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AB9179

Anti-Transferrin Receptor antibody [MEM-75]

5

(1 Review)

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(13 Publications)

Mouse Monoclonal Transferrin Receptor antibody. Suitable for ICC/IF, Flow Cyt and reacts with Human samples. Cited in 13 publications. Immunogen corresponding to Cell preparation containing TFRC protein.

View Alternative Names

CD71, Transferrin receptor protein 1, TR, TfR, TfR1, Trfr, T9, p90, TFRC

4 Images
Flow Cytometry - Anti-Transferrin Receptor antibody [MEM-75] (AB9179)
  • Flow Cyt

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Flow Cytometry - Anti-Transferrin Receptor antibody [MEM-75] (AB9179)

Overlay histogram showing Jurkat cells stained with ab9179 (red line). The cells were fixed with 4% paraformaldehyde (10 min) and then permeabilized with 0.1% PBS-Tween for 20 min. The cells were then incubated in 1x PBS / 10% normal goat serum / 0.3M glycine to block non-specific protein-protein interactions followed by the antibody (ab9179, 1μg/1x106 cells) for 30 min at 22°C. The secondary antibody used was DyLight® 488 goat anti-mouse IgG (H+L) (ab96879) at 1/500 dilution for 30 min at 22°C. Isotype control antibody (black line) was mouse IgG1 [ICIGG1] (2μg/1x106 cells) used under the same conditions. Acquisition of >5,000 events was performed. This antibody gave a diminished signal in Jurkat cells fixed with methanol (5 min)/permeabilized with 0.1% PBS-Tween used under the same conditions.

Immunocytochemistry - Anti-Transferrin Receptor antibody [MEM-75] (AB9179)
  • ICC

Lab

Immunocytochemistry - Anti-Transferrin Receptor antibody [MEM-75] (AB9179)

ab9179 stained DU145 cells. The cells were 4% formaldehyde fixed (10 min) and then incubated in 1%BSA / 10% normal goat serum / 0.3M glycine in 0.1% PBS-Tween for 1h to permeabilise the cells and block non-specific protein-protein interactions. The cells were then incubated with the antibody ab9179 at 5μg/ml overnight at +4°C. The secondary antibody (green) was DyLight® 488 goat anti- mouse (ab96879) IgG (H+L) used at a 1/1000 dilution for 1h. Alexa Fluor® 594 WGA was used to label plasma membranes (red) at a 1/200 dilution for 1h. DAPI was used to stain the cell nuclei (blue) at a concentration of 1.43μM.

Immunocytochemistry/ Immunofluorescence - Anti-Transferrin Receptor antibody [MEM-75] (AB9179)
  • ICC/IF

Unknown

Immunocytochemistry/ Immunofluorescence - Anti-Transferrin Receptor antibody [MEM-75] (AB9179)

Immunocytochemistry staining of CD71 in human HeLa cell line using anti-CD71 (green). Actin cytoskeleton decorated by phalloidin (red) and cell nuclei stained with DAPI (blue).

Flow Cytometry - Anti-Transferrin Receptor antibody [MEM-75] (AB9179)
  • Flow Cyt

Supplier Data

Flow Cytometry - Anti-Transferrin Receptor antibody [MEM-75] (AB9179)

Flow cytometric analysis of Human PHA stimulated Peripheral Blood cells labelling Transferrin Receptor with ab9179 at 0.56 ug/ml showing separation of human CD3 positive CD71 positive lymphocytes (red-filled) from CD3 negative CD71 negative lymphocytes (black-dashed).

  • 519 FITC

    FITC Anti-Transferrin Receptor antibody [MEM-75]

  • Biotin

    Biotin Anti-Transferrin Receptor antibody [MEM-75]

  • 660 APC

    APC Anti-Transferrin Receptor antibody [MEM-75]

  • 723 Alexa Fluor® 700

    Alexa Fluor® 700 Anti-Transferrin Receptor antibody [MEM-75]

  • 785 APC/Cy7®

    APC/Cy7® Anti-Transferrin Receptor antibody [MEM-75]

  • 578 PE

    PE Anti-Transferrin Receptor antibody [MEM-75]

Key facts

Host species

Mouse

Clonality

Monoclonal

Clone number

MEM-75

Isotype

IgG1

Light chain type

kappa

Carrier free

No

Reacts with

Human

Applications

ICC/IF, Flow Cyt

applications

Immunogen

Cell preparation containing TFRC protein. The exact immunogen used to generate this antibody is proprietary information.

P02786

Specificity

Human CD71 (transferrin receptor). This antibody does not block the binding of transferrin to the receptor.

