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Recombinant Human Beta-arrestin-1 (ARRB1)

  • 货号:
    CSB-YP002134HU
  • 规格:
  • 来源:
    Yeast
  • 其他:
  • 货号:
    CSB-EP002134HU
  • 规格:
  • 来源:
    E.coli
  • 其他:
  • 货号:
    CSB-EP002134HU-B
  • 规格:
  • 来源:
    E.coli
  • 共轭:
    Avi-tag Biotinylated

    E. coli biotin ligase (BirA) is highly specific in covalently attaching biotin to the 15 amino acid AviTag peptide. This recombinant protein was biotinylated in vivo by AviTag-BirA technology, which method is BriA catalyzes amide linkage between the biotin and the specific lysine of the AviTag.

  • 其他:
  • 货号:
    CSB-BP002134HU
  • 规格:
  • 来源:
    Baculovirus
  • 其他:
  • 货号:
    CSB-MP002134HU
  • 规格:
  • 来源:
    Mammalian cell
  • 其他:

产品详情

  • 纯度:
    >85% (SDS-PAGE)
  • 基因名:
  • Uniprot No.:
  • 别名:
    ARB1; ARR1; ARRB1; ARRB1_HUMAN; Arrestin 2; Arrestin beta 1; Arrestin beta-1; Beta-arrestin-1
  • 种属:
    Homo sapiens (Human)
  • 蛋白长度:
    Full length protein
  • 表达区域:
    1-418
  • 氨基酸序列
    MGDKGTRVFK KASPNGKLTV YLGKRDFVDH IDLVDPVDGV VLVDPEYLKE RRVYVTLTCA FRYGREDLDV LGLTFRKDLF VANVQSFPPA PEDKKPLTRL QERLIKKLGE HAYPFTFEIP PNLPCSVTLQ PGPEDTGKAC GVDYEVKAFC AENLEEKIHK RNSVRLVIRK VQYAPERPGP QPTAETTRQF LMSDKPLHLE ASLDKEIYYH GEPISVNVHV TNNTNKTVKK IKISVRQYAD ICLFNTAQYK CPVAMEEADD TVAPSSTFCK VYTLTPFLAN NREKRGLALD GKLKHEDTNL ASSTLLREGA NREILGIIVS YKVKVKLVVS RGGLLGDLAS SDVAVELPFT LMHPKPKEEP PHREVPENET PVDTNLIELD TNDDDIVFED FARQRLKGMK DDKEEEEDGT GSPQLNNR
  • 蛋白标签:
    Tag type will be determined during the manufacturing process.
    The tag type will be determined during production process. If you have specified tag type, please tell us and we will develop the specified tag preferentially.
  • 产品提供形式:
    Lyophilized powder
    Note: We will preferentially ship the format that we have in stock, however, if you have any special requirement for the format, please remark your requirement when placing the order, we will prepare according to your demand.
  • 复溶:
    We recommend that this vial be briefly centrifuged prior to opening to bring the contents to the bottom. Please reconstitute protein in deionized sterile water to a concentration of 0.1-1.0 mg/mL.We recommend to add 5-50% of glycerol (final concentration) and aliquot for long-term storage at -20℃/-80℃. Our default final concentration of glycerol is 50%. Customers could use it as reference.
  • 储存条件:
    Store at -20°C/-80°C upon receipt, aliquoting is necessary for mutiple use. Avoid repeated freeze-thaw cycles.
  • 保质期:
    The shelf life is related to many factors, storage state, buffer ingredients, storage temperature and the stability of the protein itself.
    Generally, the shelf life of liquid form is 6 months at -20°C/-80°C. The shelf life of lyophilized form is 12 months at -20°C/-80°C.
  • 货期:
    Delivery time may differ from different purchasing way or location, please kindly consult your local distributors for specific delivery time.
    Note: All of our proteins are default shipped with normal blue ice packs, if you request to ship with dry ice, please communicate with us in advance and extra fees will be charged.
  • 注意事项:
    Repeated freezing and thawing is not recommended. Store working aliquots at 4°C for up to one week.
  • Datasheet :
    Please contact us to get it.

