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Recombinant Human Annexin A5, PE

Cat.No. : ANXA5-2626H
Product Overview : Recombinant Human Annexin A5-PE is expressed inE. coli.
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  • Gene Information
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Cat. No. : ANXA5-2626H
Description : Annexin 5 is a member of the annexin family of calcium-dependent phospholipid binding proteins. Annexin 5 is a phospholipase A2 and protein kinase C inhibitory protein with calcium channel activity and a potential role in cellular signal transduction, inflammation, growth and differentiation. In vitro studies have shown that Annexin 5 is a cellular protein which plays a role in the inhibition of blood coagulation by competing for phosphatidylserine binding sites with prothrombin. Through affinity assays Annexin 5 has been localized on cells that expressed phosphatidylserine on the cell surface, a feature found in apoptosis as well as other forms of cell death.
Source : E. coli.
Purity : >98% pure as demonstrated by SDS-gel electrophoresis and reverse phase HPLC.
Molecular Weight : 35.8 kDa.
Presentation : Solution containing 50 mM TRIS, 100 mM NaCl, 1% BSA, 0.02% Sodium Azide, pH 7.4.
Biological Activity : Annexin V exhibits anti-phospholipase activity and binds to phosphatidylserine (PS).
Application : PE labelling allows simple direct detection of PS by FACS analysis. Counterstaining by propidium iodide allows the discrimination of apoptotic cells.
Storage : Stable at 2°-8°C as indicated on the label. Do not freeze!
Gene Name : ANXA5 annexin A5 [ Homo sapiens ]
Synonyms :
ANXA5; annexin A5; PP4; ANX5; ENX2; anchorin CII; endonexin II; lipocortin V; placental anticoagulant protein I; Annexin-5; Annexin V; Lipocortin V; Endonexin II; Calphobindin I; Placental anticoagulant protein I; Placental anticoagulant protein 4; Thromboplastin inhibitor; Vascular anticoagulant-alpha; VAC-alpha; CBP-I; PAP-I
Gene ID : 308
mRNA Refseq : NM_001154
Protein Refseq : NP_001145
MIM : 131230
UniProt ID : P08758
Chromosome Location : 4q27
Function : calcium ion binding; calcium-dependent phospholipid binding; eukaryotic cell surface binding; phospholipase inhibitor activity; protein binding; receptor tyrosine kinase binding

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 (27)

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Are there any known interactions of ANXA5 with other proteins? 12/13/2022

Yes, ANXA5 can interact with numerous proteins in various cellular processes. For example, it can bind to S100 proteins, actin, and other annexins. ANXA5 also interacts with proteins involved in blood clotting, such as tissue factor and factor XI, regulating clot formation and dissolution.

Are there any genetic mutations associated with ANXA5? 10/10/2022

Genetic mutations in ANXA5 have been identified and studied in relation to various diseases. For example, certain mutations in the ANXA5 gene have been associated with hereditary thrombophilia, a condition characterized by increased tendency to form blood clots. These mutations can lead to reduced anticoagulant activity of ANXA5, thereby increasing the risk of thrombosis. Further research is ongoing to explore the role of ANXA5 gene mutations in other conditions.

Are there any known side effects or risks associated with ANXA5-based therapies? 09/09/2022

The potential side effects and risks associated with ANXA5-based therapies would depend on the specific therapeutic approach and delivery method. While some studies have shown promising results, further research is required to assess the safety and efficacy of such interventions before they can be widely used in clinical practice.

Can ANXA5 be used as a diagnostic tool for cardiovascular diseases? 04/13/2022

ANXA5 has been investigated as a potential diagnostic tool for cardiovascular diseases, particularly in relation to thrombosis and atherosclerosis. Studies have suggested that measuring ANXA5 levels or assessing its activity could provide useful information about the risk of developing these conditions. However, more research is needed to establish its clinical utility and to determine the optimal method of measurement.

Is ANXA5 used in diagnostic or research applications? 01/15/2022

Yes, ANXA5 is widely used in diagnostic and research applications. It is employed in tests like the Annexin A5 Resistance Assay to assess the risk of blood clotting disorders. Additionally, ANXA5 is utilized as a probe or marker in studies investigating membrane dynamics, cell signaling, and apoptosis.

Is ANXA5 involved in neurodegenerative diseases? 07/22/2021

ANXA5 has been implicated in neurodegenerative diseases like Alzheimer's disease and Parkinson's disease. It is believed to play a role in the clearance of cellular debris and apoptotic cells in the brain, contributing to neuroinflammation and disease progression. However, the exact mechanisms and implications are still being investigated.

