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Mouse FoxC2 Antibody

Catalog #: AF6989
27 Citations Datasheet / COA / SDS
Catalog # Availability Size / Price Qty
AF6989
AF6989-SP
FoxC2 in Mouse Embryo.
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Product Details
Citations (27)
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Mouse FoxC2 Antibody Summary

Species Reactivity
Mouse
Specificity
Detects mouse FoxC2 in direct ELISAs. In direct ELISAs, approximately 50% cross-reactivity with recombinant human (rh) FoxC2 is observed and less than 3% cross-reactivity with rhFoxF2 is observed.
Source
Polyclonal Sheep IgG
Purification
Antigen Affinity-purified
Immunogen
E. coli-derived recombinant mouse FoxC2
Ala412-Tyr494
Accession # Q61850
Formulation
Lyophilized from a 0.2 μm filtered solution in PBS with Trehalose. *Small pack size (SP) is supplied either lyophilized or as a 0.2 µm filtered solution in PBS.

Applications

Recommended Concentration
Sample
Immunohistochemistry
5-15 µg/mL
See below

Please Note: Optimal dilutions should be determined by each laboratory for each application. General Protocols are available in the Technical Information section on our website.

Scientific Data

Immunohistochemistry FoxC2 antibody in Mouse Embryo by Immunohistochemistry (IHC-Fr). View Larger

FoxC2 in Mouse Embryo. FoxC2 was detected in immersion fixed frozen sections of mouse embryo (E15.5) using Sheep Anti-Mouse FoxC2 Antigen Affinity-purified Polyclonal Antibody (Catalog # AF6989) at 10 µg/mL overnight at 4 °C. Tissue was stained using the NorthernLights™ 557-conjugated Anti-Sheep IgG Secondary Antibody (red; Catalog # NL010) and counterstained with DAPI (blue). Specific staining was localized to periocular mesenchyme. View our protocol for Fluorescent IHC Staining of Frozen Tissue Sections.

Immunohistochemistry Detection of Mouse Mouse FoxC2 Antibody by Immunohistochemistry View Larger

Detection of Mouse Mouse FoxC2 Antibody by Immunohistochemistry YAP and TAZ are required for the maintenance of LVs. The lymphatic vessels in the dorsal skin of E16.5 and E18.5 control and Lyve1-Cre;Yapf/f;Tazf/f embryos were analyzed by whole-mount immunohistochemistry. (A,B) LVs were observed in the collecting lymphatic vessels of E16.5 control and Lyve1-Cre;Yapf/f;Tazf/f embryos (arrows). (C,D) The migrating front of E16.5 control (C) and Lyve1-Cre;Yapf/f;Tazf/f (D) embryos appeared comparable. (E-G) At E18.5, the lymphatic vessels from the left and right sides have merged to form a network in control embryos (E). In contrast, huge gaps were observed in between the migrating fronts of E18.5 Lyve1-Cre;Yapf/f;Tazf/f embryos (F, magenta lines). The lymphatic vessels of mutant embryos were also dilated. The distance between the migrating fronts and the diameter of vessels are quantified in G. (H,I) LVs were observed in the collecting lymphatic vessels of E18.5 control embryos (H, yellow arrows). In contrast, the dilated lymphatic vessels of E18.5 Lyve1-Cre;Yapf/f;Tazf/f embryos lacked LVs (I). The various parameters of lymphatic vascular patterning were quantified and are plotted in G. n=4 embryos per each genotype. ****P<0.0001. Data are mean±s.e.m. Scale bars: 200 µm in A-D; 500 µm in E,F; 200 µm in H,I. Image collected and cropped by CiteAb from the following publication (https://pubmed.ncbi.nlm.nih.gov/33060128), licensed under a CC-BY license. Not internally tested by R&D Systems.

