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  4. Recombinant Human E3 ubiquitin-protein ligase parkin (PRKN)

Recombinant Human E3 ubiquitin-protein ligase parkin (PRKN)

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  • 中文名称:
    人PRKN重组蛋白
  • 货号:
    CSB-BP017451HU
  • 规格:
    ¥2112
  • 促销:
    现货重组蛋白特价促销
  • 图片:
    • (Tris-Glycine gel) Discontinuous SDS-PAGE (reduced) with 5% enrichment gel and 15% separation gel.
  • 其他:

产品详情

  • 纯度:
    Greater than 85% as determined by SDS-PAGE.
  • 基因名:
  • Uniprot No.:
  • 别名:
    AR JP ; E3 ubiquitin ligase; E3 ubiquitin protein ligase parkin; E3 ubiquitin-protein ligase parkin; FRA6E; LPRS 2; LPRS2; PARK 2; Park2; Parkin 2; Parkinson disease (autosomal recessive juvenile) 2; Parkinson disease (autosomal recessive; juvenile) 2; parkin; Parkinson disease protein 2; Parkinson juvenile disease protein 2; Parkinson protein 2 E3 ubiquitin protein ligase ; Parkinson protein 2; E3 ubiquitin protein ligase (parkin); PDJ; PRKN 2; PRKN; PRKN2; PRKN2_HUMAN; Ubiquitin E3 ligase PRKN
  • 种属:
    Homo sapiens (Human)
  • 蛋白长度:
    Full Length
  • 来源:
    Baculovirus
  • 分子量:
    55.6kDa
  • 表达区域:
    1-465aa
  • 氨基酸序列
    MIVFVRFNSSHGFPVEVDSDTSIFQLKEVVAKRQGVPADQLRVIFAGKELRNDWTVQNCDLDQQSIVHIVQRPWRKGQEMNATGGDDPRNAAGGCEREPQSLTRVDLSSSVLPGDSVGLAVILHTDSRKDSPPAGSPAGRSIYNSFYVYCKGPCQRVQPGKLRVQCSTCRQATLTLTQGPSCWDDVLIPNRMSGECQSPHCPGTSAEFFFKCGAHPTSDKETSVALHLIATNSRNITCITCTDVRSPVLVFQCNSRHVICLDCFHLYCVTRLNDRQFVHDPQLGYSLPCVAGCPNSLIKELHHFRILGEEQYNRYQQYGAEECVLQMGGVLCPRPGCGAGLLPEPDQRKVTCEGGNGLGCGFAFCRECKEAYHEGECSAVFEASGTTTQAYRVDERAAEQARWEAASKETIKKTTKPCPRCHVPVEKNGGCMHMKCPQPQCRLEWCWNCGCEWNRVCMGDHWFDV
    Note: The complete sequence including tag sequence, target protein sequence and linker sequence could be provided upon request.
  • 蛋白标签:
    N-terminal 10xHis-tagged and C-terminal Myc-tagged
  • 产品提供形式:
    Liquid or 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.
  • 缓冲液:
    Tris-based buffer,50% glycerol
  • 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:
    3-7 business days
  • 注意事项:
    Repeated freezing and thawing is not recommended. Store working aliquots at 4°C for up to one week.
  • 产品描述:

    The recombinant human PRKN protein is encoded by a recombinant DNA that was cloned into the expression vector and then transformed into the Baculovirus that supports the expression of the gene. The recombinant DNA was constructed by fusing the N-terminal 10xHis tag and C-terminal Myc tag gene to the gene fragment coding for the 1-465aa of the human PRKN protein. After purification, the product is the recombinant human PRKN protein. This recombinant PRKN protein was subjected to the SDS-PAGE determination. Its purity reaches over 85% evaluated by Bandscan software analysis combined with SAS-PAGE. This PRKN protein ran to the molecular weight of about 55 kDa under SDS-PAGE condition.

    E3 ubiquitin ligase (also called PRKN) protein functions to recruit an E2 ubiquitin-conjugating enzyme. PRKN interact with the target protein and the E2 enzyme. Therefore, it could impart substrate specificity to the E2. In particular, ubiquitination by PRKN mediates the complex biological process like homeostasis, cell trafficking, and DNA repair. Also, the signaling PRKN involved play crucial roles in cell biology, which could be associated with some famously molecular like MDM2 and BRCA1 that play a part in various cancers. Moreover, based on current researches, mutations in PRKN gene are known to cause Parkinson disease and autosomal recessive juvenile Parkinson disease.

  • Datasheet & COA:
    Please contact us to get it.

