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Anti-EphA4 (Tyr-779) [conserved site], Phosphospecific Antibody

Anti-EphA4 (Tyr-779) [conserved site], Phosphospecific Antibody

Item no.	ABC-AN1780
Manufacturer	Abcepta
Amount	100 ul
Category	Oncology Neuroscience Molecular Targets for Neuroscience Neural Signaling Neural Adhesion Molecules By Cell Type Blastoma Carcinoma Glioma Hematology Lymphoma Myeloma Melanoma Sarcoma Cell Biology Adenocarcinoma Cytoskeleton Western Blot small GTPases Rho Subfamily
Applications	WB
Specific against	Cat (Feline, Felis catus), Cattle (Bovine)
Host	Rabbit
Isotype	IgG
Alias	SEK,Eph
Available
Manufacturer - Category	Primary Antibodies; Cardiovascular; Neuroscience; Signal Transduction
Manufacturer - Targets	The Eph family of Receptor tyrosine kinases and their Ephrin ligands are important for cell positioning and morphogenesis during development. Eph receptors are classified into 10 EphA and 6 EphB receptors, which preferentially bind to the type A and type B ephrins, respectively. The EphA4 receptor can inhibit axon outgrowth and has roles in regulating axon projections during neural development. EphA4 signaling pathways require its kinase activity and involve binding and activation of Rho-GTPase guanine nucleotide-exchange factors (GEFs). EphA4 activation leads autophosphorylation of Tyr-596 and Tyr-602, and the conserved sites in EphA2 are required for binding to the GEFs, Vav2 and Vav3, and ephrin-induced cell migration. The Tyr-779 site in the kinase domain is also phosphorylated in vivo and may regulate kinase activity. Activated EphA4 leads to Src kinase phosphorylation of the GEF, ephexin-1, and this activates RhoA. Thus, EphA4 signaling involves complex tyrosine phosphorylation in its cytoplasmic region along with interaction with several GEFs.
Bio Background	The Eph family of Receptor tyrosine kinases and their Ephrin ligands are important for cell positioning and morphogenesis during development. Eph receptors are classified into 10 EphA and 6 EphB receptors, which preferentially bind to the type A and type B ephrins, respectively. The EphA4 receptor can inhibit axon outgrowth and has roles in regulating axon projections during neural development. EphA4 signaling pathways require its kinase activity and involve binding and activation of Rho-GTPase guanine nucleotide-exchange factors (GEFs). EphA4 activation leads autophosphorylation of Tyr-596 and Tyr-602, and the conserved sites in EphA2 are required for binding to the GEFs, Vav2 and Vav3, and ephrin-induced cell migration. The Tyr-779 site in the kinase domain is also phosphorylated in vivo and may regulate kinase activity. Activated EphA4 leads to Src kinase phosphorylation of the GEF, ephexin-1, and this activates RhoA. Thus, EphA4 signaling involves complex tyrosine phosphorylation in its cytoplasmic region along with interaction with several GEFs.
Clonality	Rabbit Polyclonal
Gene Name	EPHA4
Reactivity	B, C
Calculated Molecular Weight	109860

Note: The presented information and documents (Manual, Product Datasheet, Safety Datasheet and Certificate of Analysis) correspond to our latest update and should serve for orientational purpose only. We do not guarantee the topicality. We would kindly ask you to make a request for specific requirements, if necessary.

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Amount: 100 ul

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Delivery expected until 11/6/2025

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