Weight | 1 lbs |
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Dimensions | 9 × 5 × 2 in |
accession | P00533 |
express system | HEK293 |
product tag | C-His-Avi |
purity | > 95% as determined by Tris-Bis PAGE;> 95% as determined by HPLC |
background | The epidermal growth factor receptor is a transmembrane protein that is a receptor for members of the epidermal growth factor family of extracellular protein ligands. The epidermal growth factor receptor is a member of the ErbB family of receptors, a subfamily of four closely related receptor tyrosine kinases: EGFR, HER2/neu, Her 3 and Her 4. Receptor tyrosine kinase binding ligands of the EGF family and activating several signaling cascades to convert extracellular cues into appropriate cellular responses. |
molecular weight | The protein has a predicted MW of 71.5 kDa. Due to glycosylation, the protein migrates to 90-115 kDa based on Tris-Bis PAGE result. |
available size | 100 µg, 500 µg |
endotoxin | Less than 1EU per ug by the LAL method. |
FITC-Labeled Human EGFR/HER1 Protein 3416
$900.00 – $2,000.00
Summary
- Expression: HEK293
- Pure: Yes (HPLC)
- Amino Acid Range: Leu25-Ser645
FITC-Labeled Human EGFR/HER1 Protein 3416
protein |
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Size and concentration 100, 500µg and lyophilized |
Form Lyophilized |
Storage Instructions Valid for 12 months from date of receipt when stored at -80°C. Recommend to aliquot the protein into smaller quantities for optimal storage. Please minimize freeze-thaw cycles. |
Storage buffer Shipped at ambient temperature. |
Purity > 95% as determined by Tris-Bis PAGE |
target relevance |
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The epidermal growth factor receptor is a transmembrane protein that is a receptor for members of the epidermal growth factor family of extracellular protein ligands. The epidermal growth factor receptor is a member of the ErbB family of receptors, a subfamily of four closely related receptor tyrosine kinases: EGFR, HER2/neu, Her 3 and Her 4. Receptor tyrosine kinase binding ligands of the EGF family and activating several signaling cascades to convert extracellular cues into appropriate cellular responses. |
Protein names Epidermal growth factor receptor (EC 2.7.10.1) (Proto-oncogene c-ErbB-1) (Receptor tyrosine-protein kinase erbB-1) |
Gene names EGFR,EGFR ERBB ERBB1 HER1 |
Protein family Protein kinase superfamily, Tyr protein kinase family, EGF receptor subfamily |
Mass 9606Da |
Function Receptor tyrosine kinase binding ligands of the EGF family and activating several signaling cascades to convert extracellular cues into appropriate cellular responses (PubMed:10805725, PubMed:27153536, PubMed:2790960, PubMed:35538033). Known ligands include EGF, TGFA/TGF-alpha, AREG, epigen/EPGN, BTC/betacellulin, epiregulin/EREG and HBEGF/heparin-binding EGF (PubMed:12297049, PubMed:15611079, PubMed:17909029, PubMed:20837704, PubMed:27153536, PubMed:2790960, PubMed:7679104, PubMed:8144591, PubMed:9419975). Ligand binding triggers receptor homo- and/or heterodimerization and autophosphorylation on key cytoplasmic residues. The phosphorylated receptor recruits adapter proteins like GRB2 which in turn activates complex downstream signaling cascades. Activates at least 4 major downstream signaling cascades including the RAS-RAF-MEK-ERK, PI3 kinase-AKT, PLCgamma-PKC and STATs modules (PubMed:27153536). May also activate the NF-kappa-B signaling cascade (PubMed:11116146). Also directly phosphorylates other proteins like RGS16, activating its GTPase activity and probably coupling the EGF receptor signaling to the G protein-coupled receptor signaling (PubMed:11602604). Also phosphorylates MUC1 and increases its interaction with SRC and CTNNB1/beta-catenin (PubMed:11483589). Positively regulates cell migration via interaction with CCDC88A/GIV which retains EGFR at the cell membrane following ligand stimulation, promoting EGFR signaling which triggers cell migration (PubMed:20462955). Plays a role in enhancing learning and memory performance (By similarity). Plays a role in mammalian pain signaling (long-lasting hypersensitivity) (By similarity).; Isoform 2 may act as an antagonist of EGF action.; (Microbial infection) Acts as a receptor for hepatitis C virus (HCV) in hepatocytes and facilitates its cell entry. Mediates HCV entry by promoting the formation of the CD81-CLDN1 receptor complexes that are essential for HCV entry and by enhancing membrane fusion of cells expressing HCV envelope glycoproteins. |
