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AB73015

Anti-Parkin (phospho S101) 抗体

Anti-Parkin (phospho S101) antibody

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(10 Publications)

Rabbit Polyclonal Parkin phospho S101 antibody. Suitable for WB and reacts with Transfected cell lysate - Human samples. Cited in 10 publications. Immunogen corresponding to Synthetic Peptide within Human PRKN pS101.

別名を表示する

PARK2, PRKN, E3 ubiquitin-protein ligase parkin, Parkin, Parkin RBR E3 ubiquitin-protein ligase, Parkinson juvenile disease protein 2, Parkinson disease protein 2

1 Images
Western blot - Anti-Parkin (phospho S101) antibody (AB73015)
  • WB

Unknown

Western blot - Anti-Parkin (phospho S101) antibody (AB73015)

All lanes:

Western blot - Anti-Parkin (phospho S101) antibody (ab73015) at 1/1000 dilution

Lane 1:

HEK293 cells transfected with Parkin WT (phospho)

Lane 2:

HEK293 cells transfected with Parkin S101 mutant (non-phospho)

Predicted band size: 52 kDa

Observed band size: 52 kDa

false

Key facts

宿主種

Rabbit

クローン性

Polyclonal

アイソタイプ

IgG

キャリアフリー

No

交差種

Human

アプリケーション

WB

applications

免疫原

Synthetic Peptide within Human PRKN pS101. The exact immunogen used to generate this antibody is proprietary information.

O60260

特異性

ab73015 is specific for the ~52k parkin protein phosphorylated at Ser101. Immunolabeling of the parkin band is absent in parkin S101 mutants.

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Reactivity data

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製品の詳細

Recent evidence suggests that phosphorylation of parkin at Ser101 may have an important regulatory role on its E3 ubiquitin ligase activity (Yamamoto et al., 2005).
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出荷温度及び保存条件

製品の状態
Liquid
精製方法
Affinity purification Immunogen
精製に関する特記事項
ab73015 is prepared from rabbit serum by affinity purification via sequential chromatography on phospho- and dephosphopeptide affinity columns.
バッファー組成
pH: 7.5 Constituents: 50% Glycerol (glycerin, glycerine), 0.87% Sodium chloride, 0.238% HEPES, 0.01% BSA
出荷温度
Blue Ice
短期保存温度
+4°C
長期保存温度
-20°C
分注に関する情報
Upon delivery aliquot
保管に関する情報
Avoid freeze / thaw cycle
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補足情報

This supplementary information is collated from multiple sources and compiled automatically.

The Parkin protein also known as PRK8 or Park2 is an E3 ubiquitin ligase with a molecular weight of approximately 52 kDa. This protein plays a critical role in tagging damaged proteins for degradation maintaining cellular health. Parkin is expressed in various tissues with significant levels in dopaminergic neurons in the brain. It is encoded by the PARK2 gene and has been linked to the regulation of mitochondrial quality and autophagy processes contributing to cellular homeostasis.
Biological function summary

Parkin is essential for the regulation of mitochondria through its involvement in the mitochondrial quality control system. It functions as part of a complex with other proteins that respond to mitochondrial damage by tagging them with ubiquitin molecules. This mechanism allows for the removal of defective mitochondria via mitophagy critical for preventing the accumulation of damaged cellular components.

Pathways

Parkin interacts with pathways involved in the cellular stress response particularly the PINK1 (PTEN Induced Kinase

  1. pathway. PINK1 phosphorylates Parkin activating it to label damaged mitochondria. Another critical pathway involves proteasomal degradation where Parkin collaborates with Ubiquitin to manage protein turnover. These pathways highlight its relationships with other cellular stress-regulating proteins enhancing our understanding of its roles in maintaining cellular integrity.
Mutations in the gene coding for Parkin are linked to Parkinson's disease (PD) and some forms of juvenile autosomal recessive parkinsonism. The Parkin protein's dysfunctional activity leads to impaired mitochondrial management and protein aggregation in neurons contributing significantly to neurodegenerative disease. In conditions such as PD Parkin interacts with other proteins such as PINK1 reinforcing its role in mitochondrial protection and indicating the protein's importance in disease progression and potential therapeutic targeting.
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製品プロトコール

For this product, it's our understanding that no specific protocols are required. You can visit:
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ターゲットの情報

