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FITC-Labeled Human EGFR/HER1 Protein 3416

$900.00$2,000.00

Summary

  • Expression: HEK293
  • Pure: Yes (HPLC)
  • Amino Acid Range: Leu25-Ser645
SKU: 3416parent Categories: , Tag:
Weight1 lbs
Dimensions9 × 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

protein
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
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

HPLC of FITC-Labeled Human EGFR/HER1 Protein
The purity of FITC-Labeled Human EGFR is greater than 95% as determined by SEC-HPLC.
SDS-PAGE gel of FITC-Labeled Human EGFR/HER1 Protein
FITC-Labeled Human EGFR on Tris-Bis PAGE under reduced condition. The purity is greater than 95%.

Publications

Frequently Asked Questions
1. 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.

Publications
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Published literature highly relevant to the biological target of this product and referencing this antibody or clone are retrieved from PubMed database provided by The United States National Library of Medicine at the National Institutes of Health.

Protocols

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