Human Adipose Subcutaneous Diabetic Disease Lysate
- Gene Information
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|Source :||Human Subcutaneous Adipose tissue|
|Concentration :||2 mg/mL or better|
|Tissue Type :||Adipose|
|Shipping :||Dry ice|
|Preparation method :||Human subcutaneous adipose tissue lysate was prepared by homogenization using a proprietary technique. The tissue was frozen in liquid nitrogen immediately after excision and then stored at -70?C. The human subcutaneous adipose tissue total protein is provided in a buffer including HEPES (pH7.9), MgCl2, KCl, EDTA, Sucrose, Glycerol, Sodium deoxycholate, NP-40, and a cocktail of protease inhibitors. For quality control purposes, the subcutaneous adipose tissue pattern on SDS-PAGE gel is shown to be consistent for each lot by visualization with coomassie blue staining. The subcutaneous adipose tissue is then Western analyzed by either GAPDH or β-actin antibody, and the expression level is consistent with each lot.|
|Storage Buffer :||HEPES pH 7.9, MgCl2, KCl, EDTA, Sucrose, Glycerol, Sodium deoxycholate, and NP-40.|
|Storage Instruction :||Store at 2-8?C for continuous use. For extended storage, freeze working aliquots at -70?C. Repeated freezing and thawing is not recommended. Under proper storage conditions the shelf life is half a year from the date of receipt.|
|Applications :||Adipose Subcutaneous lysate is for use in Western blotting, 10 μg to 20 μg per lane is recommended for mini gel.|
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.
Q&As (13)Ask a question
Adipose proteins are proteins that are secreted by adipose (fat) tissue, including adipocytes and stromal cells. These proteins have diverse roles in metabolic regulation, inflammation, and other physiological processes.
Adipose tissue secretes the hormone leptin, which acts in the hypothalamus to reduce appetite and increase energy expenditure. Leptin released from adipocytes reflects the amount of body fat, so a decrease in body fat leads to a decrease in leptin secretion, which, in turn, stimulates appetite and reduces energy expenditure. Additionally, adipose tissue also secretes hormones such as ghrelin, insulin, and glucagon-like peptide-1 (GLP-1), which can affect appetite and energy balance.
Adipose proteins can be targeted for medical treatment through the development of drugs that specifically interact with and modulate their activity. For example, adiponectin agonists or leptin antagonists could potentially be used as treatments for obesity and associated metabolic disorders.
Adiponectin secretion is regulated by various factors such as obesity, insulin resistance, and inflammation. Adiponectin levels are typically decreased in obesity and associated metabolic disorders.
Adipose tissue mass is positively correlated with adipose protein secretion. That is, the more adipose tissue in the body, the more adipokines and other adipose proteins are secreted into the bloodstream.
Adipose tissue is a rich source of stem cells, which have the potential to differentiate into various cell types such as adipocytes, osteoblasts, and chondrocytes. These stem cells can be used in regenerative medicine to repair or replace damaged tissues or organs.
There are currently no FDA-approved medications that specifically target adipose proteins. However, a number of investigational drugs are in development for this purpose.
Diseases and conditions associated with dysfunction of adipose proteins include obesity, type 2 diabetes, metabolic syndrome, cardiovascular disease, and various inflammatory disorders.
Yes, adipose protein secretion can be a potential target for the treatment of metabolic diseases such as obesity and type 2 diabetes. Targeting the secretion of adipose proteins could help regulate inflammation, insulin resistance, and other metabolic processes that contribute to the pathogenesis of these diseases. Drugs targeting the secretion or activity of specific adipokines, such as adiponectin, have been already developed or are in development.
Yes, lifestyle modifications such as weight loss, exercise, and diet can affect the secretion of adipose proteins. For example, weight loss is associated with increased adiponectin levels, while exercise has been shown to increase the secretion of anti-inflammatory adipokines.
Yes, genetic factors can influence adipose protein levels, leading to variation in susceptibility to metabolic disorders such as obesity and diabetes. For example, variations in the genes that regulate adiponectin secretion have been associated with increased risk of metabolic diseases.
Yes, adipose tissue inflammation can be reversed with lifestyle modifications such as weight loss, exercise, and diet changes. These interventions can reduce adipose tissue mass, decrease the production of pro-inflammatory cytokines, and increase the secretion of anti-inflammatory adipokines and other factors. Medications that target inflammation can also decrease adipose tissue inflammation.
Studying adipose proteins can lead to a better understanding of the mechanisms underlying metabolic and inflammatory disorders, and identify potential targets for therapeutic intervention. This could ultimately lead to the development of more effective treatments for a range of diseases and conditions.
Customer Reviews (4)Write a review
The protein is very pure and stable in the experiment. -
the manufacturer's remarkable technical support is exceptional and can easily and promptly solve any issues I encounter. -
The purity of this protein is exceptional, making it perfect for meeting the specific requirements of my experiments. -
I am highly satisfied with this product and the company's service and am confident in using it for my research. -
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