Infrared Spectral Analysis of Vaccine Carrier Proteins

Conjugate vaccine carrier proteins are bioactive protein products derived from animals and plants and developed through biotechnology. Compared to small molecule drugs, conjugate vaccines have the advantages of high activity, high specificity, and low toxicity, thus attracting extensive attention from researchers. Conjugate vaccine carrier proteins are a type of large molecule complex compound, and understanding their structure is crucial to understanding their function and stability.

 

Infrared spectroscopy is a common method for studying the structure of conjugate vaccine carrier proteins. Infrared spectroscopy uses the characteristics of substances absorbing, emitting, or scattering infrared radiation to obtain information about proteins. The application of infrared spectroscopy in the analysis of conjugate vaccine carrier proteins is reflected in the following aspects:

 

1. Infrared spectroscopy can help determine the secondary structure of proteins, such as α-helices, β-folds, and random coils.

2. Analysis of amino acid residues.

3. Monitoring changes in protein conformation, such as the folding state of the protein and the effects of solvent and temperature on its structure.

4. Detection of the denatured state of proteins, such as partial or complete denaturation of proteins and the formation of protein aggregates.

 

MtoZ Biolabs provides customers with pharmaceutical quality research services complying with global pharmaceutical regulations. We provide a one-stop service for the infrared spectroscopy analysis of conjugate vaccine carrier proteins. This technology can macroscopically determine the conjugate vaccine carrier protein in different states, concentrations, and environments. Free consultations are welcome to learn more details.