Resources

Proteomics Databases



Metabolomics Databases

• • Analyzing the Spatial Distribution of Proteins in Cells and Tissues Through Spatial Proteomics Technology

  In organisms, proteins serve as the fundamental executors of cellular functions and play important roles in signal transmission, catalysis, and maintenance of structures. However, the functionality of proteins is closely related to their spatial location within cells and tissues. In order to deepen our understanding of the functionality and disease mechanisms of biological systems, as well as to advance the development of biopharmaceuticals, scientists have proposed spatial proteomics techniques.

• • What are the Common Methods for Peptidomics Analysis?

  Peptidomics is the field that studies the complete set of peptides and their functions in organisms. In order to gain a deeper understanding of the composition and functions of peptides in biological systems, scientists have developed various methods for peptidomics analysis. This article will introduce commonly used methods for peptidomics analysis, allowing readers to understand the principles and applications of these methods.

• • Common Methods and Detection Techniques for Interacting Protein Screening

  In the field of biopharmaceuticals, protein-protein interaction is a crucial step in studying biological processes and developing drugs. Protein-protein interaction screening is an important technique used to discover and study the interactions between proteins.

• • Methods for Molecular Weight Determination

  Molecular weight is an important parameter for describing the size of molecules and holds significant significance in the field of biopharmaceutical research and applications. Scientists have developed various methods for measuring molecular weight accurately to determine the mass or size of molecules. This article will introduce the working principles of molecular weight determination methods to help readers understand the basic principles and application scope of these methods.

• • Precise Quantitative Analysis and Functional Interpretation of Disease Research in Proteomics

  Proteomics, as a discipline that studies the composition, structure, function, and interactions of all proteins within an organism, plays a crucial role in disease research. With the advancement of technology, proteomics enables precise quantification and functional analysis of disease-related proteins, providing important scientific basis for understanding disease mechanisms, identifying new therapeutic targets, and developing innovative biopharmaceuticals.

• • Working Principle of Molecular Weight Determination in HPLC Analysis

  In the field of biopharmaceuticals, peptides play an important role as bioactive molecules and have broad application prospects. Accurate determination of the molecular weight of peptides is an important task in order to determine their structure and characteristics. High-performance liquid chromatography (HPLC) analysis technique plays a crucial role in peptide analysis due to its high resolution, sensitivity, and wide applicability.

• • Mass Spectrometry Imaging Revealing Spatial Distribution of Proteins

  Proteins, as important functional molecules in organisms, have significant implications for understanding biological processes and disease development through their spatial distribution at the cellular and tissue levels. With the advancement of proteomics technologies, mass spectrometry imaging has emerged as a powerful tool for revealing the spatial distribution of proteins at the tissue and cellular levels.

• • Single-Cell Proteomics Revealing Protein Expression Variations at the Cellular Level

  Proteins are the most important functional molecules in cells, and the variation in protein expression between different cells directly determines their specific biological functions and states. However, traditional proteomics research is usually based on homogeneous samples of a large number of cells, ignoring the heterogeneity between cells.

• • Comprehensive Workflow Analysis of Proteomics Sequencing

  Proteomics sequencing is a key technology for studying the proteome. It provides important information for a comprehensive analysis of protein composition, structure, and function, aiding in the deeper understanding of biological mechanisms and the development of diseases. This article will provide a detailed overview of the proteomics sequencing process, from sample preparation to data analysis, to help readers gain a comprehensive understanding of the entire process.

• • How to Use Proteomics DIA to Reveal Disease Molecular Mechanisms?

  Proteins play a crucial role in the occurrence and development of diseases, and understanding the molecular mechanisms of diseases is essential for the development of new therapeutic methods and precision medicine. Protein-based DIA (Data-Independent Acquisition) technology, as a high-throughput, comprehensive, and quantitative protein analysis method, has played an important role in uncovering the molecular mechanisms of diseases.