to human.
@nl
prefLabel
Systems biology of lipid metabolism: from yeast to human.
@en
Systems biology of lipid metabolism: from yeast to human.
@nl
P2860
P1433
P1476
Systems biology of lipid metabolism: from yeast to human.
@en
P2860
P304
P356
10.1016/J.FEBSLET.2009.10.054
P407
P50
P577
2009-12-01T00:00:00Z