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rabbit anti divalent metal transporter 1 dmt1 polyclonal antibody  (Proteintech)


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    Proteintech rabbit anti divalent metal transporter 1 dmt1 polyclonal antibody
    Scheme 1 W-POM NCs for managing intracerebral haemorrhage. Schematic illustration of W-POM NCs inhibiting ferroptosis by modulating the S100A8/ A9-mediated iron metabolism pathway. The nanoclusters targeted oxidative stress and iron dysregulation to manage ICH, demonstrating their potential for neuroprotection and therapeutic efficacy. The figures were created using BioRender.com. ICH, intracerebral haemorrhage; W-POM NCs, tungsten- based polyoxometalate nanoclusters; TFR1, Transferrin Receptor 1; <t>DMT1,</t> <t>Divalent</t> <t>Metal</t> <t>Transporter</t> 1; FPN, Ferroportin; TLR4, Toll-like receptor 4; ROS, Reactive Oxygen Species
    Rabbit Anti Divalent Metal Transporter 1 Dmt1 Polyclonal Antibody, supplied by Proteintech, used in various techniques. Bioz Stars score: 93/100, based on 21 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/rabbit anti divalent metal transporter 1 dmt1 polyclonal antibody/product/Proteintech
    Average 93 stars, based on 21 article reviews
    rabbit anti divalent metal transporter 1 dmt1 polyclonal antibody - by Bioz Stars, 2026-06
    93/100 stars

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    1) Product Images from "Tungsten-based polyoxometalate nanoclusters as ferroptosis inhibitors modulating S100A8/A9-mediated iron metabolism pathway for managing intracerebral haemorrhage."

    Article Title: Tungsten-based polyoxometalate nanoclusters as ferroptosis inhibitors modulating S100A8/A9-mediated iron metabolism pathway for managing intracerebral haemorrhage.

    Journal: Journal of nanobiotechnology

    doi: 10.1186/s12951-025-03149-9

    Scheme 1 W-POM NCs for managing intracerebral haemorrhage. Schematic illustration of W-POM NCs inhibiting ferroptosis by modulating the S100A8/ A9-mediated iron metabolism pathway. The nanoclusters targeted oxidative stress and iron dysregulation to manage ICH, demonstrating their potential for neuroprotection and therapeutic efficacy. The figures were created using BioRender.com. ICH, intracerebral haemorrhage; W-POM NCs, tungsten- based polyoxometalate nanoclusters; TFR1, Transferrin Receptor 1; DMT1, Divalent Metal Transporter 1; FPN, Ferroportin; TLR4, Toll-like receptor 4; ROS, Reactive Oxygen Species
    Figure Legend Snippet: Scheme 1 W-POM NCs for managing intracerebral haemorrhage. Schematic illustration of W-POM NCs inhibiting ferroptosis by modulating the S100A8/ A9-mediated iron metabolism pathway. The nanoclusters targeted oxidative stress and iron dysregulation to manage ICH, demonstrating their potential for neuroprotection and therapeutic efficacy. The figures were created using BioRender.com. ICH, intracerebral haemorrhage; W-POM NCs, tungsten- based polyoxometalate nanoclusters; TFR1, Transferrin Receptor 1; DMT1, Divalent Metal Transporter 1; FPN, Ferroportin; TLR4, Toll-like receptor 4; ROS, Reactive Oxygen Species