产品评价

靶点详情

  • 功能:
    Functions within a multiprotein E3 ubiquitin ligase complex, catalyzing the covalent attachment of ubiquitin moieties onto substrate proteins. Substrates include SYT11 and VDAC1. Other substrates are BCL2, CCNE1, GPR37, RHOT1/MIRO1, MFN1, MFN2, STUB1, SNCAIP, SEPTIN5, TOMM20, USP30, ZNF746, MIRO1 and AIMP2. Mediates monoubiquitination as well as 'Lys-6', 'Lys-11', 'Lys-48'-linked and 'Lys-63'-linked polyubiquitination of substrates depending on the context. Participates in the removal and/or detoxification of abnormally folded or damaged protein by mediating 'Lys-63'-linked polyubiquitination of misfolded proteins such as PARK7: 'Lys-63'-linked polyubiquitinated misfolded proteins are then recognized by HDAC6, leading to their recruitment to aggresomes, followed by degradation. Mediates 'Lys-63'-linked polyubiquitination of a 22 kDa O-linked glycosylated isoform of SNCAIP, possibly playing a role in Lewy-body formation. Mediates monoubiquitination of BCL2, thereby acting as a positive regulator of autophagy. Protects against mitochondrial dysfunction during cellular stress, by acting downstream of PINK1 to coordinate mitochondrial quality control mechanisms that remove and replace dysfunctional mitochondrial components. Depending on the severity of mitochondrial damage and/or dysfunction, activity ranges from preventing apoptosis and stimulating mitochondrial biogenesis to regulating mitochondrial dynamics and eliminating severely damaged mitochondria via mitophagy. Activation and recruitment onto the outer membrane of damaged/dysfunctional mitochondria (OMM) requires PINK1-mediated phosphorylation of both PRKN and ubiquitin. After mitochondrial damage, functions with PINK1 to mediate the decision between mitophagy or preventing apoptosis by inducing either the poly- or monoubiquitination of VDAC1, respectively; polyubiquitination of VDAC1 promotes mitophagy, while monoubiquitination of VDAC1 decreases mitochondrial calcium influx which ultimately inhibits apoptosis. When cellular stress results in irreversible mitochondrial damage, promotes the autophagic degradation of dysfunctional depolarized mitochondria (mitophagy) by promoting the ubiquitination of mitochondrial proteins such as TOMM20, RHOT1/MIRO1, MFN1 and USP30. Preferentially assembles 'Lys-6'-, 'Lys-11'- and 'Lys-63'-linked polyubiquitin chains, leading to mitophagy. The PINK1-PRKN pathway also promotes fission of damaged mitochondria by PINK1-mediated phosphorylation which promotes the PRKN-dependent degradation of mitochondrial proteins involved in fission such as MFN2. This prevents the refusion of unhealthy mitochondria with the mitochondrial network or initiates mitochondrial fragmentation facilitating their later engulfment by autophagosomes. Regulates motility of damaged mitochondria via the ubiquitination and subsequent degradation of MIRO1 and MIRO2; in motor neurons, this likely inhibits mitochondrial intracellular anterograde transport along the axons which probably increases the chance of the mitochondria undergoing mitophagy in the soma. Involved in mitochondrial biogenesis via the 'Lys-48'-linked polyubiquitination of transcriptional repressor ZNF746/PARIS which leads to its subsequent proteasomal degradation and allows activation of the transcription factor PPARGC1A. Limits the production of reactive oxygen species (ROS). Regulates cyclin-E during neuronal apoptosis. In collaboration with CHPF isoform 2, may enhance cell viability and protect cells from oxidative stress. Independently of its ubiquitin ligase activity, protects from apoptosis by the transcriptional repression of p53/TP53. May protect neurons against alpha synuclein toxicity, proteasomal dysfunction, GPR37 accumulation, and kainate-induced excitotoxicity. May play a role in controlling neurotransmitter trafficking at the presynaptic terminal and in calcium-dependent exocytosis. May represent a tumor suppressor gene.
  • 基因功能参考文献:
    1. work provides a framework for the mechanisms of parkin's loss-of-function, indicating an interplay between ARJP-associated substitutions and phosphorylation of its Ubl domain. PMID: 29530980
    2. Data show that E3 ubiquitin-protein ligase parkin (Parkin) undergoes a conformational change upon phosphorylation. PMID: 28276439
    3. carnosic acid induces parkin by enhancing the ubiquitination of ARTS, leading to induction of XIAP. PMID: 28224479
    4. PARK2 promoter SNP's rs2276201 and rs9347683 are shown to be significantly associated with the risk of colorectal cancer development PMID: 30296568
    5. Increased levels of Parkin are detected in lens epithelial cells exposed to H2O2-oxidative stress. Parkin translocates to mitochondria of lens epithelial cells upon H2O2-oxidative stress exposure. Parkin ubiquitin ligase activity is required for clearance of damaged mitochondria in lens epithelial cells exposed to H2O2-oxidative stress. PMID: 27702626