Immunohistochemistry Detection of Mouse Mouse FoxC2 Antibody by Immunohistochemistry View Larger

Detection of Mouse Mouse FoxC2 Antibody by Immunohistochemistry YAP and TAZ are required for the maintenance of LVs. The lymphatic vessels in the dorsal skin of E16.5 and E18.5 control and Lyve1-Cre;Yapf/f;Tazf/f embryos were analyzed by whole-mount immunohistochemistry. (A,B) LVs were observed in the collecting lymphatic vessels of E16.5 control and Lyve1-Cre;Yapf/f;Tazf/f embryos (arrows). (C,D) The migrating front of E16.5 control (C) and Lyve1-Cre;Yapf/f;Tazf/f (D) embryos appeared comparable. (E-G) At E18.5, the lymphatic vessels from the left and right sides have merged to form a network in control embryos (E). In contrast, huge gaps were observed in between the migrating fronts of E18.5 Lyve1-Cre;Yapf/f;Tazf/f embryos (F, magenta lines). The lymphatic vessels of mutant embryos were also dilated. The distance between the migrating fronts and the diameter of vessels are quantified in G. (H,I) LVs were observed in the collecting lymphatic vessels of E18.5 control embryos (H, yellow arrows). In contrast, the dilated lymphatic vessels of E18.5 Lyve1-Cre;Yapf/f;Tazf/f embryos lacked LVs (I). The various parameters of lymphatic vascular patterning were quantified and are plotted in G. n=4 embryos per each genotype. ****P<0.0001. Data are mean±s.e.m. Scale bars: 200 µm in A-D; 500 µm in E,F; 200 µm in H,I. Image collected and cropped by CiteAb from the following publication (https://pubmed.ncbi.nlm.nih.gov/33060128), licensed under a CC-BY license. Not internally tested by R&D Systems.

Reconstitution Calculator

Reconstitution Calculator

The reconstitution calculator allows you to quickly calculate the volume of a reagent to reconstitute your vial. Simply enter the mass of reagent and the target concentration and the calculator will determine the rest.

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Preparation and Storage

Reconstitution
Sterile PBS to a final concentration of 0.2 mg/mL.
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Shipping
Lyophilized product is shipped at ambient temperature. Liquid small pack size (-SP) is shipped with polar packs. Upon receipt, store immediately at the temperature recommended below.
Stability & Storage
Use a manual defrost freezer and avoid repeated freeze-thaw cycles.
  • 12 months from date of receipt, -20 to -70 °C as supplied.
  • 1 month, 2 to 8 °C under sterile conditions after reconstitution.
  • 6 months, -20 to -70 °C under sterile conditions after reconstitution.

Background: FoxC2

FOXC2 (Forkhead box protein C2; also BF-3, FKH-14 and MFH-1) is a 64-66 kDa member of the winged helix transcription factor gene family. It is widely expressed, including in endothelium where it induces the appearance of CXCR4 and integrin beta 3, two molecules essential to cell migration. High-calorie diets also induce FOXC2 in adipocytes, inducing a brown-fat like phenotype. Mouse FOXC2 is 494 amino acids (aa) in length. It contains a forkhead DNA binding domain (aa 71-148), a short poly-Arg segment (aa 162-166), one His-rich region (aa 386-395) and an Ala/Pro-rich domain (aa 396-415). There are seven potential Ser/Thr phosphorylation sites. Over aa 412-494, mouse FOXC2 shares 99% and 87% aa identity with rat and human FOXC2, respectively.

Long Name
Forkhead Box C2
Entrez Gene IDs
2303 (Human); 14234 (Mouse)
Alternate Names
Fkh14; FKHL14LD; forkhead box C2 (MFH-1, mesenchyme forkhead 1); forkhead, Drosophila, homolog-like 14; Forkhead-related protein FKHL14; FoxC2; LD; Mesenchyme fork head protein 1; mesenchyme forkhead 1; MFH-1 protein; MFH1; MFH-1; MFH1forkhead box protein C2; Transcription factor FKH-14

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Citations for Mouse FoxC2 Antibody

R&D Systems personnel manually curate a database that contains references using R&D Systems products. The data collected includes not only links to publications in PubMed, but also provides information about sample types, species, and experimental conditions.

