Resources

Proteomics Databases



Metabolomics Databases

• • MtoZ Biolabs Polyphenol Metabolomics Analysis: Comprehensive Identification and Quantification of Bioactive Compounds

  At MtoZ Biolabs, we leverage state-of-the-art mass spectrometry (MS) techniques, along with liquid chromatography, to provide high-resolution identification and quantification of polyphenol metabolites. Our vast database contains more than 3,500 polyphenol-related metabolites, allowing for comprehensive coverage of various metabolic pathways and their impact on biological systems. This service is designed to support diverse research fields including drug discovery, nutritional research, and food quality con

• • MRM-Based Targeted Metabolomics - Comprehensive TMAO Metabolite Analysis Service

  At MtoZ Biolabs, our cutting-edge TMAO analysis service delivers high-quality, reproducible data, helping researchers make critical insights into metabolic processes and disease mechanisms. Contact us to learn how our service can support your research objectives.

• • Comprehensive Targeted Fatty Acid Detection Service by MtoZ Biolabs

  At MtoZ Biolabs, we offer a cutting-edge Targeted Fatty Acid Detection Service designed to precisely analyze fatty acids—key biochemical molecules essential for various metabolic and physiological processes. Fatty acids are composed of carbon, hydrogen, and oxygen, and are categorized into three main groups: short-chain (1–6 carbons), medium-chain (6–12 carbons), and long-chain (12–26 carbons). These fatty acids are crucial in various biological pathways, including energy production, cellular structure main

• • MtoZ Biolabs Comprehensive Metabolomics Solutions: Powerful Support for Multi-Disciplinary Research

  At MtoZ Biolabs, we provide comprehensive metabolomics solutions to meet the evolving needs of biological research. Metabolomics is the study of the small molecules (metabolites) present within cells, tissues, or organisms. By analyzing these metabolites, our metabolomics services offer valuable insights into biological processes, disease states, and the effects of various treatments.

• • High-Throughput Phosphoproteome Analysis Based on MS

  Phosphorylation, as a vital post-translational modification (PTM), plays a key role in numerous cellular processes such as signal transduction, metabolic regulation, and cell growth. Understanding these biological mechanisms requires a comprehensive analysis of protein phosphorylation states. Traditional approaches to phosphorylation studies are often slow and limited in throughput.

• • Phosphoprotein Enrichment Methods in Quantitative Phosphoproteomics

  With the rapid development of proteomics, phosphorylation modification, as an essential mechanism regulating cellular physiological functions, has gradually become a research hotspot. Quantitative phosphoproteomics primarily analyzes the phosphorylation status of proteins and their dynamic changes, aiding in the understanding of key biological processes such as signal transduction and cell cycle regulation.

• • Phospho-Site Mapping Based on Mass Spectrometry

  In modern proteomics research, phosphorylation is a key post-translational modification (PTM) that regulates protein activity, interactions, and functions. It plays a significant role in various biological processes, such as cell signaling, metabolism, and cell cycle control. Due to its biological importance, accurate identification and localization of phosphorylation sites are crucial for understanding protein function regulation.

• • Mechanism of Protein N-Glycosylation and its Detection

  N-glycosylation is a crucial form of post-translational modification of proteins, significantly impacting their structure, function, and stability. This process primarily occurs on asparagine (Asn) residues, influencing biological activities, cellular signaling, and immune responses.

• • Application of N-Glycosylation Site Analysis in Biopharmaceutical Development

  N-glycosylation refers to the process of adding sugar chains to the nitrogen atom of proteins, which significantly impacts their structure and function. In biopharmaceutical development, the analysis of N-glycosylation sites provides crucial insights into understanding drug targets' functionality, enhancing drug stability and biocompatibility, and optimizing production processes.

• • Workflow of N-Glycosylation Profiling in Biopharmaceuticals

  N-glycosylation is an essential form of post-translational modification of proteins that significantly impacts the quality and bioactivity of biopharmaceuticals. Understanding the workflow of N-glycosylation is crucial for ensuring the safety and efficacy of biologics.