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Reactivity data

{ "title": "Reactivity Data", "filters": { "stats": ["", "Species", "Dilution Info", "Notes"], "tabs": { "all-applications": {"fullname" : "All Applications", "shortname": "All Applications"}, "ICCIF" : {"fullname" : "Immunocytochemistry/ Immunofluorescence", "shortname":"ICC/IF"}, "FlowCyt" : {"fullname" : "Flow Cytometry", "shortname":"Flow Cyt"} }, "product-promise": { "all": "all", "testedAndGuaranteed": "tested", "guaranteed": "expected", "predicted": "predicted", "notRecommended": "not-recommended" } }, "values": { "Human": { "ICCIF-species-checked": "testedAndGuaranteed", "ICCIF-species-dilution-info": "", "ICCIF-species-notes": "<p></p>", "FlowCyt-species-checked": "testedAndGuaranteed", "FlowCyt-species-dilution-info": "1 µg for 10^6 Cells", "FlowCyt-species-notes": "<p><a href='/en-us/products/primary-antibodies/mouse-igg1-kappa-monoclonal-15-6e10a7-isotype-control-ab170190'>ab170190</a> - Mouse monoclonal IgG1, is suitable for use as an isotype control with this antibody.</p>" } } }
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Product details

This product was changed from ascites to tissue culture supernatant on 24th January 2018. Please note that the dilutions may need to be adjusted accordingly. If you have any questions, please do not hesitate to contact our scientific support team.
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Properties and storage information

Form
Liquid
Purification technique
Affinity purification Protein A
Purification notes
Purified from TCS. Purity >95% by SDS-PAGE.
Storage buffer
pH: 8 Preservative: 0.097% Sodium azide Constituents: PBS
Shipped at conditions
Blue Ice
Appropriate short-term storage duration
1-2 weeks
Appropriate short-term storage conditions
+4°C
Appropriate long-term storage conditions
-20°C
Aliquoting information
Upon delivery aliquot
Storage information
Avoid freeze / thaw cycle
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Supplementary information

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

The transferrin receptor commonly referred to as TfR or CD71 is an integral membrane protein that facilitates the uptake of transferrin-bound iron into cells. This receptor has a molecular weight of around 95 kDa and often exists as a homodimer on the cell surface. It is widely expressed in many tissues especially in erythroid precursors and rapidly dividing cells. Alternate names for this receptor include TfR1 and TfR2 though they have distinct roles and distributions. Other transmembrane proteins like OX26 and MEM have been studied in relation to the transferrin receptor due to their involvement in drug delivery.
Biological function summary

TfR plays a critical role in iron homeostasis by mediating the internalization of transferrin and release of iron in the endosomes. It operates as part of the transferrin-transferrin receptor complex facilitating iron assimilation necessary for DNA synthesis and cell growth. Iron release involves acidifying endosomes allowing transferrin to bind with specific cellular receptors including alternate forms like beta 2 transferrin. The process subsequently contributes to erythropoiesis and various metabolic processes by regulating essential cellular iron levels.

Pathways

The transferrin receptor is central to iron metabolism and the receptor-mediated endocytosis pathway. It tightly interacts with transferrin and intracellular pathways process the iron released from transferrin within endosomes. The receptor's role in this pathway involves a dynamic with other proteins such as HFE and hepcidin. These interactions help control systemic iron levels linking closely to the maintenance of erythroid cell health and proliferation.

Disruptions in transferrin receptor function correlate with anemia and neurodegenerative disorders. In anemia related to iron deficiency impaired TfR activity reduces iron uptake culminating in insufficient erythropoiesis. Altered receptor expression or function also connects to neurological diseases like Alzheimer's where iron dysregulation is a concern. Here the transferrin receptor interacts with proteins like Amyloid precursor protein contributing to disease pathology through improper metal homeostasis.
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Product protocols

For this product, it's our understanding that no specific protocols are required. You can visit:
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Target data

The protein expressed by the gene TFRC is involved in the cellular uptake of iron via receptor-mediated endocytosis, where the transferrin receptor, bound to its ligand, is internalized into specialized endosomes. Following endosomal acidification, iron is released, and the apotransferrin-receptor complex is recycled to the cell surface, where a return to neutral pH results in the loss of apotransferrin's affinity for its receptor. The hereditary hemochromatosis protein HFE competes with transferrin for binding at an overlapping C-terminal site. TFRC positively regulates T and B cell proliferation through iron uptake. It functions as a lipid sensor influencing mitochondrial fusion by modulating the JNK pathway activity. Low dietary levels of stearate promote JNK pathway activation, leading to HUWE1-mediated ubiquitination and degradation of the mitofusin MFN2, inhibiting mitochondrial fusion. High dietary stearate levels result in TFRC stearoylation, which inhibits JNK pathway activation and MFN2 degradation. Additionally, TFRC acts as a receptor for new-world arenaviruses, including Guanarito, Junin, and Machupo viruses. This supplementary information is collated from multiple sources and compiled automatically.
See full target information TFRC
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Publications (13)

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

NPJ Regenerative medicine 8:46 PubMed37626061

2023

Ferric citrate and apo-transferrin enable erythroblast maturation with β-globin from hemogenic endothelium.