产品评价

靶点详情

  • 功能:
    Functions in regulating agonist-mediated G-protein coupled receptor (GPCR) signaling by mediating both receptor desensitization and resensitization processes. During homologous desensitization, beta-arrestins bind to the GPRK-phosphorylated receptor and sterically preclude its coupling to the cognate G-protein; the binding appears to require additional receptor determinants exposed only in the active receptor conformation. The beta-arrestins target many receptors for internalization by acting as endocytic adapters (CLASPs, clathrin-associated sorting proteins) and recruiting the GPRCs to the adapter protein 2 complex 2 (AP-2) in clathrin-coated pits (CCPs). However, the extent of beta-arrestin involvement appears to vary significantly depending on the receptor, agonist and cell type. Internalized arrestin-receptor complexes traffic to intracellular endosomes, where they remain uncoupled from G-proteins. Two different modes of arrestin-mediated internalization occur. Class A receptors, like ADRB2, OPRM1, ENDRA, D1AR and ADRA1B dissociate from beta-arrestin at or near the plasma membrane and undergo rapid recycling. Class B receptors, like AVPR2, AGTR1, NTSR1, TRHR and TACR1 internalize as a complex with arrestin and traffic with it to endosomal vesicles, presumably as desensitized receptors, for extended periods of time. Receptor resensitization then requires that receptor-bound arrestin is removed so that the receptor can be dephosphorylated and returned to the plasma membrane. Involved in internalization of P2RY4 and UTP-stimulated internalization of P2RY2. Involved in phosphorylation-dependent internalization of OPRD1 ands subsequent recycling. Involved in the degradation of cAMP by recruiting cAMP phosphodiesterases to ligand-activated receptors. Beta-arrestins function as multivalent adapter proteins that can switch the GPCR from a G-protein signaling mode that transmits short-lived signals from the plasma membrane via small molecule second messengers and ion channels to a beta-arrestin signaling mode that transmits a distinct set of signals that are initiated as the receptor internalizes and transits the intracellular compartment. Acts as signaling scaffold for MAPK pathways such as MAPK1/3 (ERK1/2). ERK1/2 activated by the beta-arrestin scaffold is largely excluded from the nucleus and confined to cytoplasmic locations such as endocytic vesicles, also called beta-arrestin signalosomes. Recruits c-Src/SRC to ADRB2 resulting in ERK activation. GPCRs for which the beta-arrestin-mediated signaling relies on both ARRB1 and ARRB2 (codependent regulation) include ADRB2, F2RL1 and PTH1R. For some GPCRs the beta-arrestin-mediated signaling relies on either ARRB1 or ARRB2 and is inhibited by the other respective beta-arrestin form (reciprocal regulation). Inhibits ERK1/2 signaling in AGTR1- and AVPR2-mediated activation (reciprocal regulation). Is required for SP-stimulated endocytosis of NK1R and recruits c-Src/SRC to internalized NK1R resulting in ERK1/2 activation, which is required for the antiapoptotic effects of SP. Is involved in proteinase-activated F2RL1-mediated ERK activity. Acts as signaling scaffold for the AKT1 pathway. Is involved in alpha-thrombin-stimulated AKT1 signaling. Is involved in IGF1-stimulated AKT1 signaling leading to increased protection from apoptosis. Involved in activation of the p38 MAPK signaling pathway and in actin bundle formation. Involved in F2RL1-mediated cytoskeletal rearrangement and chemotaxis. Involved in AGTR1-mediated stress fiber formation by acting together with GNAQ to activate RHOA. Appears to function as signaling scaffold involved in regulation of MIP-1-beta-stimulated CCR5-dependent chemotaxis. Involved in attenuation of NF-kappa-B-dependent transcription in response to GPCR or cytokine stimulation by interacting with and stabilizing CHUK. May serve as nuclear messenger for GPCRs. Involved in OPRD1-stimulated