Catalytic activity BINDING 718..726; /ligand="ATP"; /ligand_id="ChEBI:CHEBI:30616"; /evidence="ECO:0000269|PubMed:19563760, ECO:0007744|PDB:2GS7, ECO:0007744|PDB:3GT8, ECO:0007744|PDB:4ZSE, ECO:0007744|PDB:5CNN, ECO:0007744|PDB:5CNO, ECO:0007744|PDB:5D41"; BINDING 745; /ligand="ATP"; /ligand_id="ChEBI:CHEBI:30616"; /evidence="ECO:0000269|PubMed:17349580, ECO:0000269|PubMed:19563760, ECO:0007744|PDB:2EB3, ECO:0007744|PDB:2GS7, ECO:0007744|PDB:2ITN, ECO:0007744|PDB:3GT8, ECO:0007744|PDB:3VJN, ECO:0007744|PDB:3VJO, ECO:0007744|PDB:4RIW, ECO:0007744|PDB:4RIY, ECO:0007744|PDB:4ZSE, ECO:0007744|PDB:5CNN, ECO:0007744|PDB:5CNO, ECO:0007744|PDB:5D41"; BINDING 790..791; /ligand="ATP"; /ligand_id="ChEBI:CHEBI:30616"; /evidence="ECO:0000269|PubMed:17349580, ECO:0000269|PubMed:19563760, ECO:0007744|PDB:2EB3, ECO:0007744|PDB:2GS7, ECO:0007744|PDB:2ITN, ECO:0007744|PDB:2ITV, ECO:0007744|PDB:2ITX, ECO:0007744|PDB:3GT8, ECO:0007744|PDB:3VJN, ECO:0007744|PDB:3VJO, ECO:0007744|PDB:4RIW, ECO:0007744|PDB:4RIX, ECO:0007744|PDB:4RIY, ECO:0007744|PDB:4ZSE, ECO:0007744|PDB:5CNN, ECO:0007744|PDB:5CNO, ECO:0007744|PDB:5D41"; BINDING 855; /ligand="ATP"; /ligand_id="ChEBI:CHEBI:30616"; /evidence="ECO:0000269|PubMed:17349580, ECO:0000269|PubMed:19563760, ECO:0007744|PDB:2EB3, ECO:0007744|PDB:2GS7, ECO:0007744|PDB:2ITN, ECO:0007744|PDB:2ITV, ECO:0007744|PDB:2ITX, ECO:0007744|PDB:3GT8, ECO:0007744|PDB:3VJN, ECO:0007744|PDB:4RIW, ECO:0007744|PDB:4RIX, ECO:0007744|PDB:4RIY, ECO:0007744|PDB:4ZSE, ECO:0007744|PDB:5CNN, ECO:0007744|PDB:5CNO, ECO:0007744|PDB:5D41" |
Subellular location Cell membrane ; Single-pass type I membrane protein. Endoplasmic reticulum membrane ; Single-pass type I membrane protein. Golgi apparatus membrane; Single-pass type I membrane protein. Nucleus membrane; Single-pass type I membrane protein. Endosome. Endosome membrane. Nucleus. Note=In response to EGF, translocated from the cell membrane to the nucleus via Golgi and ER (PubMed:17909029, PubMed:20674546). Endocytosed upon activation by ligand (PubMed:17182860, PubMed:17909029, PubMed:27153536, PubMed:2790960). Colocalized with GPER1 in the nucleus of estrogen agonist-induced cancer-associated fibroblasts (CAF) (PubMed:20551055).; [Isoform 2]: Secreted. |
Tissues Ubiquitously expressed. Isoform 2 is also expressed in ovarian cancers. |
Structure Binding of the ligand triggers homo- and/or heterodimerization of the receptor triggering its autophosphorylation. Heterodimer with ERBB2 (PubMed:10805725). Forms a complex with CCDC88A/GIV (via SH2-like regions) and GNAI3 which leads to enhanced EGFR signaling and triggering of cell migration; binding to CCDC88A requires autophosphorylation of the EGFR C-terminal region, and ligand stimulation is required for recruitment of GNAI3 to the complex (PubMed:20462955, PubMed:25187647). Interacts with ERRFI1; inhibits dimerization of the kinase domain and autophosphorylation (PubMed:18046415). Part of a complex with ERBB2 and either PIK3C2A or PIK3C2B (PubMed:10805725). Interacts with GRB2; an adapter protein coupling the receptor to downstream signaling pathways. Interacts with GAB2; involved in signaling downstream of EGFR. Interacts with STAT3; mediates EGFR downstream signaling in cell proliferation. Interacts with RIPK1; involved in NF-kappa-B activation. Interacts (autophosphorylated) with CBL, CBLB and CBLC; involved in EGFR ubiquitination and regulation; interaction with CBL is reduced in the presence of tensin TNS4 (PubMed:23774213). Interacts with SOCS5; regulates EGFR