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  • mProX™ Human DRD5 Stable Cell Line

    [CAT#: S01YF-0923-PY63]
    Product Category:
    Membrane Protein Stable Cell Lines
    Subcategory:
    GPCR Cell Lines

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    Based on this stable cell line, we also provide cell-based in vitro assays to evaluate the effects of your compounds or antibodies.

    Sub Cat Product Name Target Protein Species Host Cell Type Assay Types Inquiry Datasheet
    S01YF-1122-KX416 Magic™ Rat DRD5 in Vitro cAMP Assay Rat CHO-K1 cAMP Assay

    Product Information

    Target Protein
    DRD5
    Target Family
    Dopamine Family
    Target Protein Species
    Human
    Host Cell Type
    HeLa;CHO-K1;HEK293
    Target Classification
    GPCR Cell Lines
    Target Research Area
    CNS Research
    Related Diseases
    Blepharospasm, Benign Essential;Attention Deficit-Hyperactivity Disorder
    Gene ID
    Human: 1816
    UniProt ID
    Human: P21918

    Product Properties

    Biosafety Level
    Level 1
    Activity
    Yes
    Quantity
    10⁶ cells per vial
    Applications
    The Dopamine Receptor D5 (DRD5) is another critical component of the dopamine system. It has been associated with various physiological and pathological processes. For instance, research has shown that DA-DRD5 signaling can control colitis by regulating M1/M2 macrophage polarization. Another study highlighted the potential of DRD5 in suppressing systemic inflammation through a specific signaling axis. Furthermore, the hypermethylation of the DRD5 promoter has been identified as a potential biomarker across different cancer types. The diverse roles of DRD5 in health and disease underscore its importance in scientific research and its potential therapeutic applications.

    Protocols

    Please visit our protocols page.

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    There are currently no Customer reviews or questions for mProX™ Human DRD5 Stable Cell Line (S01YF-0923-PY63). Click the button above to contact us or submit your feedback about this product.

    FAQ

    chat Sarah (Verified Customer)

    What role does DRD5 play in scientific research? Dec 26 2022

    chat Patrick Liam (Creative Biolabs Scientific Support)

    DRD5, or dopamine receptor D5, is another critical receptor in the dopamine system. It has been associated with various physiological and pathological processes. For instance, a relationship has been observed between the DRD5 VNTR polymorphism and paranoid personality disorder, suggesting a monoaminergic basis for certain personality disorders. Additionally, DRD5 has been implicated in the regulation of macrophage polarization, influencing inflammatory responses and potentially playing a role in conditions like colitis. Dec 26 2022

    chat Deborah (Verified Customer)

    How does DRD5 impact cancer research? Mar 05 2022

    chat Patrick Liam (Creative Biolabs Scientific Support)

    Recent studies have highlighted the role of DRD5 in tumor growth and the Warburg effect in esophageal cancer. The dopamine pathway mediated by DRD5 has been shown to influence the tumor immune microenvironment, offering potential therapeutic targets for metastatic cancers. Understanding the role of DRD5 in cancer can pave the way for novel therapeutic strategies and better patient outcomes. Mar 05 2022

    Published Data

    Fig.1 DRD5 knockdown promote autophagic flux.

    In HeLa cells with stable DRD5-GFP-3FLAG expression, autophagic flux was assessed by combining DRD5 RNAi with autophagy inhibitors (CQ, 40 μM) over a 2-hour period. Nonspecific bands are denoted by asterisks (*). The experiment was replicated a minimum of three times, and representative Western blots were presented. Densitometric analysis was conducted, and quantification results are indicated beneath the respective blots or in separate panels, with significance levels denoted as * p < 0.05 and ** p < 0.01.

    Ref: Wang, Dongmei, et al. "Dopamine receptor subtypes differentially regulate autophagy." International journal of molecular sciences 19.5 (2018): 1540.

    Pubmed: 29786666

    DOI: 10.3390/ijms19051540

    Research Highlights

    Ye W, et al. "Transcriptome analysis revealed the existence of family-specific regulation of ." Genomics, 2023.
    In this study, the authors investigated the role of ahsg2 and other genes in regulating the growth of grass carp. By analyzing genetic data from zebrafish and conducting further research on grass carp families, the researchers found that the effects of ahsg2 on growth vary among individuals. They also identified specific genetic pathways that may contribute to the growth differences observed in the FF and SS families. This novel study sheds light on the genetic mechanisms underlying grass carp growth and provides valuable insight into nutrient metabolism and brain development.
    Pubmed: 37714387   DOI: 10.1016/j.ygeno.2023.110706

    Polzin BJ, et al. "Distinct patterns of gene expression in the medial preoptic area are related to ." BMC neuroscience, 2023.
    The study focused on gregarious song, a social behavior performed by adult European starlings (Sturnus vulgaris) and facilitated by a low-stress, positive affective state. The role of the medial preoptic area (mPOA) in the production of gregarious song was investigated, specifically examining the potential involvement of neurotransmitter, neuromodulator, and hormonal pathways. RNA sequencing was used to identify differentially expressed genes in the mPOA of male and female starlings who sang at high rates. Results showed an association between dopaminergic, cholinergic, and GABAergic systems and gregarious song, as well as co-expressing gene clusters related to glutamate signaling. Of note, two genes (GRIN1 and SHANK2) were positively correlated with the performance of gregarious song. This research provides valuable insights into the neurochemical mechanisms involved in gregarious social interactions in starlings and may have implications for understanding similar behaviors in other vertebrate species. Data from this study can also be used by other researchers to compare and identify conserved systems regulating social behavior across species.
    Pubmed: 37537543   DOI: 10.1186/s12868-023-00813-4

    Please note: All products are "FOR RESEARCH USE ONLY. NOT FOR USE IN DIAGNOSTIC OR CLINICAL PROCEDURES" For licensing inquiries, please contact
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