Aldehyde Assay Kit (Blue Color)
Cat.No. : | Kit-0070 |
Product Overview : | Aldehyde Assay Kit (Blue Color) is a colorimetric assay for the quantification of aldehydes in a variety of applications with absorbance at 620 nm. |
- Specification
- Gene Information
- Related Products
Applications : | Aldehyde Assay Kit (Blue Color) uses a proprietary sensor that generates a chromogenic product with an absorbance at 620 nm upon reacting with an aldehyde. |
Storage : | Keep at -20°C. Avoid exposure to light. |
Products Types
◆ Assay kits | ||
Kit-0072 | Aldehyde Site Detection Kit | +Inquiry |
Kit-0069 | Aldehyde Assay Kit | +Inquiry |
Kit-0071 | Aldehyde Fluorometric Assay Kit | +Inquiry |
For Research Use Only. Not intended for any clinical use. No products from Creative BioMart may be resold, modified for resale or used to manufacture commercial products without prior written approval from Creative BioMart.
Inquiry
- Q&As
- Reviews
Q&As (13)
Ask a questionAldehyde proteins can be detected and studied using various biochemical techniques, such as immunological assays, mass spectrometry, and gel electrophoresis. Specific antibodies or probes can be used to target and identify aldehyde-modified proteins.
The use of aldehyde proteins in research or applications may have specific regulatory and safety considerations. It is important to adhere to laboratory safety protocols when working with aldehyde-modified proteins due to their potential reactivity and potential risks. Additionally, if aldehyde proteins are intended for therapeutic use, they would need to go through rigorous testing and evaluation to ensure their safety and efficacy.
Aldehyde proteins can be used in vaccine development. They can act as carriers or adjuvants to enhance the immune response to specific antigens. The aldehyde modification can allow for the stable attachment of antigens and facilitate their presentation to the immune system, leading to an effective immune response and potential vaccine development.
Yes, aldehyde proteins can be utilized for targeted drug delivery. The aldehyde groups on the protein can be utilized to chemically attach drug molecules, targeting ligands, or other functional groups. This allows for specific delivery of drugs to certain cells or tissues, enhancing therapeutic efficacy and reducing side effects.
Aldehyde proteins can be generated through a process called oxidation, where certain amino acids within the protein are modified to contain aldehyde groups. This can be achieved using chemical reagents or enzymatic reactions.
The repair or reversal of aldehyde protein modifications depends on the specific context and extent of the modification. In some cases, the body's natural repair mechanisms may be able to remove or repair the aldehyde modifications. However, if the modifications are extensive or long-lasting, their effects may be irreversible.
Aldehyde proteins have various research and application uses. They can be used in studies investigating protein-protein interactions, protein-ligand interactions, and protein function. Aldehyde proteins can also be utilized in drug discovery, development of diagnostics, and as components in bioconjugation strategies.
Working with aldehyde proteins can present certain challenges. One challenge is the precise control of aldehyde modification within the protein structure, as excessive modification can lead to protein denaturation or loss of function. Additionally, protein-aldehyde adducts can be unstable and prone to degradation.
Currently, there are no specific therapies targeting aldehyde protein modifications. However, research is ongoing to better understand the role of aldehyde proteins in diseases and develop potential therapeutic interventions. Treatment approaches typically focus on managing the underlying disease process and minimizing oxidative stress or inflammation.
Aldehyde proteins are being explored for various other applications. They are being studied for their potential in developing biosensors, bioimaging agents, and as components in biomedical devices. Additionally, their use in enzyme immobilization, protein purification, and surface modification is being explored. Ongoing research continues to uncover new potential applications for aldehyde proteins in different fields.
Yes, aldehyde proteins have been used in tissue engineering and regenerative medicine applications. They can serve as bioactive scaffolds, providing a supportive structure for cell adhesion, proliferation, and tissue regeneration. The aldehyde modification allows for the attachment of specific peptides or growth factors, promoting cellular activity and facilitating tissue growth or repair.
The formation of protein-aldehyde adducts has been implicated in various pathological conditions, including neurodegenerative diseases, cardiovascular diseases, and diabetes. These adducts can contribute to protein dysfunction, inflammation, and tissue damage.
Aldehyde proteins do not occur naturally in the body as a result of biological processes. However, aldehydes can be generated as byproducts of oxidative stress, inflammation, or certain metabolic pathways, and they can react with proteins to form protein-aldehyde adducts.
Customer Reviews (4)
Write a reviewOne remarkable aspect of the Aldehyde Protein is the outstanding technical support provided by the manufacturer.
The Aldehyde Protein boasts remarkable stability, ensuring its integrity is maintained during storage and experimentation.
Its impeccable purity and consistency have consistently delivered accurate and robust results, enabling me to make significant strides in my research.
The Aldehyde Protein exhibits an exceptional level of quality that surpasses my experimental requirements.
Ask a Question for All Aldehyde Products
Required fields are marked with *
My Review for All Aldehyde Products
Required fields are marked with *
Inquiry Basket