Functions within a multiprotein E3 ubiquitin ligase complex, catalyzing the covalent attachment of ubiquitin moieties onto substrate proteins (PubMed : 10888878, PubMed : 10973942, PubMed : 11431533, PubMed : 12150907, PubMed : 12628165, PubMed : 15105460, PubMed : 16135753, PubMed : 21376232, PubMed : 21532592, PubMed : 22396657, PubMed : 23620051, PubMed : 23754282, PubMed : 24660806, PubMed : 24751536, PubMed : 29311685, PubMed : 32047033). Substrates include SYT11 and VDAC1 (PubMed : 29311685, PubMed : 32047033). Other substrates are BCL2, CCNE1, GPR37, RHOT1/MIRO1, MFN1, MFN2, STUB1, SNCAIP, SEPTIN5, TOMM20, USP30, ZNF746, MIRO1 and AIMP2 (PubMed : 10888878, PubMed : 10973942, PubMed : 11431533, PubMed : 12150907, PubMed : 12628165, PubMed : 15105460, PubMed : 16135753, PubMed : 21376232, PubMed : 21532592, PubMed : 22396657, PubMed : 23620051, PubMed : 23754282, PubMed : 24660806, PubMed : 24751536). Mediates monoubiquitination as well as 'Lys-6', 'Lys-11', 'Lys-48'-linked and 'Lys-63'-linked polyubiquitination of substrates depending on the context (PubMed : 19229105, PubMed : 20889974, PubMed : 25474007, PubMed : 25621951, PubMed : 32047033). 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 (PubMed : 17846173, PubMed : 19229105). Mediates 'Lys-63'-linked polyubiquitination of a 22 kDa O-linked glycosylated isoform of SNCAIP, possibly playing a role in Lewy-body formation (PubMed : 11431533, PubMed : 11590439, PubMed : 15105460, PubMed : 15728840, PubMed : 19229105). Mediates monoubiquitination of BCL2, thereby acting as a positive regulator of autophagy (PubMed : 20889974). 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 (PubMed : 11439185, PubMed : 18957282, PubMed : 19029340, PubMed : 19966284, PubMed : 21376232, PubMed : 22082830, PubMed : 22396657, PubMed : 23620051, PubMed : 23933751, PubMed : 24660806, PubMed : 24784582, PubMed : 24896179, PubMed : 25474007, PubMed : 25527291, PubMed : 32047033). 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 (PubMed : 11439185, PubMed : 19029340, PubMed : 19801972, PubMed : 19966284, PubMed : 21376232, PubMed : 22082830, PubMed : 22396657, PubMed : 23620051, PubMed : 23685073, PubMed : 23933751, PubMed : 24896179, PubMed : 25527291, PubMed : 32047033, PubMed : 33499712). Activation and recruitment onto the outer membrane of damaged/dysfunctional mitochondria (OMM) requires PINK1-mediated phosphorylation of both PRKN and ubiquitin (PubMed : 24660806, PubMed : 24784582, PubMed : 25474007, PubMed : 25527291). 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 (PubMed : 27534820, PubMed : 32047033). 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 (PubMed : 19029340, PubMed : 19966284, PubMed : 21753002, PubMed : 22396657, PubMed : 23620051, PubMed : 23685073, PubMed : 23933751, PubMed : 24896179, PubMed : 25527291). Preferentially assembles 'Lys-6'-, 'Lys-11'- and 'Lys-63'-linked polyubiquitin chains, leading to mitophagy (PubMed : 25621951, PubMed : 32047033). 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 (PubMed : 23620051). This prevents the refusion of unhealthy mitochondria with the mitochondrial network or initiates mitochondrial fragmentation facilitating their later engulfment by autophagosomes (PubMed : 23620051). 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 (PubMed : 22396657). 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 (PubMed : 21376232). Limits the production of reactive oxygen species (ROS) (PubMed : 18541373). Regulates cyclin-E during neuronal apoptosis (PubMed : 12628165). In collaboration with CHPF isoform 2, may enhance cell viability and protect cells from oxidative stress (PubMed : 22082830). Independently of its ubiquitin ligase activity, protects from apoptosis by the transcriptional repression of p53/TP53 (PubMed : 19801972). May protect neurons against alpha synuclein toxicity, proteasomal dysfunction, GPR37 accumulation, and kainate-induced excitotoxicity (PubMed : 11439185). May play a role in controlling neurotransmitter trafficking at the presynaptic terminal and in calcium-dependent exocytosis. May represent a tumor suppressor gene (PubMed : 12719539).
See full target information PRKN pS101
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文献 (10)

Recent publications for all applications. Explore the full list and refine your search

Oncology research 33:2421-2434 PubMed40918465

2025

Pyrimethamine Inhibits Human Ovarian Cancer by Triggering Lethal Mitophagy via Activating the p38/JNK/ERK Pathway.

