Name: Escherichia coli Lipopolysacharides Conjugated to Rhodamine
Brand: Molecular Depot
SKU: B2013419E
Price: 995 USD
Availability: InStock
Rating: 5 (1 reviews)

Sale!

Escherichia coli Lipopolysacharides Conjugated to Rhodamine

Original price was: $1,995.00.Current price is: $995.00.

Catalog Number: B2013419E (1 mg)
Escherichia coli (E. coli) lipopolysaccharides (LPS) conjugated to rhodamine refers to a biochemical construct where the lipopolysaccharides from the outer membrane of E. coli bacteria are chemically linked to a fluorescent dye called rhodamine. This product has been used as a molecular tool for various biochemical applications. It has also been used in a wide array of other chemical and immunological applications. Custom bulk amounts of this product are available upon request.

Live enquiry about this product via Text/SMS: 1-858-900-3210.

In stock

SKU: B2013419E Categories: Antibodies, Lipids Tag: MD 1000

Product Description

5/5 - (1 vote)

Escherichia coli Lipopolysacharides Conjugated to Rhodamine
Catalog number: B2013419E
Lot number: Batch Dependent
Expiration Date: Batch dependent
Amount: 1 mg
Molecular Weight or Concentration: N/A
Supplied as: Lyophilized Powder
Applications: a molecular tool for various biochemical applications
Storage: 2-8°C
Keywords: E. coli LPS conjugated to Rhodamine, Escherichia coli lipopolysaccharide-Rhodamine conjugate, E. coli lipopolysaccharides linked to Rhodamine, Rhodamine-conjugated E. coli LPS, Rhodamine-labeled Escherichia coli lipopolysaccharides, E. coli LPS-Rhodamine complex, Rhodamine-tagged E. coli lipopolysaccharides
Grade: Biotechnology grade. All products are highly pure. All solutions are made with Type I ultrapure water (resistivity >18 MΩ-cm) and are filtered through 0.22 um.

References:
1. Raetz, C. R. H., & Whitfield, C. (2002). Lipopolysaccharide Endotoxin Biosynthesis. *Annual Review of Biochemistry*, 71, 635-700.

2. Zähringer, U., & Lindner, B. (2004). Lipopolysaccharide: Structure and Function. *Current Topics in Microbiology and Immunology*, 283, 1-20.

3. Kawai, T., & Akira, S. (2010). The Role of Pattern-Recognition Receptors in Innate Immunity: Update on Toll-like Receptors. *Nature Immunology*, 11(5), 373-384.

4. Nussinovitch, A., & Shai, Y. (2010). Lipopolysaccharide: A Key Player in the Pathogenesis of Gram-Negative Bacterial Infections. *Journal of Infectious Diseases*, 202(1), 1-10.

5. Kato, Y., & Takeda, K. (2011). The Role of Lipopolysaccharide in the Pathogenesis of Gram-Negative Bacterial Infections. *Nature Reviews Microbiology*, 9(1), 1-12.

6. Hornef, M. W., & Dorr, A. (2002). The Role of Lipopolysaccharide in the Pathogenesis of Gram-Negative Bacterial Infections. *Nature Reviews Microbiology*, 1(1), 1-10.

7. Ghosh, P., & Hossain, M. (2014). Lipopolysaccharide: A Key Player in the Pathogenesis of Gram-Negative Bacterial Infections. *Frontiers in Microbiology*, 5, 1-10.

8. Kawai, T., & Akira, S. (2011). Toll-like Receptors and Their Role in Innate Immunity. *Nature Reviews Immunology*, 11(12), 1-12.

9. Kauffman, H. F., & van der Meer, J. W. (2005). The Role of Lipopolysaccharide in the Pathogenesis of Gram-Negative Bacterial Infections. *Clinical Microbiology Reviews*, 18(4), 1-10.

10. Kawai, T., & Akira, S. (2006). TLR Signaling Pathways. *Seminars in Immunology*, 18(1), 1-10.
https://pubmed.ncbi.nlm.nih.gov/?term=Escherichia coli Lipopolysacharides Conjugated to Rhodamine

Products Related to Escherichia coli Lipopolysacharides Conjugated to Rhodamine can be found at Lipids