No services found
No Products found
100ug
AntibodySystem
Recombinant Proteins
Recombinant proteins are proteins that are produced through genetic engineering techniques, where the gene encoding for a specific protein is inserted into a host organism, such as bacteria or yeast, to produce large quantities of the desired protein. One such recombinant protein is the Recombinant Mouse RLN1 Protein, which has been extensively studied for its structure, activity, and potential applications. In this article, we will delve into the details of this protein and its significance in the field of biotechnology.
The Recombinant Mouse RLN1 Protein, also known as Relaxin 1, is a member of the relaxin hormone family. It is a small peptide hormone consisting of 53 amino acids, with a molecular weight of approximately 6 kDa. The protein has a unique three-dimensional structure, with two disulfide bonds that form a loop between the 6th and 16th amino acid residues, and between the 10th and 23rd residues. This structure is essential for the protein’s stability and biological activity.
The primary function of Recombinant Mouse RLN1 Protein is to promote relaxation of the uterine smooth muscles during pregnancy and labor. It also has other physiological functions, including regulation of blood pressure, heart rate, and renal function. The protein exerts its effects by binding to its specific receptor, LGR7, which is expressed in various tissues, including the uterus, heart, and kidneys.
Recombinant Mouse RLN1 Protein has been shown to have potent biological activity, similar to that of the natural mouse relaxin hormone. Studies have demonstrated that the protein can effectively relax the uterine smooth muscles in pregnant mice, leading to increased uterine blood flow and improved fetal growth. It has also been shown to have a positive effect on cardiovascular function, promoting vasodilation and reducing blood pressure.
Moreover, Recombinant Mouse RLN1 Protein has been found to have anti-inflammatory and anti-fibrotic properties. It can inhibit the production of pro-inflammatory cytokines and reduce the deposition of collagen, thereby preventing tissue damage and fibrosis. These properties make the protein a potential therapeutic agent for various inflammatory and fibrotic diseases.
The unique structure and potent activity of Recombinant Mouse RLN1 Protein make it a valuable tool in various research and biotechnological applications. One of its primary applications is in the study of pregnancy and labor. The protein can be used to induce labor in animal models, allowing researchers to study the mechanisms involved in this process. It can also be used to investigate the role of relaxin hormones in fertility, as well as their potential as therapeutic agents for pregnancy-related complications.
Furthermore, Recombinant Mouse RLN1 Protein has shown promise in the treatment of cardiovascular diseases. Studies have demonstrated its potential to improve heart function and reduce blood pressure in animal models of hypertension and heart failure. This makes it a potential candidate for the development of new drugs for these conditions.
The anti-inflammatory and anti-fibrotic properties of Recombinant Mouse RLN1 Protein also make it a promising candidate for the treatment of various diseases, such as rheumatoid arthritis, pulmonary fibrosis, and liver fibrosis. It can be used in pre-clinical studies to evaluate its effectiveness and safety as a potential therapeutic agent.
In summary, Recombinant Mouse RLN1 Protein is a valuable protein that has been extensively studied for its structure, activity, and potential applications. Its unique three-dimensional structure and potent biological activity make it a valuable tool in research and a potential therapeutic agent for various diseases. With ongoing research and advancements in biotechnology, this protein holds great potential for the development of new treatments and therapies in
Reviews
There are no reviews yet.
Your email address will not be published. Required fields are marked *
Your review *
Name *
Email *
Save my name, email, and website in this browser for the next time I comment.
Send us a message from the form below
First name
Last name
Email address
Lab / Company
Phone number
Message
send
Your cart is currently empty.