Resources

Proteomics Databases



Metabolomics Databases

• • Unveiling Protein Conformation: In-Depth Analysis of Circular Dichroism

  Introduction Proteins are important functional molecules in living organisms, and their conformation determines their function and interaction. Circular dichroism spectroscopy is a commonly used technique that can reveal the conformational information of proteins. In this article, we will delve into the analysis of circular dichroism spectroscopy, exploring the secrets of protein conformation.

• • Secrets to Precision Circular Dichroism Spectrum Preparation

  Introduction Circular dichroism spectroscopy is a commonly used analytical technique for studying the structure and conformational changes of biomolecules. Mastering key techniques for preparing accurate circular dichroism spectra can improve the accuracy and reproducibility of experiments.

• • CD Spectroscopy and Proteins: Unveiling Conformational Diversity

  Proteins are essential molecules in living organisms, playing important roles in the regulation of cellular functions, signal transduction, and structural maintenance. In order to gain a deeper understanding of protein function and properties, scientists continuously explore various techniques. Among them, circular dichroism spectroscopy is a powerful biophysical technique that reveals the secrets of protein conformational diversity by studying the structure of protein molecules.

• • How to Analyze Protein Isoelectric Points?

  What is the isoelectric point of a protein? The isoelectric point of a protein refers to the pH value at which the protein exhibits a neutral charge in a solution. When the isoelectric point of a protein is equal to the pH value of the solution, the protein carries no positive or negative charge. The isoelectric point of a protein has important implications for its solubility, stability, and functionality.

• • Choosing Protein Purity Detection Methods: Comparing HPLC With MS

  Protein is an important functional molecule in organisms, and the purity of protein directly affects the results of drug development and biological research. Therefore, accurate and rapid detection of protein purity has become an important task for researchers and pharmaceutical companies.

• • New Advances in Protein Purity: Exploring CO-IP-MS Benefits and Applications

  Protein is an important functional molecule in organisms, and its purity is of great significance for research and application. Traditional protein purity analysis methods have some limitations, but in recent years, a new technology called co-immunoprecipitation-mass spectrometry (CO-IP-MS) has made breakthroughs in the field of protein purity analysis.

• • Application of New Technology for Protein N-Terminal Sequencing: IP and CO-IP

  Introduction Proteins are important functional molecules in living organisms, and studying their structure and function is crucial for understanding biological processes and disease mechanisms. Protein sequencing from scratch is a commonly used technique that can help us understand the composition and interaction relationships of proteins.

• • Comprehensive Guide to Protein Purity Detection: CO-IP and MS Applications Analysis

  Protein is an important functional molecule in organisms, and its purity is crucial for research and application. Protein purity detection is the process of determining the content and purity of the target protein in a protein sample.

• • New Advances in Protein Interaction MS: HPLC Detection Prospects

  Proteins are one of the most important functional molecules in organisms, and they form complex networks through interactions with each other, participating in the regulation of cellular physiological processes. Understanding the interactions between proteins is of great significance for revealing cellular functions and disease mechanisms. Protein-protein interaction mass spectrometry analysis is an effective method that can help us study the network of protein interactions.

• • Protein Modification Proteomics

  Post-translational modifications proteomics (PTM proteomics) is a systematic analysis method for studying post-translational modifications (PTMs) in proteins. PTMs are significant biochemical events within cells and play key roles in almost all biological processes, including signal transduction, cell cycle regulation, gene expression, and cell death, etc.