    6. Examined the enzymatic activity of Parkin with M458L mutation. We show that the M458L mutant retains its autoubiquitination potential in vitro but not in cells. M458L mutant fails to protect the mitochondria against hydrogen peroxide, leading to cell death. PMID: 29223129
    7. The results demonstrate that Nix can serve as an alternative mediator of mitophagy to maintain mitochondrial turnover, identifying Nix as a promising target for neuroprotective treatment in PINK1/Parkin-related Parkinson's disease. PMID: 28281653
    8. Female patients with PARK2 polymorphism had significantly higher risk of VTE recurrence PMID: 29671165
    9. Studies indicate a functional PTEN-induced putative kinase 1)(PINK1)/E3 ubiquitin protein ligase (parkin) mitophagy pathway in neurons [Review]. PMID: 29085955
    10. indings indicate that PRKN mutations are associated with large global gene expression changes as observed in fibroblasts from PRKN-Parkinson's disease patients PMID: 29501959
    11. parkin deficiency induces synaptotagmin-11 accumulation and PD-like neurotoxicity in mouse models, which is reversed by SYT11 knockdown in the SNpc or knockout of SYT11 restricted to dopaminergic neuron PMID: 29311685
    12. Parkin expression is inversely correlated with HIF-1alpha expression and metastasis in breast cancer. Results reveal an important mechanism for Parkin in tumor suppression and HIF-1alpha regulation. PMID: 29180628
    13. mitochondrial dysfunction activates the PINK1/Parkin signaling and mitophagy in renal tubular epithelial cells under albumin overload condition. PMID: 29494565
    14. The s demonstrate that RABGEF1, the upstream factor of the endosomal Rab GTPase cascade, is recruited to damaged mitochondria via ubiquitin binding downstream of Parkin. RABGEF1 directs the downstream Rab proteins, RAB5 and RAB7A, to damaged mitochondria, whose associations are further regulated by mitochondrial Rab-GAPs. PMID: 29360040
    15. DNAJ proteins keep Parkin C289G mutant protein in a soluble, degradation-competent form. PMID: 27713507
    16. S-nitrosylated PINK1 decreases Parkin translocation to mitochondrial membranes PMID: 29166608
    17. Parkinsonism associated with Parkin gene mutation is one of the most common familial forms of Parkinson Disease, which is characterized by early onset of symptoms, slow progression, elective dopaminergic neuronal loss and the absence of Lewy bodies. PMID: 28523222
    18. A transcriptional repressor network including THAP domain containing 11 protein (THAP11) was identified and negatively regulates endogenous PARKIN abundance. PMID: 29269392
    19. Study explored the role of parkin proteins in Parkinson's disease (PD) neurodegeneration by analyzing their expression profile in an in vitro model exposed to divers neurotoxins. Results showed that up- or down-regulation of specific splice isoforms may be a direct effect of toxin exposure. Moreover, the isoforms may exert different actions in neurodegeneration via modulation of different molecular pathways. PMID: 28688199
    20. Mutations in the PARK2 gene were detected in four of the six tested families with a history of early-onset Parkinson disease. PMID: 28913705
    21. This study showed that the heterozygous Parkin mutation carriers show subtle motor abnormalities when a detailed, specialized motor examination is applied and compared to mutation-negative matched control subjects. PMID: 28716427
    22. The methylation of SNCA and PARK2 promoter regions were significantly lower in early-onset Parkinson's disease patients compared to control group. Methylation status of the SNCA might be associated with positive family history of Parkinson's disease. PMID: 28830306
    23. Show that the C-terminal GTPase of the Parkin primary substrates Miro1 and Miro2 are necessary and sufficient for efficient ubiquitination. We present several new X-ray crystal structures of both Miro1 and Miro2 that reveal substrate recognition and ubiquitin transfer to be specific to particular protein domains and lysine residues. PMID: 27605430
    24. This study showed that the manganese exposure among smelters may lead to a reduced expression of PARK2. PMID: 28826884
    25. parkin-dependent targeting of misregulated BAX on the mitochondria provides substantial protection against BAX apoptotic activity. PMID: 28760928
    26. This study indicated that heterozygous deletions and duplications can play an important role in the pathogenesis of Parkinson's disease and can be considered as dominant mutations with low penetrance. PMID: 27798970
    27. Parkin was found to interact with p53; however, this was abolished in Parkin KO mice model, which prevented p53 degradation reducing inflammatory arthritis. PMID: 28395174
    28. These findings unveil an important role of Parkin in protecting genome stability through positively regulating translesion DNA synthesis (TLS) upon UV damage, providing a novel mechanistic link between Parkin deficiency and predisposition to skin cancers in PD patients. PMID: 28430587
    29. Thus, the present study indicated that parkin knockout inhibits neural stem cell differentiation by JNK-dependent proteasomal degradation of p21. PMID: 28656059