    Techniques Used: Drug discovery

    Fig. 5 W-POM NCs inhibit ICH-induced neuroinflammation, oxidative stress and ferroptosis in ICH mice model. (a) Protein expression of iron transport- related proteins (TFR1, FPN, DMT1) assessed using western blot. (b-d) Statistical graph of grayscale values of TFR1, FPN, DMT1 protein expression. (e) Representative TEM images of mitochondrial morphology of the neurons in the perihaematomal area at 72 h after ICH. Red arrows indicate mitochondria. Representative images by Nissl staining (f) and FJB staining (g) in the perihaematomal tissue showing the effects of W-POM NCs on ICH-induced neuronal injury and neurodegeneration. Statistical analysis of Nissl staining (h) and FJB staining (i) results in the perihaematomal tissue. (j) Representative images of immunofluorescent staining for Iba-1 (red) and DAPI (blue) in the perihaematomal area at 72 h after ICH. (l) Quantitative analyses of Iba-1 positive cells in the perihaematomal area at 72 h after ICH. (k) Representative images of immunofluorescent staining for GFAP (red) and DAPI (blue) in the perihaemato mal area at 72 h after ICH. (m) Quantitative analyses of GFAP-positive cells in the perihaematomal area at 72 h after ICH. (*P < 0.05, **P < 0.01, ***P < 0.001, means ± SEM). ICH, intracerebral haemorrhage; TEM, transmission electron microscopy; W-POM NCs, tungsten-based polyoxometalate nanoclusters; TFR1, transferrin receptor 1; DMT1, divalent metal transporter 1; FPN, ferroportin
    Figure Legend Snippet: Fig. 5 W-POM NCs inhibit ICH-induced neuroinflammation, oxidative stress and ferroptosis in ICH mice model. (a) Protein expression of iron transport- related proteins (TFR1, FPN, DMT1) assessed using western blot. (b-d) Statistical graph of grayscale values of TFR1, FPN, DMT1 protein expression. (e) Representative TEM images of mitochondrial morphology of the neurons in the perihaematomal area at 72 h after ICH. Red arrows indicate mitochondria. Representative images by Nissl staining (f) and FJB staining (g) in the perihaematomal tissue showing the effects of W-POM NCs on ICH-induced neuronal injury and neurodegeneration. Statistical analysis of Nissl staining (h) and FJB staining (i) results in the perihaematomal tissue. (j) Representative images of immunofluorescent staining for Iba-1 (red) and DAPI (blue) in the perihaematomal area at 72 h after ICH. (l) Quantitative analyses of Iba-1 positive cells in the perihaematomal area at 72 h after ICH. (k) Representative images of immunofluorescent staining for GFAP (red) and DAPI (blue) in the perihaemato mal area at 72 h after ICH. (m) Quantitative analyses of GFAP-positive cells in the perihaematomal area at 72 h after ICH. (*P < 0.05, **P < 0.01, ***P < 0.001, means ± SEM). ICH, intracerebral haemorrhage; TEM, transmission electron microscopy; W-POM NCs, tungsten-based polyoxometalate nanoclusters; TFR1, transferrin receptor 1; DMT1, divalent metal transporter 1; FPN, ferroportin

    Techniques Used: Expressing, Western Blot, Staining, Transmission Assay, Electron Microscopy



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    Scheme 1 W-POM NCs for managing intracerebral haemorrhage. Schematic illustration of W-POM NCs inhibiting ferroptosis by modulating the S100A8/ A9-mediated iron metabolism pathway. The nanoclusters targeted oxidative stress and iron dysregulation to manage ICH, demonstrating their potential for neuroprotection and therapeutic efficacy. The figures were created using BioRender.com. ICH, intracerebral haemorrhage; W-POM NCs, tungsten- based polyoxometalate nanoclusters; TFR1, Transferrin Receptor 1; <t>DMT1,</t> <t>Divalent</t> <t>Metal</t> <t>Transporter</t> 1; FPN, Ferroportin; TLR4, Toll-like receptor 4; ROS, Reactive Oxygen Species
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    Image Search Results


    Scheme 1 W-POM NCs for managing intracerebral haemorrhage. Schematic illustration of W-POM NCs inhibiting ferroptosis by modulating the S100A8/ A9-mediated iron metabolism pathway. The nanoclusters targeted oxidative stress and iron dysregulation to manage ICH, demonstrating their potential for neuroprotection and therapeutic efficacy. The figures were created using BioRender.com. ICH, intracerebral haemorrhage; W-POM NCs, tungsten- based polyoxometalate nanoclusters; TFR1, Transferrin Receptor 1; DMT1, Divalent Metal Transporter 1; FPN, Ferroportin; TLR4, Toll-like receptor 4; ROS, Reactive Oxygen Species

    Journal: Journal of nanobiotechnology

    Article Title: Tungsten-based polyoxometalate nanoclusters as ferroptosis inhibitors modulating S100A8/A9-mediated iron metabolism pathway for managing intracerebral haemorrhage.

    doi: 10.1186/s12951-025-03149-9

    Figure Lengend Snippet: Scheme 1 W-POM NCs for managing intracerebral haemorrhage. Schematic illustration of W-POM NCs inhibiting ferroptosis by modulating the S100A8/ A9-mediated iron metabolism pathway. The nanoclusters targeted oxidative stress and iron dysregulation to manage ICH, demonstrating their potential for neuroprotection and therapeutic efficacy. The figures were created using BioRender.com. ICH, intracerebral haemorrhage; W-POM NCs, tungsten- based polyoxometalate nanoclusters; TFR1, Transferrin Receptor 1; DMT1, Divalent Metal Transporter 1; FPN, Ferroportin; TLR4, Toll-like receptor 4; ROS, Reactive Oxygen Species

    Article Snippet: The following primary antibodies were detected via WB: rabbit anti-transferrin receptor 1 (TFR1) polyclonal antibody (1:1000, AF5343, Affbiotech, China), rabbit anti-FPN polyclonal antibody (1:1000, NBP1-21502, Novus, US), rabbit anti-divalent metal transporter 1 (DMT1) polyclonal antibody (1:1000, 20507-1-AP, Proteintech, US), rabbit anti-S100A8/ A9 monoclonal antibody (1:1000, ab288715, Abcam, UK), rabbit anti-hepcidin monoclonal antibody (1:200, ab190775, Abcam, UK), anti-TLR4 polyclonal antibody (1:1000, AF7017, Affbiotech, China).

