Recombinant Zebrafish ARHGEF3
Cat.No. : | ARHGEF3-5258Z |
Product Overview : | Recombinant Zebrafish ARHGEF3 full length or partial length protein was expressed. |
- Specification
- Gene Information
- Related Products
Source : | Mammalian Cells |
Species : | Zebrafish |
Tag : | His |
Form : | Liquid or lyophilized powder |
Endotoxin : | < 1.0 eu per μg of the protein as determined by the LAL method. |
Purity : | >80% |
Notes : | This item requires custom production and lead time is between 5-9 weeks. We can custom produce according to your specifications. |
Storage : | Store it at +4 oC for short term. For long term storage, store it at -20 oC~-80 oC. |
Storage Buffer : | PBS buffer |
Gene Name : | arhgef3 Rho guanine nucleotide exchange factor (GEF) 3 [ Danio rerio (zebrafish) ] |
Official Symbol : | ARHGEF3 |
Gene ID : | 570228 |
mRNA Refseq : | NM_001082868 |
Protein Refseq : | NP_001076337 |
UniProt ID : | Q1MT42 |
Products Types
◆ Recombinant Protein | ||
ARHGEF3-697M | Recombinant Mouse ARHGEF3 Protein, His (Fc)-Avi-tagged | +Inquiry |
ARHGEF3-2308C | Recombinant Chicken ARHGEF3 | +Inquiry |
ARHGEF3-786H | Recombinant Human ARHGEF3 protein, GST-tagged | +Inquiry |
ARHGEF3-1898M | Recombinant Mouse ARHGEF3 Protein | +Inquiry |
◆ Lysates | ||
ARHGEF3-8731HCL | Recombinant Human ARHGEF3 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 (17)
Ask a questionARHGEF3 activates Rho GTPases, particularly RhoA, which are key regulators of actin cytoskeletal dynamics. Activation of RhoA by ARHGEF3 leads to the formation of stress fibers and focal adhesions, which are important for cell migration and adhesion. ARHGEF3 also regulates the organization of actin filaments in dendritic spines, contributing to synaptic plasticity and neuronal development.
Yes, ARHGEF3 contains a Sec14-PH domain, which enables its interaction with membrane lipids, particularly phosphoinositides. This interaction is crucial for the recruitment of ARHGEF3 to specific cellular membranes, where it can activate Rho GTPases and modulate actin cytoskeletal dynamics.
Yes, ARHGEF3 can interact with several proteins and signaling pathways to regulate various cellular processes. For example, it interacts with PAK1 and LIM kinase (LIMK), which are downstream effectors of Rho GTPases involved in actin cytoskeletal regulation. ARHGEF3 also interacts with PDZ domain-containing proteins, such as SAP102, to modulate synaptic function.
As ARHGEF3 dysregulation has been associated with neurodevelopmental disorders like autism spectrum disorders and schizophrenia, it holds promise as a potential therapeutic target. However, further studies are needed to fully understand its involvement in these conditions and to explore potential therapeutic strategies.
Yes, ARHGEF3 can undergo various post-translational modifications, including phosphorylation, ubiquitination, and sumoylation. These modifications regulate the activity, stability, and localization of ARHGEF3 within the cell.
ARHGEF3 is crucial for neuronal migration, axon guidance, dendritic spine formation, and synaptic maturation. It influences the structural remodeling of neurons and contributes to the establishment and maintenance of proper neural connectivity.
ARHGEF3 has been implicated in immune responses, particularly in the regulation of immune cell migration and adhesion. It influences the activation and migration of T cells, which are crucial for immune responses. ARHGEF3 also interacts with signaling molecules in immune cells, such as lymphocyte-specific protein tyrosine kinase (Lck), to modulate immune cell function.
ARHGEF3 has been implicated in immune responses, cardiovascular development, and cancer progression. Additionally, it interacts with various proteins, including NMDA receptors, kinases, and cytoskeletal elements, to modulate cellular processes and signaling pathways.
Yes, genetically modified animal models, such as mice, with ARHGEF3 deletions or mutations have been generated to study the role of ARHGEF3 in various physiological and pathological processes. These models provide valuable insights into the function and importance of ARHGEF3 in vivo.
Dysregulation or mutations in ARHGEF3 have been associated with several neurological and psychiatric disorders, including schizophrenia, Alzheimer's disease, bipolar disorder, and autism spectrum disorders. These findings suggest that ARHGEF3 dysfunction could contribute to the underlying mechanisms of these conditions.
ARHGEF3 plays a critical role in synaptic plasticity, which refers to the ability of synapses to change their strength and structure. It influences the development and maturation of dendritic spines, which are small protrusions on neurons where synapses form. By modulating cytoskeletal dynamics and signaling pathways, ARHGEF3 contributes to synaptic remodeling necessary for learning and memory processes.
ARHGEF3 is widely expressed in various tissues throughout the body, although its expression levels may vary in different cell types. It is highly expressed in the brain, where it plays a critical role in synaptic plasticity and neuronal development. ARHGEF3 is also expressed in other tissues, including the heart, liver, kidney, and immune cells.
Yes, ARHGEF3 plays a critical role in neuronal development by regulating dendritic spine morphology and synapse formation. It contributes to the maturation of dendritic spines, which are essential for synaptic connectivity and the proper functioning of neuronal circuits. ARHGEF3 also participates in neuronal migration during brain development.
While there are currently no specific drugs targeting ARHGEF3, since its dysregulation has been implicated in neurological disorders, further understanding of its mechanisms and interactions may pave the way for potential therapeutic interventions in the future.
Yes, ARHGEF3 expression can be regulated by microRNAs (miRNAs), which are small non-coding RNA molecules that bind to the messenger RNA (mRNA) of target genes, leading to their degradation or translational repression. Several miRNAs, such as miR-34a and miR-124, have been reported to target ARHGEF3 and regulate its expression levels.
Currently, there are no specific drugs or therapies targeting ARHGEF3. However, further research on understanding its role in different diseases may lead to the development of targeted therapies in the future.
ARHGEF3 has been implicated in cancer progression, particularly in metastasis and invasion. It activates Rho GTPases, which are involved in cell migration and cytoskeletal rearrangement, processes crucial for cancer cell invasion. Moreover, ARHGEF3 interacts with other signaling molecules and pathways that contribute to cancer progression.
Customer Reviews (8)
Write a reviewTheir team of experts possesses an in-depth understanding of the protein and its applications, which proves instrumental in troubleshooting and optimizing experimental protocols.
the manufacturer's dedication to innovation and continuous improvement stands out.
They continuously stay up-to-date with the latest scientific advancements and customer feedback, allowing them to refine the ARHGEF3 protein based on emerging trends.
the exemplary technical support provided by the manufacturer adds immense value to my experience.
They provide comprehensive assistance, ensuring that any queries or concerns I have regarding the ARHGEF3 protein are promptly addressed.
If needed, the availability of bulk purchase options further optimizes resource allocation, enabling me to conduct extensive experiments without compromising on quality.
I am confident that their expertise and prompt assistance can help resolve any challenges I may encounter along the way.
Whether it's troubleshooting experimental hurdles or optimizing protocols, their dedicated team is there to guide me, ensuring smooth progress and successful outcomes.
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