AKIRIN2
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Official Full Name
akirin 2
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Overview
Akirin-2 is a protein that in humans is encoded by the AKIRIN2 gene. -
Synonyms
AKIRIN2; akirin 2; C6orf166, chromosome 6 open reading frame 166; akirin-2; dJ486L4.2; FLJ10342; AKIR2_HUMAN; C6orf166; FBI1; Fourteen three three beta interactant 1; OTTHUMP00000016836; fourteen-three-three beta interactant 1;
- Recombinant Proteins
- Cell & Tissue Lysates
- Protein Pre-coupled Magnetic Beads
- Bovine
- Chicken
- Human
- Mouse
- Rat
- Zebrafish
- E.Coli or Yeast
- HEK293
- HEK293T
- In Vitro Cell Free System
- Mammalian Cell
- Mammalian cells
- Wheat Germ
- Flag
- GST
- His
- His (Fc)
- Avi
- Myc
- DDK
- N/A
- Involved Pathway
- Protein Function
- Interacting Protein
AKIRIN2 involved in several pathways and played different roles in them. We selected most pathways AKIRIN2 participated on our site, such as , which may be useful for your reference. Also, other proteins which involved in the same pathway with AKIRIN2 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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AKIRIN2 has several biochemical functions, for example, enzyme binding. Some of the functions are cooperated with other proteins, some of the functions could acted by AKIRIN2 itself. We selected most functions AKIRIN2 had, and list some proteins which have the same functions with AKIRIN2. You can find most of the proteins on our site.
Function | Related Protein |
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enzyme binding | MSH3;TRAF2;NOTCH3;AKIRIN2;NLRP1;NKX2-1;BRCA1;RPA2;ZNF346 |
AKIRIN2 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 AKIRIN2 here. Most of them are supplied by our site. Hope this information will be useful for your research of AKIRIN2.
CCDC85B; LNX1; SPG21; Psmb5; Psmb4
- Q&As
- Reviews
Q&As (18)
Ask a questionAKIRIN2 regulation can occur through various mechanisms, including post-translational modifications (such as phosphorylation), protein-protein interactions, and changes in gene expression levels.
Current research on AKIRIN2 is focused on understanding its precise molecular mechanisms, its role in immune cell development and function, and its involvement in different diseases. Additionally, studies are exploring potential therapeutic targets related to AKIRIN2.
Yes, AKIRIN2 interacts with various proteins involved in gene regulation, including components of the SWI/SNF chromatin remodeling complex and the NF-κB signaling pathway. These interactions are important for its function in regulating gene expression.
AKIRIN2 is expressed in various tissues and cell types, with higher expression levels observed in immune cells, such as macrophages and lymphocytes. It is also expressed in other tissues, including skeletal muscle and the nervous system.
AKIRIN2 is critical for immune cell development and function. It helps regulate the expression of genes necessary for immune cell differentiation, maturation, and activation. AKIRIN2-deficient mice have shown abnormalities in immune cell populations and impaired immune responses.
Currently, there are no specific inhibitors or activators of AKIRIN2 reported in the literature. However, identifying small molecules or compounds that can modulate AKIRIN2's activity may be a future direction for therapeutic interventions.
AKIRIN2 interacts with various proteins and signaling pathways to carry out its functions. It can physically interact with transcription factors, such as NF-κB and AP-1, to modulate their activity and influence gene expression. AKIRIN2 has also been shown to interact with other proteins involved in immune responses, such as IKKβ and IκBα, which are part of the NF-κB signaling pathway. Additionally, AKIRIN2 can form complexes with other co-regulators, such as p300/CBP and BRG1, which are involved in chromatin remodeling and transcriptional regulation.
AKIRIN1 and AKIRIN2 are members of the same protein family and share similar structural features. Both proteins are involved in gene regulation and have overlapping functions in immune responses. However, they also exhibit some degree of functional specificity and can regulate different sets of genes in certain contexts.
Disruption or mutation of AKIRIN2 can lead to dysregulation of immune-related genes and processes. This can result in impaired immune responses, increased susceptibility to infections, and the development of inflammatory disorders or autoimmune diseases.
Several studies have identified AKIRIN2 as a potential player in cancer development and progression. It may contribute to tumor growth by promoting inflammation, modulating the immune response, or affecting gene expression patterns. Further research is required to fully comprehend its specific involvement in different types of cancer.
The potential of AKIRIN2 as a therapeutic target is being explored. By understanding its role in immune regulation and its interactions with other proteins, researchers aim to develop targeted therapies that can modulate immune responses in conditions such as autoimmune diseases or cancer.
Currently, there are no known human diseases directly linked to AKIRIN2 mutations. However, dysregulation of AKIRIN2 expression or function has been implicated in various pathological conditions, including autoimmune diseases, cancer, and cardiovascular disorders. Further research is needed to establish a direct causal relationship between AKIRIN2 mutations and these diseases
The therapeutic potential of targeting AKIRIN2 remains an area of active research. Given its involvement in immune responses and its interactions with signaling pathways, AKIRIN2 could be a potential target for modulating immune-related diseases, such as autoimmune disorders and inflammation-driven conditions. Additionally, as AKIRIN2 has been implicated in cancer and cardiac remodeling, it could be explored as a therapeutic target in these contexts. However, the development of specific AKIRIN2-targeted therapies requires a deeper understanding of its mechanisms and functions in different diseases.
Yes, AKIRIN2 is involved in a range of cellular processes and signaling pathways beyond immune response. It has been implicated in muscle development and regeneration, where it interacts with muscle-specific transcription factors to regulate muscle gene expression. AKIRIN2 is also involved in embryonic development, hematopoiesis, and cardiac remodeling. Additionally, AKIRIN2 has been shown to interact with the Wnt signaling pathway and Hippo signaling pathway, suggesting its potential involvement in various developmental and cellular processes.
Recent studies have implicated AKIRIN2 in certain diseases and conditions, including inflammation-related disorders, autoimmune diseases, and cancer. However, more research is needed to fully understand its role in these conditions.
Future research on AKIRIN2 will likely focus on unraveling its precise mechanisms of action, exploring its involvement in different diseases, and identifying potential therapeutic strategies targeting AKIRIN2 or its associated signaling pathways. Additionally, understanding the interplay between AKIRIN2 and other proteins in gene regulation will be vital for advancing our knowledge in this field.
While AKIRIN2's role in the immune system is well-studied, there is emerging evidence suggesting its involvement in other biological processes. For example, AKIRIN2 has been implicated in skeletal muscle development, where it plays a role in myogenesis by regulating muscle-specific gene expression. Additionally, AKIRIN2 has been linked to embryonic development, hematopoiesis, and cardiac remodeling. Further investigations are necessary to fully understand the extent of AKIRIN2's functions in these processes.
The potential of AKIRIN2 as a biomarker for specific diseases is still under investigation. Some studies have suggested that AKIRIN2 expression levels may have diagnostic or prognostic value in certain cancers, such as hepatocellular carcinoma or breast cancer. However, further studies with larger cohorts are necessary to validate its utility as a biomarker and determine its specificity and sensitivity.
Customer Reviews (4)
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