Recombinant Pig APOA2 protein, His & GST-tagged
Cat.No. : | APOA2-2643P |
Product Overview : | Recombinant Pig APOA2 aa. (Ala19~Gln100 (Accession # F1S1A9)) fused with N-terminal His & GST tag was produced in E. coli cells. |
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Source : | E. coli |
Species : | Pig |
Tag : | His & GST |
Form : | Freeze-dried powder |
Molecular Mass : | Predicted Molecular Mass: 41.1kDa |
Protein length : | Ala19~Gln100 (Accession # F1S1A9) |
Endotoxin : | <1.0EU per 1µg (determined by the LAL method) |
Purity : | >95% |
Characteristic : | The isoelectric point is 6.2. |
Applications : | SDS-PAGE; WB; ELISA; IP |
Stability : | The thermal stability is described by the loss rate. The loss rate was determined by accelerated thermal degradation test, that is, incubate the protein at 37°C for 48h, and no obvious degradation and precipitation were observed. The loss rate is less than 5% within the expiration date under appropriate storage condition. |
Storage : | Avoid repeated freeze/thaw cycles. Store at 2-8°C for one month. Aliquot and store at -80°C for 12 months. |
Storage buffer : | Supplied as liquid form in Phosphate buffered saline(PBS), pH 7.4. |
Reconstitution : | Reconstitute in sterile PBS, pH7.2-pH7.4 |
Gene Name : | APOA2 apolipoprotein A2 [ Sus scrofa (pig) ] |
Official Symbol : | APOA2 |
Synonyms : | APOA2; apolipoprotein A2; apolipoprotein A-II |
Gene ID : | 100153243 |
mRNA Refseq : | NM_001186294.1 |
Protein Refseq : | NP_001173223.1 |
UniProt ID : | F1S1A9 |
Products Types
◆ Recombinant Protein | ||
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APOA2-208D | Recombinant Dog APOA2 Protein, His&GST-tagged | +Inquiry |
APOA2-627M | Recombinant Mouse APOA2 Protein, His (Fc)-Avi-tagged | +Inquiry |
APOA2-374R | Recombinant Rat APOA2 Protein, His (Fc)-Avi-tagged | +Inquiry |
◆ Native Protein | ||
ApoC-II-3558H | Native Human ApoC-II | +Inquiry |
APOA2-4772H | Native Human Apolipoprotein AII protein | +Inquiry |
ApoA-II-3555H | Native Human ApoA-II | +Inquiry |
◆ Lysates | ||
APOA2-8789HCL | Recombinant Human APOA2 293 Cell Lysate | +Inquiry |
Related Gene
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.
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Q&As (18)
Ask a questionYes, there are known genetic variations and polymorphisms associated with APOA2. One well-studied single nucleotide polymorphism (SNP) in the APOA2 gene is rs5082, also known as the APOA2 -265T>C polymorphism. This polymorphism has been associated with differences in HDL cholesterol levels and the risk of cardiovascular disease.
The regulation of APOA2 gene expression is complex and involves several molecular mechanisms. Transcription factors, such as hepatocyte nuclear factor 4 alpha (HNF4α) and forkhead box O1 (FOXO1), have been implicated in controlling APOA2 expression. Additionally, epigenetic modifications, including DNA methylation and histone acetylation, can influence APOA2 gene expression. Further studies are necessary to fully understand the regulatory mechanisms governing APOA2 expression.
It is possible that genetic variations in APOA2 may predict individual responses to certain diets or therapies. Studies have suggested that specific APOA2 polymorphisms could influence an individual's response to dietary interventions, particularly in terms of weight management and lipid profiles. However, further research is needed to understand and validate these associations before they can be routinely applied in personalized medicine.
Yes, studies have shown associations between certain genetic variations in APOA2 and obesity. The APOA2 -265T>C polymorphism, for example, has been found to be associated with obesity-related traits and increased appetite in some populations.
Yes, APOA2 has been implicated in appetite regulation. Certain genetic variations in APOA2, such as the APOA2 -265T>C polymorphism, have been associated with increased appetite and higher caloric intake, particularly in the context of high-fat diets.
Abnormalities or variations in APOA2 have been associated with various diseases and conditions. For example, certain genetic variations in APOA2 have been linked to an increased risk of obesity, dyslipidemia, and cardiovascular diseases. Additionally, impaired APOA2 function or expression has been observed in some liver diseases and metabolic disorders.