transcriptional regulation by translocating to CDKN1B and FOS promoter regions and recruiting EP300 resulting in acetylation of histone H4. Involved in regulation of LEF1 transcriptional activity via interaction with DVL1 and/or DVL2 Also involved in regulation of receptors other than GPCRs. Involved in Toll-like receptor and IL-1 receptor signaling through the interaction with TRAF6 which prevents TRAF6 autoubiquitination and oligomerization required for activation of NF-kappa-B and JUN. Binds phosphoinositides. Binds inositolhexakisphosphate (InsP6). Involved in IL8-mediated granule release in neutrophils. Required for atypical chemokine receptor ACKR2-induced RAC1-LIMK1-PAK1-dependent phosphorylation of cofilin (CFL1) and for the up-regulation of ACKR2 from endosomal compartment to cell membrane, increasing its efficiency in chemokine uptake and degradation. Involved in the internalization of the atypical chemokine receptor ACKR3. Negatively regulates the NOTCH signaling pathway by mediating the ubiquitination and degradation of NOTCH1 by ITCH. Participates in the recruitment of the ubiquitin-protein ligase to the receptor.
  • 基因功能参考文献:
    1. The antitumor effect of miR296 in CRC are at least in part due to the inactivation of the RAC-alpha serine/threonine-protein kinase (AKT) signaling pathway induced by the suppression of ARRB1 expression. PMID: 30365090
    2. Beta-arrestin interacting with unphosphorylated ADRB2 fails to activate mitogen-activated protein kinase (MAPK) signaling and prolonged interaction of beta-arrestin with ADRB2 promoted the sorting of ADRB2 to lysosomes. PMID: 29330504
    3. Beta-arrestin-1 expression is associated with a poor prognosis in serous ovarian cancer patients.Beta-arrestin-1 role in the invadopodian function. PMID: 29439204
    4. Conformation of ADRB2 induced by the phosphorylation resulted in beta-arrestin binding. PMID: 29335412
    5. Bulky Phe substitution of Cys-147 in human arrestin-1 likely causes rod degeneration due to reduced stability of the protein, which induces unfolded protein response in expressing cells PMID: 29305604
    6. Results indicate a mechanism for beta-arrestin1 in the regulation of the prostate cancer procession through inhibiting FOXO3a. PMID: 29676828
    7. Studies indicate that the interaction of activated and phosphorylated GPCRs with the multifunctional adaptor proteins beta-arrestins (betaarrs) is crucial for regulation of their signaling and functional outcomes [Review]. PMID: 28651823
    8. The results show that PTEN controls multicellular assembly through a membrane-associated regulatory protein complex composed of beta-Arrestin1, ARHGAP21 and Cdc42. PMID: 28749339
    9. These results provide clear evidence that CXCR4- or CCR5-beta-arrestin complexes induce receptor endocytosis and signaling in the absence of G protein coupling and ligand-induced conformational changes of the receptor. PMID: 28733085
    10. Our results identify a new molecular mechanism involving miR-326 and Arrb1 as regulators of Sonic hedgehog medulloblastoma Cancer stem cells . Specifically, low levels of Arrb1 and miR-326 trigger and maintain Hh/Gli signaling and self-renewal PMID: 28716052
    11. This work demonstrates that the expression of FSHR and LHCGR can be induced in hGL5 cells but that the FSHR-dependent cAMP/PKA pathway is constitutively silenced, possibly to protect cells from FSHR-cAMP-PKA-induced apoptosis. PMID: 27502035
    12. Arrb1 reduced the chemotherapy-induced Lgr5 stem cell apoptosis by inhibiting endoplasmic reticulum stress-mediated mitochondrial apoptotic signaling. PMID: 27195676
    13. This study reveals contrasting abilities of IGF-1R to interact with each b-arrestin isoform, depending on the presence of the ligand and demonstrates the antagonism between the two b-arrestin isoforms in controlling IGF-1R expression and function, which could be developed into a practical anti-IGF-1R strategy for cancer therapy. PMID: 28581517
