Metabolism Research
Metabolomics is the comprehensive study of metabolites, or the small molecule substrates, intermediates and products of metabolism, within cells, biofluids, tissues, or organisms. These unique chemical fingerprints are left behind by cellular processes. Metabolomics research provides a biochemical synopsis of a biological system and the physiological impact of disease, nutrition, therapy, or genetic modifications on an organism. Common applications for studying human, microbial or plant metabolomics include:
- pharmaceutical research to help characterize and identify novel biomarkers of disease and assess toxicity for personalized medicine
- functional genomics integration, or the study of the interaction of the genome, transcriptome, proteome and metabolome to predict gene function
- microbial mining and strain optimization?
- plant metabolomics for agriculture biotechnology
- environmental research to test the effects of pollutants in aquatic or terrestrial ecosystems and optimize the production of biofuels
- nutritional research to assess nutrition levels and perform food safety testing
The interaction of metabolites within a biological system is referred to as the metabolome. The metabolome is the complete set of metabolites in an organism or biological sample. Metabolites are compounds with low molecular weight, generally less than 1.5 KDa, which are the intermediates or products of biosynthesis/catabolism pathways. Examples include amino acids, nucleotides, carbohydrates, and lipids, which are often studied separately in lipidomics research. Primary metabolites are enogenous and directly involved in normal growth, development and reproduction. Secondary metabolites are exogenous and not involved in these processes but have important ecological functions.
Metabolomic pathways are investigated utilizing metabolites, enzymes, separation tools, and metabolite analysis and labeling. Two of the most common metabolic profiling techniques are targeted and untargeted metabolomic analyses. Targeted metabolomic analysis is the quantification of specific known metabolites in a sample, usually within a defined pathway or related group of compounds. Untargeted metabolomic analysis provides the global metabolic profile of a sample for both known and unknown metabolites with the intention of identifying novel metabolites. Metabolic fingerprinting is a rapid, global analysis of metabolites in a sample without the intention of specifically identify each metabolite.
A metabolomics workflow involves an integrated approach of sample preparation, standardization and calibration, separation methods, detection of metabolites, and data analysis. Sample types include plasma, urine, saliva, tissue, and cells. Sample preparation and separation methods are necessary to simplify complex mixtures as it is difficult to simultaneously analyze a broad range of metabolites with various physiochemical properties. Common separation methods utilized are gas chromatography (GC), high performance liquid chromatography (HPLC), or capillary electrophoresis (CE). These separation methods are commonly paired with mass spectrometry as a detection method, GC-MS or LC-MS. Mass spectrometry (MS), nuclear magnetic resonance (NMR), Fourier transform infrared (FT-IR) spectroscopy, and Raman spectroscopy are analytical techniques commonly used in metabolite detection. Metabolomics data analysis requires sophisticated tools and software for stringent compound identification and quantification, and accurate data interpretation.
Related Technical Articles
- Dr. Pratip Bhattacharya, California Institute of Technology. "Stable isotopes have played a very useful role in MR research which involves both MRI and MRS.
- Oxidative stress is mediated, in part, by reactive oxygen species produced by multiple cellular processes and controlled by cellular antioxidant mechanisms such as enzymatic scavengers or antioxidant modulators. Free radicals, such as reactive oxygen species, cause cellular damage via cellular.
- Terpenes comprise the largest and most diverse class of secondary metabolites; approximately 55,000 compounds have been identified to date.
- Neurotensin is a 13 amino acid regulatory peptide found mainly in gut and brain. Intestinal neurotensin is produced by a discrete population of endocrine cells (N cells) scattered throughout the jejuno-ileal mucosa.
- α2-Adrenoceptors
- See All (76)
Related Protocols
- Lipopolysaccharides (LPS) are characteristic components of the cell wall of Gram negative bacteria; they are not found in Gram positive bacteria. They are localized in the outer layer of the membrane and are, in noncapsulated strains, exposed on the cell surface. They contribute to the integrity of the outer membrane, and protect the cell against the action of bile salts and lipophilic antibiotics.
- Follow our procedure for the determination of alpha-Amylase activity. This enzymatic assay of a-Amylase guides you through the entire process and necessary calculations.
- Enzymatic Assay of Acid Phosphatase (EC 3.1.3.2)
- To measure alcohol dehydrogenase activity, this assay uses β-nicotinamide adenine dinucleotide phosphate and a continuous spectrophotometric rate determination at 340 nm.
- To standardize an enzymatic assay procedure of cellulase.
- See All (17)
To continue reading please sign in or create an account.
Don't Have An Account?