ARG2
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Official Full Name
arginase, type II
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Overview
catalyzes the hydrolysis of arginine to ornithine and urea; may regulate nitric oxide production -
Synonyms
ARG2; arginase, type II; arginase-2, mitochondrial; arginase 2; kidney arginase; type II arginase; nonhepatic arginase; kidney-type arginase; non-hepatic arginase; L-arginine ureahydrolase; L-arginine amidinohydrolase;
- Recombinant Proteins
- Cell & Tissue Lysates
- Protein Pre-coupled Magnetic Beads
- Cattle
- Chicken
- Human
- Mouse
- Rat
- Rhesus Macaque
- Zebrafish
- E.coli
- HEK293
- HEK293T
- In Vitro Cell Free System
- Mammalian Cell
- Mammalian cells
- Wheat Germ
- Flag
- GST
- His
- His (Fc)
- Avi
- His|GST
- His|T7
- SUMO
- Myc
- DDK
- MYC
- N/A
- N
- T7|His
- Involved Pathway
- Protein Function
- Interacting Protein
- ARG2 Related Articles
ARG2 involved in several pathways and played different roles in them. We selected most pathways ARG2 participated on our site, such as Arginine biosynthesis, Arginine and proline metabolism, Metabolic pathways, which may be useful for your reference. Also, other proteins which involved in the same pathway with ARG2 were listed below. Creative BioMart supplied nearly all the proteins listed, you can search them on our site.
Pathway Name | Pathway Related Protein |
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Arginine biosynthesis | OTC;GOT1;NAGS;NOS2A;GLUD1;GPT2;GPT;NOS1;GOT2B |
Arginine and proline metabolism | ADC;P4HA1;NOS2B;CKMA;ALDH9A1;SAT2B;CKBB;GOT2B;CARNS1 |
Metabolic pathways | PNLIP;PAFAH1B3;NDUFS8;AK4;COX6A1;BPGM;AOC2;PIGP;GALNT11 |
Biosynthesis of amino acids | THA1;IDH2;pykF;PYCRL;OTC;NAGS;PFKP;PKM2;PRPS1B |
Amoebiasis | SERPINB2;ITGAM;TLR4;COL5A1;LAMA1;GM-CSF;ACTN3;IL12B;IL1B2 |
ARG2 has several biochemical functions, for example, arginase activity, metal ion binding. Some of the functions are cooperated with other proteins, some of the functions could acted by ARG2 itself. We selected most functions ARG2 had, and list some proteins which have the same functions with ARG2. You can find most of the proteins on our site.
Function | Related Protein |
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arginase activity | ARG1;ARG2 |
metal ion binding | ATF7B;TIMM8A2;ANTXR2A;ECE2;TOP2B;NDUFV1;Adcy4;CXXC1A;TRIM67 |
ARG2 has direct interactions with proteins and molecules. Those interactions were detected by several methods such as yeast two hybrid, co-IP, pull-down and so on. We selected proteins and molecules interacted with ARG2 here. Most of them are supplied by our site. Hope this information will be useful for your research of ARG2.
STK11
- Q&As
- Reviews
Q&As (15)
Ask a questionThe modulation of Arg2 activity by natural compounds or dietary factors is an area of ongoing research. Some studies suggest that certain polyphenols, such as quercetin and epigallocatechin gallate (EGCG), may influence Arg2 activity. Additionally, dietary factors like high-protein diets and specific amino acids may affect Arg2 expression and function. However, further investigation is needed to fully understand these modulatory effects.
Targeting Arg2 for therapeutic interventions is an area of active research. In cancer, for example, inhibiting Arg2 activity may help limit tumor growth and enhance anti-tumor immune responses. However, more studies are needed to fully understand the implications and potential therapeutic benefits of targeting Arg2 in different diseases.
Dysregulation of Arg2 has been implicated in various diseases. Increased Arg2 expression/activity has been observed in certain types of cancer, such as hepatocellular carcinoma, and may contribute to tumor growth and immune evasion. Additionally, alterations in Arg2 expression have been associated with conditions like cardiovascular diseases, kidney disorders, and neurodegenerative diseases.
There is emerging evidence suggesting a potential link between Arg2 and neurodegenerative diseases. Aberrant arginine metabolism and dysregulation of arginase activity, including Arg2, have been observed in neurodegenerative disorders like Alzheimer's disease and Huntington's disease. Altered arginine metabolism can affect nitric oxide production, which plays a role in neuronal signaling and neuroinflammation. While further research is needed, targeting Arg2 or modulating arginine metabolism could potentially have therapeutic implications for these diseases.
Arg2 serves several physiological roles in the body. It participates in the urea cycle, a pathway involved in nitrogen disposal and maintaining ammonia homeostasis. By converting arginine to urea and ornithine, Arg2 contributes to the removal of toxic ammonia from the body. Additionally, Arg2 is involved in the regulation of nitric oxide (NO) production, which affects vascular tone and immune responses.
