Recombinant Human ANXA6 293 Cell Lysate
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|Description :||Antigen standard for annexin A6 (ANXA6), transcript variant 1 is a lysate prepared from HEK293T cells transiently transfected with a TrueORF gene-carrying pCMV plasmid and then lysed in RIPA Buffer. Protein concentration was determined using a colorimetric assay. The antigen control carries a C-terminal Myc/DDK tag for detection.|
|Source :||HEK 293 cells|
|Components :||This product includes 3 vials: 1 vial of gene-specific cell lysate, 1 vial of control vector cell lysate, and 1 vial of loading buffer. Each lysate vial contains 0.1 mg lysate in 0.1 ml (1 mg/ml) of RIPA Buffer (50 mM Tris-HCl pH7.5, 250 mM NaCl, 5 mM EDTA, 50 mM NaF, 1% NP40). The loading buffer vial contains 0.5 ml 2X SDS Loading Buffer (125 mM Tris-Cl, pH6.8, 10% glycerol, 4% SDS, 0.002% Bromophenol blue, 5% beta-mercaptoethanol).|
|Size :||0.1 mg|
|Storage Instruction :||Store at -80°C. Minimize freeze-thaw cycles. After addition of 2X SDS Loading Buffer, the lysates can be stored at -20°C. Product is guaranteed 6 months from the date of shipment.|
|Applications :||ELISA, WB, IP. WB: Mix equal volume of lysates with 2X SDS Loading Buffer. Boil the mixture for 10 min before loading (for membrane protein lysates, incubate the mixture at room temperature for 30 min). Load 5 ug lysate per lane.|
|Gene Name :||ANXA6 annexin A6 [ Homo sapiens ]|
|Official Symbol :||ANXA6|
|Synonyms :||ANXA6; annexin A6; ANX6; p68; p70; CPB-II; annexin-6; calelectrin; lipocortin VI; calphobindin II; calphobindin-II; chromobindin-20; annexin VI (p68); 67 kDa calelectrin; calcium-binding protein p68; CBP68;|
|Gene ID :||309|
|mRNA Refseq :||NM_001155|
|Protein Refseq :||NP_001146|
|UniProt ID :||P08133|
|Chromosome Location :||5q33.1|
|Pathway :||Calcium Regulation in the Cardiac Cell, organism-specific biosystem; Prostaglandin Synthesis and Regulation, organism-specific biosystem;|
|Function :||calcium ion binding; calcium-dependent phospholipid binding; protein binding;|
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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 (21)Ask a question
ANXA6 has been implicated in various cardiovascular diseases such as atherosclerosis, myocardial infarction, and heart failure. It has been suggested that altered ANXA6 expression and function may contribute to abnormal lipid metabolism, inflammation, and vascular calcification, which are hallmarks of cardiovascular pathologies.
ANXA6 interacts with intracellular membranes and can play a role in regulating membrane trafficking processes such as endocytosis, exocytosis, and membrane repair. It has been shown to influence the fusion and fission events necessary for proper membrane trafficking.
Yes, ANXA6 has been implicated in autophagy, a cellular process responsible for the degradation and recycling of cellular components. It has been suggested that ANXA6 may play a role in autophagosome formation and maturation by interacting with proteins involved in autophagy regulation.
Some studies have identified pharmacological agents that can modulate ANXA6 expression or activity. For example, certain drugs have been reported to regulate ANXA6 expression levels in cancer cells. Additionally, compounds affecting calcium signaling or phospholipid metabolism can indirectly influence ANXA6 function. However, more research is needed to identify specific pharmacological agents that can selectively target ANXA6.
Modulating ANXA6 expression or function may have potential therapeutic value, especially in diseases where ANXA6 plays a critical role. Developing drugs that selectively target ANXA6 or its interacting partners could potentially lead to novel therapeutic strategies. However, further research is needed to understand the precise mechanisms and validate its therapeutic potential.
ANXA6 can interact with several proteins and cellular components. It has been reported to interact with various phospholipids, membrane proteins, cytoskeletal proteins, and signaling molecules. Some of its known binding partners include clathrin, caveolin, Rab GTPases, and integrins.
