Assay type 'Metabolite Concentration'

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This assay is for method development to quantify intra- and extra-cellular metabolites on T. brucei 427 bloodstream form using isotope ratio based MS technique with 13C-labelled E. coli extract

26 intracellular metabolites (amino acids, polyamines, TCA intermediates) in T. brucei exposed to methylene blue have been absolutely quantified using isotope ratio based MS technique.

26 intracellular metabolites (amino acids, polyamines, TCA intermediates) in T. brucei under pH stress (pH8.7) have been absolutely quantified using isotope ratio based MS technique.

Extracellular metabolites in T. brucei at different stage of cell growth have been quantified absolutely by isotope ratio based MS technique using uniformly 13C-labelled E. coli extract. This is the case study for method development of absolute quantification for metabolic flux analysis.

Glucose transporter mutants were analyzed under aerobic and aerobic conditions in batch cultures with glucose as substrate. Acetate formation rates and glucose consumption rates were measured, as well as extracellular cAMP concentrations.

Temperature degradation of BPG, GAP and DHAP

Experimental data for the conversion of 3PG to F6P and the gluconeogenic pathway intermediates

Metabolite analysis in clock mutants: Col-0 parent and mutants gi-201, toc1-101 and prr7prr9; WS parent and lhy/cca1 double mutant. Plants grown in Golm and harvested at End of Day and End of Night, , assays 22 major metabolites. More detail on TiMet wiki if required. Heteroscedastic t-tests to highlight most significant changes, without multiple-testing correction.

Experimental data for the yeast PGK incubations at 30C, with and without recycling of ATP.

BPG degradation at 70C

Batch cultures of designed media inocculated with biomass from WWTP anaerobious fermentation steps. The media consisted of a series of macro- and micro-nutrients to avoid limitations on proliferation, and a fermentative substrate of glucose and aminoacids. The glucose proportion and aminoacid composition varied culture to culture according to previous work using a mathematical model of a mixed culture fermentation in similar conditions. Acetoclastic methanogenesis was avoided with BES at 1 ...

Submitter: Alejandro Martínez Rey

Assay type: Metabolite Concentration

Technology type: Chromatography

Investigation: 1 hidden item

Study: 1 hidden item

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