    14. Lowering the level of cellular FLNA caused an elevation in RalA activity and resulted in selective interference with the normal intracellular trafficking and signaling of D3R through beta-arrestins. PMID: 27188791
    15. findings suggest that knockdown of beta-arrestin 1 can suppress glioblastoma multiforme cell proliferation, invasion and glycolysis by inhibiting Src signaling PMID: 28442265
    16. the depleted beta-Arrestin1 reduced the interaction of P300 with Sp1, thus to reduce Sp1 binding to hTERT promoter, downregulate hTERT transcription, decrease telomerase activity, shorten telomere length, and promote Reh cell senescence. PMID: 28425985
    17. Data show that endothelin A receptor drives invadopodia function by direct interaction of beta-arrestin-1 (beta-arr1) with Rho guanine nucleotide exchange factor (GEF) 11 protein (PDZ-RhoGEF). PMID: 26522724
    18. The small GTPase Ras-related protein 2 (Rap2) was found to bind ArrB1 under resting conditions but dissociated upon formyl-Met-Leu-Phe stimulation. PMID: 27493245
    19. These results were consistent with those seen for beta2-AR. Thus, both beta-arrs negatively control AM1 receptor internalization, which depends on the C-tail of CLR. PMID: 28427767
    20. Results indicate a mechanism of beta-arrestin1 in modulating epithelial-mesenchymal transition (EMT) and glycogen synthase kinase 3 beta (GSK-3beta)/beta-catenin signaling in prostate cancer, and suggest that assessment of beta-arrestin1 may provide a potential therapeutic target for prostate cancer. PMID: 27620488
    21. The downregulation of beta-arrestins 1/2 in saphenous vein endothelial cells (SVECs) prevented the shear stress-induced rise in levels of phosphorylation of Akt and endothelial nitric oxide synthase (eNOS, Serine 1177). PMID: 28062183
    22. results suggest that ARRB1 plays an essential role in NK1R-mediated cell proliferation and G2/M transition in glioblastoma cells. Interference with ARRB1-mediated signaling via NK1R may have potential significance for therapeutic strategies targeting glioblastoma. PMID: 28341744
    23. The beta-arrestin1.STAM1 complex is necessary for promoting autophosphorylation of focal adhesion kinase (FAK). FAK is necessary for CXCL12-induced chemotaxis and associates with and localizes with beta-arrestin1 and STAM1 in a CXCL12-dependent manner. PMID: 27789711
    24. distinct ligands can leverage specific sequence elements on microR to regulate receptor endocytic lifetimes and the magnitude of arrestin-mediated signaling. PMID: 28153854
    25. CRIP1a can compete with beta-arrestins for interaction with C-terminal CB1R domains that could affect agonist-driven, beta-arrestin-mediated internalization of the CB1R. PMID: 27895162
    26. Low expression of ARRB1 is associated with lung cancer. PMID: 28035404
    27. In non-small cell lung cancer patients, the loss expression of beta-arrestin1 was frequently observed, and beta-arrestin1 expression was significantly correlated with the smoking index and E-cadherin expression, which all indicated beta-arrestin1's significant clinicopathologic role PMID: 26293896
    28. beta-arrestins regulate oxidative stress in a Nox4-dependent manner and increase fibrosis in heart failure. PMID: 26449263
    29. These results indicated that b-arr1 regulated ER stress/PUMA-induced mucosal epithelial apoptosis through suppression of the TNF-a/p65/iNOS signaling pathway activation and that b-arr1 is a potential therapeutic target for Portal hypertensive gastropathy. PMID: 26119788
    30. The nuclear accumulation of beta-arrestin 1 following TLR2 activation promote H4 acetylation at specific target gene promoters and may thus affect transcription of target genes in BM CD34+ cells. PMID: 26708616
    31. beta-arrestins functional involvement in myogenesis is presented. PMID: 26211463