Future research on ANXA6 may focus on elucidating its precise molecular mechanisms and functional roles in various cellular processes. Further studies are also needed to understand its involvement in specific diseases to develop targeted therapies and exploit its potential as a diagnostic or prognostic marker.
ANXA6 has been investigated as a potential biomarker in several diseases. Its altered expression and subcellular localization in cancer tissues have shown promise for its diagnostic and prognostic value. However, further research is needed to validate its clinical utility in different diseases.
Currently, there are no specific therapeutic strategies directly targeting ANXA6. However, since ANXA6 plays a role in various diseases, understanding its mechanisms of action may facilitate the development of targeted therapies. Some studies have explored the use of small molecules or inhibitors that indirectly modulate ANXA6 function or its interacting partners as potential therapeutic interventions.
Currently, there are no specific drugs targeting ANXA6. However, studies exploring the potential therapeutic value of modulating ANXA6 expression and activity are ongoing, especially in the context of cancer and other diseases where ANXA6 is implicated.
Yes, ANXA6 can interact with various proteins and molecules. It has been shown to interact with membrane lipids, calcium ions, and other annexin family members. ANXA6 also interacts with proteins involved in intracellular trafficking, such as dynamin, clathrin, and various Rab GTPases. Additionally, ANXA6 can interact with signaling molecules, cytoskeletal proteins, and membrane receptors, suggesting its involvement in diverse cellular processes.
Certain genetic mutations and polymorphisms have been identified in ANXA6. For example, in some cancers, alterations in ANXA6 expression levels and mutations affecting its function have been observed. The significance of other genetic variations in ANXA6 and their association with disease phenotypes require further investigation.
ANXA6 can function as a scaffold protein and participate in diverse signaling pathways. It can interact with signaling molecules like protein kinases, phospholipases, and second messengers, modulating their activities and contributing to cellular signaling events, including calcium signaling and receptor trafficking.
While ANXA6 mutations or polymorphisms have not been extensively studied, some studies have reported genetic variants in ANXA6 that are associated with certain diseases. For example, specific ANXA6 polymorphisms have been linked to the risk of developing Parkinson's disease and schizophrenia. However, more research is needed to investigate the association between ANXA6 genetic variations and diseases.
ANXA6 has been investigated as a potential biomarker for several diseases. Its expression levels and localization have been analyzed in various conditions, including cancer, cardiovascular diseases, and neurodegenerative disorders. However, further studies are needed to establish its utility as a diagnostic or prognostic biomarker in clinical settings.
As a membrane-binding protein, ANXA6 has been explored for drug delivery applications. Its ability to interact with intracellular membranes and regulate membrane trafficking processes makes it a potential candidate for targeted drug delivery. However, more research is needed to evaluate its efficacy and safety in drug delivery systems.
Yes, ANXA6 has been reported to have immunomodulatory properties. It can regulate immune cell migration, phagocytosis, and cytokine release. ANXA6 has also been implicated in autoimmune diseases, such as systemic lupus erythematosus, suggesting its involvement in immune dysregulation.
ANXA6 has been linked to several pathological conditions. It has been associated with cancers, where its altered expression and subcellular localization have been observed. ANXA6 has also been implicated in metabolic disorders, cardiovascular diseases, and neurodegenerative diseases like Alzheimer's and Parkinson's.
ANXA6 has been implicated in metabolic disorders like insulin resistance and diabetes. It has been shown to influence insulin signaling and glucose homeostasis in animal models. Altered ANXA6 expression and localization have been observed in insulin-resistant tissues, suggesting its involvement in insulin sensitivity and glucose metabolism.
Yes, animal models, such as genetically modified mice, have been used to study ANXA6 function and its involvement in disease processes. Knockout or transgenic animal models with altered ANXA6 expression allow researchers to investigate its specific roles in various systems and diseases.
Yes, ANXA6 has been implicated in cancer progression. Altered expression levels of ANXA6 have been observed in different types of cancer, and it has been associated with tumor growth, invasion, metastasis, and drug resistance. ANXA6 can modulate various cellular processes in cancer cells, including cell proliferation, migration, and angiogenesis, making it a potential therapeutic target in cancer treatment.
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They may offer educational resources such as technical guides, protocols, and application notes, which can aid researchers in understanding the principles, techniques, and potential applications of ANXA6 protein in their studies. -
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