Resources

Proteomics Databases



Metabolomics Databases

• • The Importance of Protein Quantification in Biomedical Research

  Protein quantification is a key method for measuring protein expression levels and is of great significance in biomedical research.Protein is an important functional molecule in organisms, playing a crucial role in regulating cell functions, participating in signal transduction, and biological processes.

• • How to Interpret Biomacromolecules from Circular Dichroism Data?

  Circular dichroism (CD) spectroscopy is an important tool for studying the structure and properties of biomacromolecules. However, correctly interpreting the results of CD analysis is crucial for understanding the structure of biomacromolecules.

• • The Significance and Prospects of Quantitative Proteomics of Protein Modifications in Disease Research

  With the development of biotechnology, quantitative proteomics of protein modifications has become a tool for researchers to gain a deeper understanding of protein modifications. Protein modification refers to the chemical modifications on protein molecules that can regulate the structure, function, and interactions of proteins.

• • How Does Global Protein Sequence Alignment Analysis Reveal Protein Function and Structural Diversity?

  Global protein sequence alignment analysis is an important method that allows us to compare different protein sequences and reveal their functional and structural diversity.

• • Optimization of Automated Workflow for Protein Sequence Alignment Result Analysis

  Protein sequence alignment is an important task in the field of bioproducts, as it helps us understand the structure, function, and evolutionary relationships of proteins. With the development of high-throughput protein sequencing technologies, the amount of protein sequence data generated is enormous, thus requiring optimization of analysis methods to achieve fast and accurate identification of homologous proteins.

• • How to Analyze and Interpret Protein Sequencing Results?

  Protein sequencing is an important analysis technique in the field of biopharmaceuticals, providing crucial data for protein research and biopharmaceutical development by revealing the amino acid sequence of proteins. The analysis and interpretation of protein sequencing results are crucial as they directly impact the understanding of protein structure and function.

• • Comparison of Infrared Spectroscopy and Mass Spectrometry in Protein Amino Acid Composition Analysis

  In the field of proteomics analysis, there are various methods available for protein amino acid composition analysis. Infrared spectroscopy and mass spectrometry are commonly used methods for protein amino acid composition analysis, each with its own advantages and applicability.

• • Revealing the Complete Profile of Proteins in Biological Systems through Proteomics Sequencing

  Proteomics sequencing methods include mass spectrometry, protein microarrays, and second-generation sequencing. Mass spectrometry is the most commonly used proteomics sequencing technique.

• • Characterizing Bioproducts through Protein N-Terminal and C-Terminal Sequencing

  Protein is an important target in the research and development of biological products, and the N-terminal and C-terminal sequences of proteins play a crucial role in their structure, function, and characterization. The protein N-terminal and C-terminal sequencing provides a key tool for analyzing biological products.

• • Interpreting Protein Secondary Structure by Improving Circular Dichroism Sample Processing

  The protein secondary structure is an important component of their structure, including α-helix, β-sheet, and random coil. Circular dichroism is a widely used technique in protein research, which provides important information about the secondary structure by measuring the absorption of proteins to circularly polarized light.