What are the different isoforms or variants of ANXA5? 06/12/2021

ANXA5 has two main isoforms or variants known as ANXA5L and ANXA5S. ANXA5L is the longer isoform and contains 319 amino acids, while ANXA5S is the shorter isoform and contains 320 amino acids. These isoforms differ in their C-terminal sequences, which can affect their cellular localization and protein-protein interactions. Some studies have suggested that ANXA5L may have a stronger anti-coagulant activity compared to ANXA5S.

What are the potential therapeutic applications of ANXA5? 03/04/2021

ANXA5 holds potential therapeutic applications in various areas. It has been explored as a candidate for targeted drug delivery systems, where therapeutic agents are encapsulated within ANXA5-based nanoparticles. ANXA5-based drug delivery systems could enhance the specificity and efficacy of treatment by targeting specific tissues or cells. Additionally, ANXA5 itself or its derivatives may have therapeutic potential for conditions characterized by excessive clot formation or inflammation.

Can ANXA5 interact with other proteins or molecules? 02/04/2021

Yes, ANXA5 can interact with various proteins and molecules. It can bind to phospholipids, such as phosphatidylserine, on cell membranes. ANXA5 interactions with phospholipids are calcium-dependent. ANXA5 can also interact with cytoskeletal proteins, actin, and other molecules involved in cellular processes like cell migration, membrane trafficking, and apoptosis. These interactions are crucial for ANXA5's diverse functions in the body.

Can ANXA5 protect against blood clot formation? 12/20/2020

Yes, ANXA5 plays a role in regulating blood clot formation by inhibiting the coagulation cascade. It acts as an anticoagulant by binding to phosphatidylserine on the surface of activated platelets and endothelial cells, thereby interfering with the assembly of coagulation factors and inhibiting clot formation. ANXA5 deficiency or reduced expression levels can disrupt this anticoagulant function and increase the risk of thrombosis.

Can ANXA5 be targeted for therapeutic interventions? 05/31/2020

ANXA5 has the potential to be targeted for therapeutic interventions. Several strategies have been explored, including developing ANXA5-based anticoagulants, utilizing ANXA5 as a carrier for drug delivery, and investigating its role as a target for cancer therapy. However, these approaches are still in the experimental stage.

Are there any potential therapeutic applications of ANXA5? 11/17/2019

ANXA5 has been explored for potential therapeutic applications, including its use as an antithrombotic agent and as a carrier for drug delivery. It also shows promise in cancer therapy, as ANXA5-coated nanoparticles can selectively target and deliver drugs to tumor cells.

How is ANXA5 regulated in the body? 09/15/2019

The regulation of ANXA5 expression and activity can vary depending on the specific tissue and cellular context. It can be regulated at the transcriptional level by various factors, including hormones, cytokines, and cellular stress. Post-translational modifications, such as phosphorylation and acetylation, can also modulate its function.

Can ANXA5 be used in diagnostic imaging? 08/26/2019

Yes, ANXA5 has been explored as a target for diagnostic imaging techniques. Due to its high affinity for phosphatidylserine, which becomes exposed on the outer surface of cells during apoptosis and in certain pathological conditions, ANXA5 can be labeled with radioisotopes or contrast agents for imaging purposes. This approach, known as ANXA5-based imaging or apoptosis imaging, allows for the visualization and quantification of apoptotic cell death in vivo, which can be useful in various clinical and research applications.

What are current areas of research on ANXA5? 05/18/2019

Some current research areas on ANXA5 include studying its roles in clotting disorders, pregnancy complications, cancer development, and neurodegenerative diseases. Researchers are also investigating the mechanisms of ANXA5 action and its potential as a therapeutic target.

Is ANXA5 associated with any specific diseases or conditions? 03/25/2019

ANXA5 has been implicated in various diseases and conditions. It has been studied in relation to cardiovascular diseases such as thrombosis, atherosclerosis, and myocardial infarction. ANXA5 deficiency or dysfunction has also been associated with increased risk of recurrent pregnancy loss and preeclampsia in women. Additionally, ANXA5 has been investigated in cancer research, as its dysregulation has been observed in several malignancies and it may play a role in tumor progression and metastasis.

Is ANXA5 being studied in clinical trials? 11/17/2018

ANXA5 is being investigated in clinical trials for certain conditions. For example, clinical trials have explored the use of ANXA5 as a potential therapy for reducing clot formation in patients with acute ischemic stroke. Other trials have examined the role of ANXA5 in improving embryo implantation rates in women undergoing assisted reproductive technology. These studies aim to evaluate the safety and efficacy of ANXA5-based interventions in clinical settings.