Yes, dietary factors can influence the expression and activity of Arg2. For example, high protein diets can increase Arg2 expression and activity, as they provide more arginine as a substrate for the enzyme. Additionally, certain amino acids and metabolites, such as citrulline and ornithine, can modulate Arg2 activity. However, the exact mechanisms by which dietary factors regulate Arg2 are still being investigated.
Yes, Arg2 activity can be assessed in clinical settings. Multiple methods have been developed to measure Arg2 enzyme activity, often involving the analysis of enzyme kinetics and substrate/product concentrations. However, it is important to note that the measurement of Arg2 activity is not commonly used as a routine clinical test and is primarily performed in research or specialized laboratories.
Yes, Arg2 has been implicated in cancer development and progression. Elevated levels of Arg2 have been observed in various types of cancers, including breast, prostate, colorectal, and brain cancers. Arg2 expression can promote cancer cell proliferation, invasion, and metastasis. It can also contribute to immune evasion by inhibiting T-cell function and suppressing anti-tumor immune responses. Targeting Arg2 in cancer therapy has shown promising results as a potential strategy to inhibit tumor growth and enhance the effectiveness of immunotherapies.
Besides its potential role as a therapeutic target in various diseases, Arg2 may have other therapeutic applications. For instance, it has been explored in the field of organ transplantation, where targeting Arg2 can potentially modulate immune responses and reduce rejection rates. Furthermore, understanding Arg2's involvement in metabolism and cellular functions could lead to the development of novel strategies for metabolic diseases or improving protein utilization in nutritional interventions.
While specific genetic variants or mutations in the Arg2 gene have not been extensively studied, some studies have identified single nucleotide polymorphisms (SNPs) in the regulatory regions of the Arg2 gene that may be associated with certain diseases or phenotypic traits. However, more comprehensive genetic studies are needed to fully understand the genetic variability of Arg2 and its potential implications.
Yes, Arg2 has been found to be involved in various reproductive processes. For example, it plays a role in sperm function and male fertility by regulating the availability of arginine for the production of nitric oxide, which is important for sperm motility. Moreover, Arg2 expression and activity can be influenced by hormonal changes during pregnancy. Overall, the precise mechanisms and significance of Arg2 in reproductive processes are still being explored.
Several chemical compounds have been identified as inhibitors of Arg2. For example, nor-NOHA (N(W)-hydroxy-nor-l-arginine) is a commonly used competitive inhibitor of Arg2 that selectively inhibits its enzymatic activity. Other compounds such as S-(2-boronoethyl)-L-cysteine (BEC) and Nω-hydroxy-nor-L-arginine (nor-NOHA) have also shown inhibitory effects on Arg2 activity. As for activators, there is currently limited research on specific molecules that can directly activate Arg2.
Complete Arg2 deficiency is extremely rare, and individuals with this genetic disorder typically exhibit hyperargininemia, a condition characterized by elevated levels of arginine in the blood. This can lead to symptoms such as intellectual disability, developmental delays, and seizures. However, the specific consequences of Arg2 deficiency may vary depending on factors like compensatory mechanisms and the individual's genetic makeup.
Yes, Arg2 has been linked to inflammation. Its expression can be induced by various pro-inflammatory stimuli, suggesting a potential role in immune responses. Moreover, Arg2-mediated metabolism of arginine can impact the production of molecules like polyamines, proline, and ornithine that play roles in wound healing and tissue repair processes associated with inflammation.
Yes, there are pharmacological inhibitors of Arg2 that have been identified. Some examples include Nω-hydroxy-nor-L-arginine (nor-NOHA) and S-(2-boronoethyl)-L-cysteine (BEC). These inhibitors have shown promise in preclinical studies and are being investigated for their potential as therapeutic agents.
Customer Reviews (8)
Write a reviewThis flexibility enables researchers like myself to tailor ARHGAP17A protein experiments to our unique needs, enhancing the reliability and relevance of the obtained results.
From recombinant protein production to modification or labeling services, the company is committed to assisting researchers in obtaining the Arg2 protein in the format and specifications required for their particular studies.
Its excellent performance in ELISA assays makes it a valuable tool in quantifying analytes in biological samples.
Its purity, integrity, and consistency ensure reliable and reproducible results, which are essential for meaningful scientific discoveries.
Its reliability, specificity, and versatility make it an invaluable asset in studying and understanding complex biological systems.
the Arg2 protein's exceptional qualities, combined with the manufacturer's comprehensive technical support, make it an ideal choice for researchers seeking reliable experimental materials and reliable assistance in their scientific endeavors.
Their in-depth understanding of the protein's characteristics, applications, and potential limitations allows for valuable insights and recommendations, ensuring the success of my experiments.
Whether it's troubleshooting, protocol optimization, or general inquiries, their knowledgeable and responsive team is readily available to assist and solve any problems that may arise during the experimental process.
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