Applications

Unspecified application

Species

Unspecified reactive species

Lingjuan Linghu,Hongying Zhou,Gang Zheng,Tao Yi

European journal of medical research 30:117 PubMed39972514

2025

MEK5-ERK5 pathway mediates mitophagy by regulating Nur77 to promote tumorigenesis of osteosarcoma cells.

Applications

Unspecified application

Species

Unspecified reactive species

Jianshu Wang,Jinxu Xue,Baijing Ma,Yanqi Zhu,Jing Li,Caiping Tian

Scientific reports 15:476 PubMed39747250

2025

MANF overexpression ameliorates oxidative stress-induced apoptosis of human nucleus pulposus cells by facilitating mitophagy through promoting MFN2 expression.

Applications

Unspecified application

Species

Unspecified reactive species

Liang Ma,Xiangyu Meng,Tuerhongjiang Abudurexiti,Yuntao Liu,Jiang Gao,Weibin Sheng

Acta biochimica Polonica 70:533-539 PubMed37672716

2023

Formononetin enhances the chemosensitivity of triple negative breast cancer via BTB domain and CNC homolog 1-mediated mitophagy pathways.

Applications

Unspecified application

Species

Unspecified reactive species

Shan Li,Linlian Zhu,Yufeng He,Ting Sun

BMC musculoskeletal disorders 24:632 PubMed37542244

2023

The worsening of skeletal muscle atrophy induced by immobilization at the early stage of remobilization correlates with BNIP3-dependent mitophagy.

Applications

Unspecified application

Species

Unspecified reactive species

Feng Wang,Ting Zhou,Chen Xu Zhou,Quan Bing Zhang,Hua Wang,Yun Zhou

Acta pharmaceutica Sinica. B 13:4477-4501 PubMed37969736

2023

Miriplatin-loaded liposome, as a novel mitophagy inducer, suppresses pancreatic cancer proliferation through blocking POLG and TFAM-mediated mtDNA replication.

Applications

Unspecified application

Species

Unspecified reactive species

Xiaowei Wang,Mengyan Wang,Meilian Cai,Rongguang Shao,Guimin Xia,Wuli Zhao

International journal of molecular sciences 23: PubMed35008429

2021

IL-25 Induced ROS-Mediated M2 Macrophage Polarization via AMPK-Associated Mitophagy.

Applications

Unspecified application

Species

Unspecified reactive species

Mei-Lan Tsai,Yi-Giien Tsai,Yu-Chih Lin,Ya-Ling Hsu,Yi-Ting Chen,Ming-Kai Tsai,Wei-Ting Liao,Yi-Ching Lin,Chih-Hsing Hung

Bioengineered 12:4983-4994 PubMed34369274

2021

Transferrin receptor-mediated reactive oxygen species promotes ferroptosis of KGN cells via regulating NADPH oxidase 1/PTEN induced kinase 1/acyl-CoA synthetase long chain family member 4 signaling.

Applications

Unspecified application

Species

Unspecified reactive species

Lingzhi Zhang,Fang Wang,Dongmei Li,Yufeng Yan,Hongyan Wang

Experimental and therapeutic medicine 22:814 PubMed34131437

2021

Activation of the NLRC4 inflammasome in renal tubular epithelial cell injury in diabetic nephropathy.

Applications

Unspecified application

Species

Unspecified reactive species

Yulin Wang,Rong Gou,Lu Yu,Liuwei Wang,Zijun Yang,Yanhong Guo,Lin Tang

Cell stress & chaperones 23:749-761 PubMed29470798

2018

NR4A1 contributes to high-fat associated endothelial dysfunction by promoting CaMKII-Parkin-mitophagy pathways.

Applications

Unspecified application

Species

Unspecified reactive species

Pei Li,Yuzhi Bai,Xia Zhao,Tian Tian,Liying Tang,Jing Ru,Yun An,Jing Wang
View all publications
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