degradation through ELOC- and ELOB-mediated ubiquitination and proteasomal degradation. Interacts with PRMT5; methylates EGFR and enhances interaction with PTPN6. Interacts (phosphorylated) with PTPN6; inhibits EGFR-dependent activation of MAPK/ERK. Interacts with COPG1; essential for regulation of EGF-dependent nuclear transport of EGFR by retrograde trafficking from the Golgi to the ER. Interacts with TNK2; this interaction is dependent on EGF stimulation and kinase activity of EGFR. Interacts with PCNA; positively regulates PCNA (PubMed:17115032). Interacts with PELP1. Interacts with MUC1. Interacts with AP2M1. Interacts with FER. May interact with EPS8; mediates EPS8 phosphorylation. Interacts (via SH2 domains) with GRB2, NCK1 and NCK2 (PubMed:10026169). Interacts with ATXN2. Interacts with GAREM1. Interacts (ubiquitinated) with ANKRD13A/B/D; the interaction is direct and may regulate EGFR internalization after EGF stimulation. Interacts with GPER1; the interaction occurs in an estrogen-dependent manner. Interacts (via C-terminal cytoplasmic kinase domain) with ZPR1 (via zinc fingers). Interacts with RNF115 and RNF126 (PubMed:23418353). Interacts with GPRC5A (via its transmembrane domain) (PubMed:25311788). Interacts with FAM83B; positively regulates EGFR inducing its autophosphorylation in absence of stimulation by EGF (PubMed:23912460). Interacts with LAPTM4B; positively correlates with EGFR activation (PubMed:28479384). Interacts with STX19 (PubMed:16420529). Interacts with CD44 (PubMed:23589287). Interacts with PGRMC1; the interaction requires PGRMC1 homodimerization (PubMed:26988023). Interacts with PIKFYVE (PubMed:17909029). Interacts with NEU3. Interacts with TRAF4 (PubMed:30352854). Interacts with the ant venom OMEGA-myrmeciitoxin(02)-Mg1a (By similarity). Interacts with CD82; this interaction facilitates ligand-induced endocytosis of the receptor and its subsequent desensitization (PubMed:35538033). |
Post-translational modification Phosphorylated on Tyr residues in response to EGF (PubMed:20462955, PubMed:27153536). Phosphorylation at Ser-695 is partial and occurs only if Thr-693 is phosphorylated. Phosphorylation at Thr-678 and Thr-693 by PRKD1 inhibits EGF-induced MAPK8/JNK1 activation. Dephosphorylation by PTPRJ prevents endocytosis and stabilizes the receptor at the plasma membrane. Autophosphorylation at Tyr-1197 is stimulated by methylation at Arg-1199 and enhances interaction with PTPN6. Autophosphorylation at Tyr-1092 and/or Tyr-1110 recruits STAT3. Dephosphorylated by PTPN1 and PTPN2.; Monoubiquitinated and polyubiquitinated upon EGF stimulation; which does not affect tyrosine kinase activity or signaling capacity but may play a role in lysosomal targeting (PubMed:27153536). Polyubiquitin linkage is mainly through 'Lys-63', but linkage through 'Lys-48', 'Lys-11' and 'Lys-29' also occurs. Deubiquitination by OTUD7B prevents degradation. Ubiquitinated by RNF115 and RNF126 (By similarity). Ubiquitinated by ZNRF1 or CBL at different lysines in response to EGF stimulation; leading to recruitment of the ESCRT machinery and subsequent degradation in the lysosomes (PubMed:33996800). Deubiquitinated by UCHL1 leading to the inhibition of its degradation (By similarity).; Palmitoylated on Cys residues by ZDHHC20. Palmitoylation inhibits internalization after ligand binding, and increases the persistence of tyrosine-phosphorylated EGFR at the cell membrane. Palmitoylation increases the amplitude and duration of EGFR signaling.; Methylated. Methylation at Arg-1199 by PRMT5 stimulates phosphorylation at Tyr-1197. |
Target Relevance information above includes information from UniProt accession: P00533 |
The UniProt Consortium |
Data
The purity of FITC-Labeled Human EGFR is greater than 95% as determined by SEC-HPLC. |
FITC-Labeled Human EGFR on Tris-Bis PAGE under reduced condition. The purity is greater than 95%. |
Publications
Frequently Asked Questions1. Question: What are the key features of the FITC-labeled human EGFR/HER1 protein (3416)?
