- +1 858 909 0079
- +1 858 909 0057
- [email protected]
- +1 858 909 0079
- [email protected]
Cat# | Product Name | Swiss Prot# | Size | Price (US$) | Order |
PP0896 | Recombinant Protein-Staphylococcus capitis Immunodominant antigen B (a.a.35 to 180) | B9CU99 | 100 µg | 1195 | |
PP0897 | Recombinant Protein-Staphylococcus capitis Secretory antigen SsaA (a.a.38 to 144) | B9CPC8 | 100 µg | 1195 | |
RPP0896 | cDNA-Staphylococcus capitis Immunodominant antigen B (a.a.35 to 180) | B9CU99 | 2 µg | 725 | |
RPP0897 | cDNA-Staphylococcus capitis Secretory antigen SsaA (a.a.38 to 144) | B9CPC8 | 2 µg | 800 |
Staphylococcus capitis cDNA and recombinant antigen
Staphylococcus capitis is a bacterium that is commonly found on human skin and mucous membranes. While it is generally considered a commensal organism, it can also cause infections in vulnerable populations, such as premature infants and immunocompromised individuals. To cause infections, S. capitis has developed a variety of virulence factors, including immunodominant antigen B and secretory antigen SsaA.
Immunodominant antigen B is a surface protein of S. capitis that is known to elicit an immune response in humans. It is considered a potential vaccine candidate due to its ability to induce protective antibodies in animal models. Research has also shown that immunodominant antigen B is expressed in most S. capitis strains, suggesting that it may play a conserved role in the biology of this bacterium.
SsaA is a secretory antigen of S. capitis that is involved in the secretion of proteins into the extracellular environment. It is considered an important virulence factor, as it is involved in the formation of biofilms and the colonization of host tissues. Research has also shown that SsaA is involved in the regulation of genes that are important for the survival of S. capitis under stress conditions.
Overall, immunodominant antigen B and secretory antigen SsaA are important virulence factors of S. capitis. Understanding the function of these proteins may lead to the development of novel therapeutics or vaccines for the prevention and treatment of S. capitis infections.
The use of recombinant proteins/cDNA in academic research and therapeutic applications has skyrocketed. However, in heterologous expression systems, successful recombinant protein expression is dependent on a variety of factors, including codon preference, RNA secondary structure, and GC content. When compared to pre-optimization, more and more experimental results demonstrated that the expression level was dramatically increased, ranging from two to hundred times depending on the gene. Bioclone has created a proprietary technology platform that has resulted in the creation of over 6,000 artificially synthesized codon-optimized cDNA clones (cloned in E. coli expression Vector), which are ready for production of the recombinant proteins.
The use of cDNA (complementary DNA) and recombinant antigens derived from Staphylococcus capitis can have various applications in the fields of molecular biology, biotechnology, and medicine. Some of these applications include:
Diagnostic tests: Recombinant antigens can be used in the development of rapid diagnostic tests for the detection of Staphylococcus capitis in clinical samples. These tests can help to quickly identify the presence of the bacteria and provide early treatment for infected individuals.
Vaccine development: Recombinant antigens can be used in the development of vaccines against Staphylococcus capitis. By exposing the immune system to specific antigens, the body can build immunity to the bacteria, reducing the risk of infection.
Study of bacterial pathogenesis: The use of cDNA from Staphylococcus capitis can help researchers to study the genetic basis of the bacteria’s pathogenesis. By analyzing the cDNA, researchers can identify the genes and gene products involved in the bacteria’s ability to cause disease, which can lead to the development of new treatments and preventions.
Bacterial evolution and evolution of antibiotic resistance: The use of cDNA from Staphylococcus capitis can help researchers to study the evolution of the bacteria and the evolution of antibiotic resistance. By analyzing the cDNA, researchers can identify genetic changes that occur in the bacteria over time, which can provide insights into the evolution of antibiotic resistance and the development of new treatments.
Overall, the use of cDNA and recombinant antigens from Staphylococcus capitis has the potential to contribute to a better understanding of the bacteria and its role in disease, as well as to the development of new diagnostic tools and treatments for bacterial infections.
Get the Latest News and Updates by Email
6393 Nancy Ridge Dr. Suite A
San Diego, CA 92121 USA
Fax: +1-858-909-0057
Get the Latest News and Updates by Email
© 2023 Bioclone Inc. All Rights Reserved.
Magnetic Beads Make Things Simple