Applications

Unspecified application

Species

Unspecified reactive species

Soo-Been Jeon,Hyebin Koh,A-Reum Han,Jieun Kim,Sunghun Lee,Jae-Ho Lee,Seung-Soon Im,Young-Sup Yoon,Jong-Hee Lee,Ji Yoon Lee

Cell proliferation 56:e13366 PubMed36478274

2022

CD34 cells identified as pluripotent stem cell-derived definitive hemogenic endothelium purified using bone morphogenetic protein 4.

Applications

Unspecified application

Species

Unspecified reactive species

Soo-Been Jeon,A-Reum Han,Sunghun Lee,Seung Chan Lee,Min Ji Lee,Soon-Jung Park,Sung-Hwan Moon,Ji Yoon Lee

Biology 11: PubMed36009820

2022

Differential Radiosensitizing Effect of 50 nm Gold Nanoparticles in Two Cancer Cell Lines.

Applications

Unspecified application

Species

Unspecified reactive species

Miguel Ángel Pérez-Amor,Leonardo Barrios,Gemma Armengol,Joan Francesc Barquinero

European journal of medical research 26:93 PubMed34391478

2021

Dickkopf-related protein 3 alters aerobic glycolysis in pancreatic cancer BxPC-3 cells, promoting CD4 T-cell activation and function.

Applications

Unspecified application

Species

Unspecified reactive species

Qingqu Guo,Yiming Chu,Hongbo Li,Dike Shi,Lele Lin,Weifeng Lan,Dan Wu

Nature communications 10:2621 PubMed31197168

2019

Hypoxia-enhanced Blood-Brain Barrier Chip recapitulates human barrier function and shuttling of drugs and antibodies.

Applications

Unspecified application

Species

Unspecified reactive species

Tae-Eun Park,Nur Mustafaoglu,Anna Herland,Ryan Hasselkus,Robert Mannix,Edward A FitzGerald,Rachelle Prantil-Baun,Alexander Watters,Olivier Henry,Maximilian Benz,Henry Sanchez,Heather J McCrea,Liliana Christova Goumnerova,Hannah W Song,Sean P Palecek,Eric Shusta,Donald E Ingber

Journal of virology 92: PubMed29212940

2018

HIV-1 Envelope Glycoprotein Trafficking through the Endosomal Recycling Compartment Is Required for Particle Incorporation.

Applications

Unspecified application

Species

Unspecified reactive species

Junghwa Kirschman,Mingli Qi,Lingmei Ding,Jason Hammonds,Krista Dienger-Stambaugh,Jaang-Jiun Wang,Lynne A Lapierre,James R Goldenring,Paul Spearman

Oncotarget 7:58286-58301 PubMed27506940

2016

Aberrant DR5 transport through disruption of lysosomal function suggests a novel mechanism for receptor activation.

Applications

Unspecified application

Species

Unspecified reactive species

Birce Akpinar,Barbora Safarikova,Jarmila Laukova,Shubhranshu Debnath,Alena Hyrslova Vaculova,Boris Zhivotovsky,Magnus Olsson

PloS one 9:e96340 PubMed24788759

2014

A human blood-brain barrier transcytosis assay reveals antibody transcytosis influenced by pH-dependent receptor binding.

Applications

Unspecified application

Species

Unspecified reactive species

Hadassah Sade,Claudia Baumgartner,Adrian Hugenmatter,Ekkehard Moessner,Per-Ola Freskgård,Jens Niewoehner

Nature nanotechnology 8:137-43 PubMed23334168

2013

Transferrin-functionalized nanoparticles lose their targeting capabilities when a biomolecule corona adsorbs on the surface.

Applications

Unspecified application

Species

Unspecified reactive species

Anna Salvati,Andrzej S Pitek,Marco P Monopoli,Kanlaya Prapainop,Francesca Baldelli Bombelli,Delyan R Hristov,Philip M Kelly,Christoffer Åberg,Eugene Mahon,Kenneth A Dawson

Proceedings of the National Academy of Sciences of 109:12485-90 PubMed22802617

2012

Dopamine receptor D3 regulates endocytic sorting by a Prazosin-sensitive interaction with the coatomer COPI.

Applications

ICC/IF

Species

Human

Xin Zhang,Wenchao Wang,Anne V Bedigian,Margaret L Coughlin,Timothy J Mitchison,Ulrike S Eggert
View all publications
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