    32. The identified receptor-phospho-selective mechanism for arrestin conformation and the spacing of the multiple phosphate-binding sites in the arrestin enable arrestin to recognize plethora phosphorylation states of numerous GPCRs. PMID: 26347956
    33. Data suggest that ARRB1 enhances hepatocellular carcinogenesis by inflammation-mediated Akt signaling. PMID: 26077142
    34. We conclude that beta-arrestin1 had a high expression in lung adenocarcinoma and beta-arrestin1 may be a promising biomarker to identify individuals with poor prognosis for patients with lung adenocarcinoma. PMID: 26097560
    35. Bradykinin stimulates pro-contractile signalling mechanisms in human myometrial cells and arrestin proteins play key roles in their regulation. PMID: 25766502
    36. After eight and 12 weeks of treatment with mirtazapine, scores on the 21-item Hamilton Depression Rating Scale (HAMD21) were significantly lower in patients with MDD with ARRB1 haplotype 1 than in those without haplotype 1 PMID: 25294870
    37. analysis of how NK1 receptor Gs versus Gq proteins and beta-arrestin signaling is determined by interactions in the water hydrogen bond network PMID: 26269596
    38. Multivariate analysis using the Cox regression model confirmed that co-expression of nuclear beta-arrestin1 and p65 was an independent prognostic factor for tumor progression (p = 0.008 PMID: 25820700
    39. Beta-arrestins regulate human cardiac fibroblast transformation in to a myofibroblast phenotype in ventricular remodeling. PMID: 25134464
    40. The potential role of ET-1/ETAR in promoting NF-kappaB signalling in EOC cells through beta-arr-1 recruitment, was examined. PMID: 24530737
    41. High ARBB1 expression is associated with metastasis in non-small cell lung cancers. PMID: 25401222
    42. A new role for Arr2 in the expression and activation of Androgen receptor and its potential relevance as a target for therapeutic intervention and monitoring of disease progression. PMID: 25109335
    43. Stimulation of multiple non-small cell lung cancer cell lines with nicotine led to enhanced recruitment of beta-arrestin-1 and E2F1 on vimentin PMID: 25600647
    44. IL6 stimulated SOD2 expression that, at least partially, contributed to the low level of ROS that would likely result in a sustained increase in the expression of IGF-1R through abolishment of beta-arrestin1 in docetaxel resistant cells. PMID: 24939178
    45. our findings reveal the existence of a novel mechanism by which ETAR/beta-arr1 signaling is integrated with the Wnt/beta-catenin pathway to sustain chemoresistance in epithelial ovarian cancer, and they offer a solid rationale for clinical evaluation PMID: 25377471
    46. TSH stimulated translocation of beta-arrestin-1 to TSHR. beta-arrestin-1 downregulation inhibited TSH-stimulated phosphorylation of ERK1/2, p38alpha, and AKT1. Activatory signals mediated by beta-arrestin-1 cause TSH-enhanced osteoblast differentiation in U2OS cells. PMID: 24723693
    47. the primary function of betaARRs and ECE-1 in SP-dependent inflammatory signaling is to promote resensitization, which allows the sustained NK1R signaling from the plasma membrane that drives inflammation PMID: 24898255
    48. A novel function of beta-arrestin1 binding to EZH2 to promote chronic myeloid leukemia progression by regulating BCR/ABL-histone H4 acetylation. PMID: 24937675
    49. Nuclear ARRB1 induces pseudohypoxia and cellular metabolism reprogramming in prostate cancer. PMID: 24837709
    50. The transient up-regulation of miR-525-3p, and the resultant repression of its direct targets ARRB1, TXN1 and HSPA9, is required for cell survival following irradiation. PMID: 24147004

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  • 亚细胞定位:
    Cytoplasm. Nucleus. Cell membrane. Membrane, clathrin-coated pit. Cell projection, pseudopodium. Cytoplasmic vesicle.
  • 蛋白家族:
    Arrestin family
  • 数据库链接:

    HGNC: 711

    OMIM: 107940

    KEGG: hsa:408

    STRING: 9606.ENSP00000409581

    UniGene: Hs.503284