Blood groups are defined by oligosaccharide structures that are specific to antigens. The ABO blood group system is associated with A, B, and H antigens, whose specificity lies in the differences in the terminal carbohydrate residues. The H antigen is synthesized by adding fucosyl residues to a precursor oligosaccharide. The addition of N-acetylgalactosamine residues to the H antigen produces the A antigen, while the addition of galactose residues produces the B antigen. Small changes in the oligosaccharide structure not only affect the classification of blood groups but also have an impact on immune responses, biorecognition, and pathogen-host interactions. CD BioGlyco is a specialist glycobiology company that has invested heavily in the development of blood group and Lewis antigen products to promote and accelerate scientific research in related fields.
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The synthesis of well-defined glycoproteins with high purity is essential for studying biological processes mediated by them. CD BioGlyco has accumulated a lot of successful experience and can provide a variety of distinct glycoproteins synthesis services. We look forward to being your essential research assistant in the field of glycoproteins and accelerating your research.
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Glycobiology plays an important role in modern medicine and pharmaceuticals. CD BioGlyco is a leader in the field of carbohydrates, dedicated to meeting all your carbohydrates research needs to advance the development of biopharmaceuticals and glycomedicine.

Introduction
Glycans directly participate in almost every biological process and play an important role in almost every human disease. After genome, transcriptome, or proteome, glycomics is flourishing in its era. Identifying the number, structure, and function of glycans in cell biology, as well as exploring the relationship between saccharides and life, are difficult tasks. However, more advanced technologies have been developed to enable an increasingly comprehensive understanding of the overall position of glycans in biology and made it easier to apply glycomics to precision medicine.
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The role of glycosylation is vital in various life processes, such as cell growth and reproduction, adhesion, and signal transduction. Abnormal glycosylation usually leads to the occurrence of some diseases. Therefore, the research of glycosylation has become a hot spot both in fundamental science and clinical applications. At CD BioGlyco, our advanced glycosylation inhibitor development services closely follow the development trend in science and technology. We aim to provide clients with unparalleled support services for glycosylation research. Our team of scientists has many years of experience in the development of glycosylation inhibitors. Our glycosylation inhibitor development services include but are not limited to the following directions.
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The fatty acid analysis is a useful tool for identifying and classifying microbial pathogens. At CD BioGlyco, we analyze and determine the fatty acids composition and content of microorganisms using gas chromatography-mass spectrometry (GC-MS). Our analytical process includes:

Microbial samples: Process microbial samples.
Fatty acid methyl ester extraction: Extract fatty acids from samples using specific methods.
GC-MS analysis: Analysis of extracts of fatty acid methyl esters by GC-MS.
Our Services :https://www.bioglyco.com/whole-cell-fatty-acid-analysis.html

The fatty acid analysis is a useful tool for identifying and classifying microbial pathogens. At CD BioGlyco, we analyze and determine the fatty acids composition and content of microorganisms using gas chromatography-mass spectrometry (GC-MS). Our analytical process includes:

Microbial samples: Process microbial samples.
Fatty acid methyl ester extraction: Extract fatty acids from samples using specific methods.
GC-MS analysis: Analysis of extracts of fatty acid methyl esters by GC-MS.
More Services: https://www.bioglyco.com/whole-cell-fatty-acid-analysis.html

SCFAs are organic fatty acids with 1-6 carbon atoms. The main production site of SCFAs is in the colon, which is mostly produced by anaerobic fermentation of carbohydrates in undigested and absorbed food residues, mainly including acetic acid, propionic acid, and butyric acid. SCFAs participate in different metabolisms and perform different functions in the human body. Among them, acetic acid is an important source of energy for host cells; Propionic acid enters the liver through blood circulation, is catabolized in the liver, and participates in the process of reverse conversion of pyruvate to glucose; Butyric acid is the main energy source for epithelial cells.
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