Are there any ongoing research areas related to ANXA5? 10/24/2018

Ongoing research related to ANXA5 covers a wide range of areas. Some current areas of interest include investigating the role of ANXA5 in cancer progression and metastasis, exploring its potential as a therapeutic target for cardiovascular diseases, studying its involvement in neurological disorders, and examining its effects on female reproductive health. Additionally, research is ongoing to further understand the mechanisms underlying ANXA5-mediated functions and its interactions with other molecules.

What are the functions of ANXA5? 04/06/2018

ANXA5 has various functions, including modulating membrane dynamics, regulating ion channels, participating in cell signaling pathways, and acting as an anticoagulant. It is also involved in processes like cell membrane repair, apoptotic cell clearance, and inflammation regulation.

Is ANXA5 involved in apoptosis? 02/19/2018

Yes, ANXA5 has an important role in apoptosis. It can bind to phosphatidylserine on the cell surface, which is normally found on the inner leaflet of the plasma membrane but becomes exposed during apoptosis. By binding to exposed phosphatidylserine, ANXA5 can inhibit the pro-inflammatory response triggered by apoptotic cells. ANXA5 can also interact with other proteins involved in apoptotic pathways, including caspases and Bcl-2 family members.

Can ANXA5 be used in drug delivery systems? 07/14/2017

ANXA5 has been explored as a potential carrier for drug delivery systems. Its ability to bind to phospholipid membranes and its natural tendency to accumulate at sites of tissue injury or inflammation make it an attractive candidate for targeted drug delivery. Encapsulating therapeutic agents within ANXA5-based nanoparticles or conjugating drugs to ANXA5 molecules could enhance the specificity and efficacy of drug delivery to desired tissues or cells.

Are there any genetic variations or mutations in ANXA5? 03/16/2017

Yes, genetic variations in ANXA5 have been identified, including single nucleotide polymorphisms (SNPs) and mutations. Some of these variations have been associated with increased susceptibility to thrombosis and pregnancy-related complications.

Are there any diseases associated with ANXA5 dysregulation? 02/02/2017

ANXA5 dysregulation has been implicated in various diseases. For example, reduced levels of ANXA5 have been linked to increased risk of thrombosis and pregnancy-related disorders like recurrent miscarriages and preeclampsia. ANXA5 expression abnormalities have also been observed in cancers, autoimmune diseases, and neurodegenerative disorders.

What are the physiological functions of ANXA5? 11/03/2016

ANXA5 has multiple physiological functions in the body. It is involved in cell membrane repair, membrane traffic and fusion, regulation of ion transport, phospholipid metabolism, and clearance of apoptotic cells. ANXA5 also plays a role in reproductive processes, including implantation and placental development. Its diverse functions highlight its importance in maintaining cellular homeostasis and tissue integrity.

Can ANXA5 affect cell migration and invasion? 10/27/2016

Yes, ANXA5 has been shown to play a role in cell migration and invasion processes. It can interact with actin and other cytoskeletal proteins, affecting cell morphology and motility. ANXA5 has been implicated in the regulation of cell adhesion, membrane trafficking, and signaling pathways involved in cell migration and invasion. Dysregulation of ANXA5 expression or activity can impact these processes, potentially contributing to pathological conditions such as cancer metastasis.

Can ANXA5 be used as a biomarker for certain diseases? 06/23/2016

ANXA5 has been proposed as a potential biomarker for certain diseases. For example, it has been suggested that ANXA5 levels or activity could serve as biomarkers for thrombotic disorders or cardiovascular risk. In pregnancy, ANXA5 has been studied as a biomarker for recurrent pregnancy loss and preeclampsia. However, more research is needed to validate ANXA5 as a reliable biomarker and to establish standardized measurement techniques.

Can ANXA5 be used as a biomarker for certain conditions or diseases? 04/26/2016

ANXA5 has shown potential as a biomarker in certain conditions. For instance, its altered expression or activity could serve as a biomarker for thrombosis risk, pregnancy-related disorders, and some cancers. However, further research is needed to validate its diagnostic utility in clinical settings.

Customer Reviews (5)

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Reviews
07/06/2022

    Its ability to bind to negatively charged phospholipids, particularly during blood clot formation, has made it invaluable for in vitro and in vivo investigations of hemostatic mechanisms.

    01/14/2022

      The manufacturer of ANXA5 protein plays a crucial role in supporting my research endeavors.

      10/02/2018

        the ANXA5 protein is known for its strong affinity for phospholipids, particularly phosphatidylserine (PS), on the outer leaflet of cell membranes.

        04/20/2018

          the use of ANXA5 protein in my research offers significant advantages in detecting cell death processes and investigating coagulation and thrombosis mechanisms.

          03/15/2018

            As a researcher using ANXA5 protein, I have found numerous advantages in its application during trials for various experimental purposes.

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