    30. Parkin hyper-activation by pUb(S57) demonstrates the first PINK1-independent route to active parkin, revealing the roles of multiple ubiquitin phosphorylation sites in governing parkin stimulation and catalytic activity. PMID: 28689991
    31. the results of this study suggest that mutations on specific genes (PARK2 and LRRK2) compromising basal ganglia functioning may be subtly related to language-processing mechanisms. PMID: 28205494
    32. This study identified five microRNAs that play a role in the etiology of Parkinson's disease likely by modifying expression of PRKN and additional genes required for normal cellular function. PMID: 27717584
    33. MicroRNA-181a has a role in suppressing parkin-mediated mitophagy and sensitizing neuroblastoma cells to mitochondrial uncoupler-induced apoptosis PMID: 27281615
    34. Findings suggest that PARK2 might have a tumor suppressor role in the development of chronic obstructive pulmonary disease (COPD) and lung cancer. PMID: 27329585
    35. Here we review the evidence supporting PINK1/Parkin mitophagy in vivo and its causative role in neurodegeneration, and outline outstanding questions for future investigations. PMID: 28213158
    36. Although PARK2 may be a pathological factor for neurodevelopmental disorders , likely not all variants are pathogenic, and a conclusive assessment of PARK2 variant pathogenicity requires an accurate analysis of their location within the coding region and encoded functional domains. PMID: 27824727
    37. VPS35 regulates parkin substrate AIMP2 toxicity by facilitating lysosomal clearance of AIMP2. PMID: 28383562
    38. Results show that HERC5 mediates covalent ISG15 conjugation to parkin in mammalian cells and that ISG15 is conjugated to the Lys349 and Lys369 residues of parkin. This ISGylation increases the ubiquitin E3 ligase activity of parkin. Also, some familial Parkinson's disease-associated missense mutations of parkin display defective ISGylation. PMID: 27534820
    39. an impaired PINK1-PARK2-mediated neuroimmunology pathway contributes to septic death. PMID: 27754761
    40. This work provided strong new evidence that PARK2 participates to the regulatory networks associated with oxidative phosphorylation and suggested that PARK2 genetic variations could act as a trans regulator of OXPHOS gene macrophage expression in humans. PMID: 27558669
    41. REVIEW: role of parkin in modulating excitatory and dopaminergic synapse functions PMID: 28335015
    42. The effects of variants in the Parkin, PINK1, and DJ-1 genes along with evidence for their pathogenicity have been summarized. (Review) PMID: 26965687
    43. Parkin is a potential link between melanoma and Parkinson's disease PMID: 27297116
    44. these results unveil a novel functional coupling between Parkin and the CaV2.2 channels. PMID: 28957379
    45. These results demonstrate the feasibility of using UbFluor for quantitative studies of the biochemistry of RBR E3s and for high-throughput screening of small-molecule activators or inhibitors of PARKIN and other RBR E3 ligases. PMID: 28710279
    46. data suggest that ROS may act as a trigger for the induction of Parkin/PINK1-dependent mitophagy. PMID: 28848050
    47. The proportions of some phospholipids and glycosphingolipids were altered in the lipid profiles of parkin-mutant skin fibroblasts obtained from Parkinson disease patients. PMID: 28109117
    48. Adipogenic process can be dissected into 3 stages according to the participation of PARL-PINK1-Parkin system. Findings reveal the sequential adipogenic events directed by PARL-PINK1-Parkin system, add more evidence supporting the convergence of pathogenesis leading to neurodegenerative and metabolic disease PMID: 28641777
    49. These results highlight the combined effects of Parkin and PGC-1alpha in the maintenance of mitochondrial homeostasis in dopaminergic neurons. These two factors synergistically control the quality and function of mitochondria, which is important for the survival of neurons in Parkinson's disease. PMID: 28053050
    50. Data suggest that inactivation of cytosolic parkin in dopaminergic neurons of the substantia nigra contributes to neurodegeneration in sporadic Parkinson disease. [REVIEW] PMID: 28860335

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  • 相关疾病:
    Parkinson disease (PARK); Parkinson disease 2 (PARK2)
  • 亚细胞定位:
    Cytoplasm, cytosol. Nucleus. Endoplasmic reticulum. Mitochondrion. Mitochondrion outer membrane. Cell projection, neuron projection. Cell junction, synapse, postsynaptic density. Cell junction, synapse, presynapse.
  • 蛋白家族:
    RBR family, Parkin subfamily
  • 组织特异性:
    Highly expressed in the brain including the substantia nigra. Expressed in heart, testis and skeletal muscle. Expression is down-regulated or absent in tumor biopsies, and absent in the brain of PARK2 patients. Overexpression protects dopamine neurons fro
  • 数据库链接:

    HGNC: 8607

    OMIM: 168600

    KEGG: hsa:5071

    STRING: 9606.ENSP00000355865

    UniGene: Hs.132954