Lifestyle factors, such as diet and physical activity, can influence APOA2 levels. High intake of saturated fats, as well as certain other dietary factors, can upregulate APOA2 expression, while healthier dietary patterns and increased physical activity can downregulate its expression.
APOA2 interacts with several other proteins and lipoproteins in the body. It forms complexes with apolipoprotein A-I (APOA1) to constitute high-density lipoprotein (HDL) particles. APOA2 can also interact with other lipoproteins, such as apolipoprotein B (APOB) and apolipoprotein E (APOE), which are associated with other lipoprotein subclasses. These interactions play a crucial role in lipid metabolism and transportation.
APOA2 influences lipid metabolism by regulating the metabolism of HDL particles. It modulates HDL particle size, and its interactions with other proteins and lipids within the HDL particle affect its ability to participate in processes such as cholesterol efflux and reverse cholesterol transport.
Yes, APOA2 levels can be measured in clinical settings. Laboratory tests, such as enzyme-linked immunosorbent assays (ELISA) and immunoassays, are commonly used to quantify APOA2 protein levels in blood samples. Measuring APOA2 levels can provide insights into lipid metabolism and may be useful in evaluating certain disease risks or monitoring treatment response.
The APOA2 protein is synthesized through the process of translation. The APOA2 gene, located on chromosome 1, is transcribed into messenger RNA (mRNA) in the cell nucleus. The mRNA then moves to the cytoplasm, where ribosomes read the genetic code and synthesize the APOA2 protein by linking amino acids together.
Yes, lifestyle factors can influence APOA2 levels. Multiple studies have shown that dietary intake, exercise, and lifestyle choices can impact APOA2 expression and lipid metabolism. For example, a high-fat diet has been shown to increase APOA2 levels, while weight loss and physical activity may lead to a decrease in APOA2 levels.
Currently, there are no drugs or interventions that specifically target APOA2 for therapeutic purposes. Most therapeutic strategies aimed at improving lipid metabolism and reducing cardiovascular risk focus on modulating lipid levels or targeting other lipoproteins. However, ongoing research exploring the role of APOA2 may lead to the development of novel therapeutic approaches in the future.
Currently, there are no specific therapeutic interventions targeting APOA2 available. However, ongoing research aims to understand the role of APOA2 in lipid metabolism and explore potential therapeutic strategies for cardiovascular diseases and obesity that may involve modulating its expression or function.
Currently, there are no specific pharmacological interventions available to directly modify or manipulate APOA2 levels. However, certain drugs, such as statins and fibrates, commonly used to treat dyslipidemia, can indirectly affect APOA2 levels by influencing lipid metabolism and overall lipoprotein composition. Additionally, emerging research may identify potential pharmacological targets that can directly modulate APOA2 levels in the future.
The study of APOA2 and its implications in various diseases and conditions may lead to potential diagnostic and therapeutic applications in the future. Understanding APOA2's role in lipid metabolism, obesity, and cardiovascular diseases could help in developing improved diagnostic tools and personalized treatment approaches. Additionally, targeting APOA2 or its related pathways may offer new therapeutic strategies for managing metabolic disorders and cardiovascular risk factors. However, further research is needed to validate these possibilities.
Yes, the expression of the APOA2 gene is influenced by dietary factors, particularly the intake of saturated fats. High intake of saturated fats can upregulate APOA2 expression, while diets rich in unsaturated fats or polyunsaturated fats can downregulate its expression.
While APOA2 is primarily known for its role in lipid metabolism, recent studies have suggested that it may have additional functions. It has been implicated in modulating inflammatory responses and exerting antioxidant effects. However, the exact mechanisms and significance of these additional functions are still being investigated.
Customer Reviews (4)
Write a reviewI have successfully implemented the APOA2 protein in protein electron microscopy structure analysis, where its attributes have greatly aided in elucidating complex molecular structures.
when utilized in Western Blotting experiments, the APOA2 protein has consistently produced distinct and well-defined protein bands, facilitating clear and accurate interpretation of results.
The APOA2 protein comes highly recommended for its outstanding performance in various experimental applications.
In ELISA assays, it has consistently exhibited exceptional reliability and accuracy, providing precise and reproducible results.
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