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MtoZ Biolabs - Model ptms-metabolomics -Integrative PTM-Metabolomics Analysis
Post-translational modifications (PTMs) of proteins are covalent processing events occurring to proteins either during or after their translation. The "post-translationally modified proteome" refers to the collection of post-translationally modified proteins within a cell or tissue. Known protein PTMs include glycosylation, phosphorylation, acetylation, ubiquitination, disulfide bond formation, methylation, and nitrosylation, among others. The metabolome encompasses all small molecules (commonly referred to as metabolites) within a cell, tissue, or organism. Post-translationally modified proteins can regulate various cellular biological processes and impact metabolic changes in organisms. These proteins include post-translationally modified transcription factors and metabolic enzymes. Thus, integrating the analysis of the post-translationally modified proteome and the metabolome, and comparing their expression profiles, aids in elucidating the metabolic mechanisms of organisms at different levels. This approach helps identify differential modified proteins and metabolites, as well as the key pathways and related genes involved, facilitating further in-depth research.
MtoZ Biolabs employs Thermo Fisher’s Orbitrap Fusion Lumos mass spectrometry platform combined with nano-liquid chromatography. Our services include identifying PTMs such as phosphorylation, glycosylation, ubiquitination, acetylation, methylation, disulfide bond formation, and nitrosylation. We also offer targeted and untargeted metabolomics analysis for various samples, integrating these with customizable bioinformatics analysis methods. This provides researchers with mass spectrometry-based integrated analysis services for PTM proteomics and metabolomics
1. Agriculture and Forestry
Studies on growth, development, stress resistance, breeding, and species conservation.
2. Livestock
Research on growth, development, disease mechanisms, and quality analysis of meat and dairy products.
3. Marine and Aquatic Sciences
Exploration of growth mechanisms, resource management, environmental impacts, and seafood safety.
4. Microbiology
Investigation of pathogenicity, resistance mechanisms, and pathogen-host interactions.
5. Biomedical Fields
Identification of biomarkers, elucidation of disease mechanisms, disease classification, drug development, and personalized treatment strategies.
6. Environmental Sciences
Enhancements in fermentation processes, biofuel production, and environmental risk assessments.
7. Food Sciences
Optimization of storage and processing conditions, quality and component analysis, functional food development, and safety evaluations.
In the technical report, MtoZ Biolabs will provide you with detailed technical information, including:
1. Experimental Procedures
2. Relevant Experimental Parameters
3. Mass Spectrometry Images
4. Raw Data
5. Results of Modified Proteome and Metabolome Analysis
MtoZ Biolabs is an integrate contract research organization (CRO) providing advanced proteomics, metabolomics, bioinformatics, and biopharmaceutical analysis services to researchers in biochemistry, biotechnology, and biopharmaceutical fields. The name of MtoZ represents “mass to charge ratio” in mass spectrometry analysis, as most of our services are provided based on our well-established mass spectrometry platforms. Our services allow for the rapid and efficient development of research projects, including protein analysis, proteomics, and metabolomics programs.
MtoZ Biolabs is specialized in quantitative multiplexed proteomics and metabolomics applications through the establishment of state-of-the-art mass spectrometry platforms, coupled with high-performance liquid chromatography technology. We are committed to developing efficient, and effective tools for addressing core bioinformatics problems. With a continuing focus on quality, MtoZ Biolabs is well equipped to help you with your needs in proteomics, metabolomics, bioinformatics, and biopharmaceutical research. Our ultimate aim is to provide more rapid, high-throughput, and cost-effective analysis, with exceptional data quality and minimal sample.
Email: [email protected]