    Techniques: Drug discovery

    Fig. 5 W-POM NCs inhibit ICH-induced neuroinflammation, oxidative stress and ferroptosis in ICH mice model. (a) Protein expression of iron transport- related proteins (TFR1, FPN, DMT1) assessed using western blot. (b-d) Statistical graph of grayscale values of TFR1, FPN, DMT1 protein expression. (e) Representative TEM images of mitochondrial morphology of the neurons in the perihaematomal area at 72 h after ICH. Red arrows indicate mitochondria. Representative images by Nissl staining (f) and FJB staining (g) in the perihaematomal tissue showing the effects of W-POM NCs on ICH-induced neuronal injury and neurodegeneration. Statistical analysis of Nissl staining (h) and FJB staining (i) results in the perihaematomal tissue. (j) Representative images of immunofluorescent staining for Iba-1 (red) and DAPI (blue) in the perihaematomal area at 72 h after ICH. (l) Quantitative analyses of Iba-1 positive cells in the perihaematomal area at 72 h after ICH. (k) Representative images of immunofluorescent staining for GFAP (red) and DAPI (blue) in the perihaemato mal area at 72 h after ICH. (m) Quantitative analyses of GFAP-positive cells in the perihaematomal area at 72 h after ICH. (*P < 0.05, **P < 0.01, ***P < 0.001, means ± SEM). ICH, intracerebral haemorrhage; TEM, transmission electron microscopy; W-POM NCs, tungsten-based polyoxometalate nanoclusters; TFR1, transferrin receptor 1; DMT1, divalent metal transporter 1; FPN, ferroportin

    Journal: Journal of nanobiotechnology

    Article Title: Tungsten-based polyoxometalate nanoclusters as ferroptosis inhibitors modulating S100A8/A9-mediated iron metabolism pathway for managing intracerebral haemorrhage.

    doi: 10.1186/s12951-025-03149-9

    Figure Lengend Snippet: Fig. 5 W-POM NCs inhibit ICH-induced neuroinflammation, oxidative stress and ferroptosis in ICH mice model. (a) Protein expression of iron transport- related proteins (TFR1, FPN, DMT1) assessed using western blot. (b-d) Statistical graph of grayscale values of TFR1, FPN, DMT1 protein expression. (e) Representative TEM images of mitochondrial morphology of the neurons in the perihaematomal area at 72 h after ICH. Red arrows indicate mitochondria. Representative images by Nissl staining (f) and FJB staining (g) in the perihaematomal tissue showing the effects of W-POM NCs on ICH-induced neuronal injury and neurodegeneration. Statistical analysis of Nissl staining (h) and FJB staining (i) results in the perihaematomal tissue. (j) Representative images of immunofluorescent staining for Iba-1 (red) and DAPI (blue) in the perihaematomal area at 72 h after ICH. (l) Quantitative analyses of Iba-1 positive cells in the perihaematomal area at 72 h after ICH. (k) Representative images of immunofluorescent staining for GFAP (red) and DAPI (blue) in the perihaemato mal area at 72 h after ICH. (m) Quantitative analyses of GFAP-positive cells in the perihaematomal area at 72 h after ICH. (*P < 0.05, **P < 0.01, ***P < 0.001, means ± SEM). ICH, intracerebral haemorrhage; TEM, transmission electron microscopy; W-POM NCs, tungsten-based polyoxometalate nanoclusters; TFR1, transferrin receptor 1; DMT1, divalent metal transporter 1; FPN, ferroportin

    Article Snippet: The following primary antibodies were detected via WB: rabbit anti-transferrin receptor 1 (TFR1) polyclonal antibody (1:1000, AF5343, Affbiotech, China), rabbit anti-FPN polyclonal antibody (1:1000, NBP1-21502, Novus, US), rabbit anti-divalent metal transporter 1 (DMT1) polyclonal antibody (1:1000, 20507-1-AP, Proteintech, US), rabbit anti-S100A8/ A9 monoclonal antibody (1:1000, ab288715, Abcam, UK), rabbit anti-hepcidin monoclonal antibody (1:200, ab190775, Abcam, UK), anti-TLR4 polyclonal antibody (1:1000, AF7017, Affbiotech, China).

    Techniques: Expressing, Western Blot, Staining, Transmission Assay, Electron Microscopy