Answer: The FITC-labeled human EGFR/HER1 protein (3416) is a high-quality recombinant protein labeled with FITC for easy visualization under a fluorescence microscope. It specifically detects the EGFR/HER1 protein in various immunofluorescence applications.
2. Question: How should I store the FITC-labeled human EGFR/HER1 protein (3416) for optimal performance?
Answer: To ensure the stability and integrity of the FITC-labeled human EGFR/HER1 protein (3416), it should be stored at -20°C in aliquots to avoid repeated freeze-thaw cycles. Avoid exposure to light and store away from any reactive substances.
3. Question: Is the FITC-labeled human EGFR/HER1 protein (3416) compatible with other immunofluorescence staining techniques?
Answer: Yes, the FITC-labeled human EGFR/HER1 protein (3416) is compatible with various immunofluorescence staining techniques, including immunocytochemistry, immunohistochemistry, and flow cytometry. It can be used in combination with other fluorescently-labeled antibodies for multiplex labeling experiments.
4. Question: What applications is the FITC-labeled human EGFR/HER1 protein (3416) suitable for?
Answer: The FITC-labeled human EGFR/HER1 protein (3416) is ideal for applications such as in vitro cell-based assays, studying protein-protein interactions, receptor binding studies, and monitoring receptor internalization processes. It is widely used in cancer research and drug development studies related to EGFR signaling pathways.
5. Question: Can the FITC-labeled human EGFR/HER1 protein (3416) be used in live-cell imaging experiments?
Answer: Yes, the FITC-labeled human EGFR/HER1 protein (3416) is suitable for live-cell imaging experiments to track the localization and dynamics of EGFR/HER1 protein in real-time. However, it is important to note that prolonged exposure to high-intensity light may affect the stability of the fluorescence signal.
Answer: The FITC-labeled human EGFR/HER1 protein (3416) is a high-quality recombinant protein labeled with FITC for easy visualization under a fluorescence microscope. It specifically detects the EGFR/HER1 protein in various immunofluorescence applications.
2. Question: How should I store the FITC-labeled human EGFR/HER1 protein (3416) for optimal performance?
Answer: To ensure the stability and integrity of the FITC-labeled human EGFR/HER1 protein (3416), it should be stored at -20°C in aliquots to avoid repeated freeze-thaw cycles. Avoid exposure to light and store away from any reactive substances.
3. Question: Is the FITC-labeled human EGFR/HER1 protein (3416) compatible with other immunofluorescence staining techniques?
Answer: Yes, the FITC-labeled human EGFR/HER1 protein (3416) is compatible with various immunofluorescence staining techniques, including immunocytochemistry, immunohistochemistry, and flow cytometry. It can be used in combination with other fluorescently-labeled antibodies for multiplex labeling experiments.
4. Question: What applications is the FITC-labeled human EGFR/HER1 protein (3416) suitable for?
Answer: The FITC-labeled human EGFR/HER1 protein (3416) is ideal for applications such as in vitro cell-based assays, studying protein-protein interactions, receptor binding studies, and monitoring receptor internalization processes. It is widely used in cancer research and drug development studies related to EGFR signaling pathways.
5. Question: Can the FITC-labeled human EGFR/HER1 protein (3416) be used in live-cell imaging experiments?
Answer: Yes, the FITC-labeled human EGFR/HER1 protein (3416) is suitable for live-cell imaging experiments to track the localization and dynamics of EGFR/HER1 protein in real-time. However, it is important to note that prolonged exposure to high-intensity light may affect the stability of the fluorescence signal.
Publications
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Protocols
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