27 Citations: Showing 1 - 10
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  1. EphrinB2-EphB4 signalling provides Rho-mediated homeostatic control of lymphatic endothelial cell junction integrity
    Authors: Maike Frye, Simon Stritt, Henrik Ortsäter, Magda Hernandez Vasquez, Mika Kaakinen, Andres Vicente et al.
    eLife
  2. Human venous valve disease caused by mutations in FOXC2 and GJC2
    Authors: Oliver Lyons, Prakash Saha, Christopher Seet, Adam Kuchta, Andrew Arnold, Steven Grover et al.
    Journal of Experimental Medicine
  3. Spatial Transcriptional Mapping of the Human Nephrogenic Program
    Authors: Lindstrom NO, Sealfon R, Chen X et al.
    Dev Cell
  4. Bone morphogenetic protein 9 (BMP9) controls lymphatic vessel maturation and valve formation
    Authors: Sandrine Levet, Delphine Ciais, Galina Merdzhanova, Christine Mallet, Teresa A. Zimmers, Se-Jin Lee et al.
    Blood
  5. In Vivo Developmental Trajectories of Human Podocyte Inform In Vitro Differentiation of Pluripotent Stem Cell-Derived Podocytes
    Authors: Tran T, Lindstrom NO, Ransick A et al.
    Dev. Cell
  6. Shear stimulation of FOXC1 and FOXC2 differentially regulates cytoskeletal activity during lymphatic valve maturation
    Authors: Pieter R Norden, Amélie Sabine, Ying Wang, Cansaran Saygili Demir, Ting Liu, Tatiana V Petrova et al.
    eLife
  7. Foxc1 and Foxc2 deletion causes abnormal lymphangiogenesis and correlates with ERK hyperactivation
    J Clin Invest, 2016-05-23;0(0):.
  8. A Mesp1-dependent developmental breakpoint in transcriptional and epigenomic specification of early cardiac precursors
    Authors: Alexis Leigh Krup, Sarah A. B. Winchester, Sanjeev S. Ranade, Ayushi Agrawal, W. Patrick Devine, Tanvi Sinha et al.
    Development
  9. The FENDRR/FOXC2 Axis Contributes to Multidrug Resistance in Gastric Cancer and Correlates With Poor Prognosis
    Authors: Hao Liu, Zhe Zhang, Yanan Han, Ahui Fan, Haiming Liu, Xiangyuan Zhang et al.
    Frontiers in Oncology
  10. Conserved and Divergent Molecular and Anatomic Features of Human and Mouse Nephron Patterning
    Authors: Nils O. Lindström, Tracy Tran, Jinjin Guo, Elisabeth Rutledge, Riana K. Parvez, Matthew E. Thornton et al.
    Journal of the American Society of Nephrology
  11. Activated dormant stem cells recover spermatogenesis in chemoradiotherapy-induced infertility
    Authors: Yang, SH;Zeng, YZ;Jia, XZ;Gu, YW;Wood, C;Yang, RS;Yang, JS;Yang, WJ;
    Cell reports
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: Immunohistochemistry
  12. An EPHB4-RASA1 signaling complex inhibits shear stress-induced Ras-MAPK activation in lymphatic endothelial cells to promote the development of lymphatic vessel valves
    Authors: Chen, D;Wiggins, D;Sevick, EM;Davis, MJ;King, PD;
    bioRxiv : the preprint server for biology
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  13. Polycomb repressive complex 2 in adult hair follicle stem cells is dispensable for hair regeneration
    Authors: P Flora, MY Li, PM Galbo, M Astorkia, D Zheng, E Ezhkova
    PloS Genetics, 2021-12-14;17(12):e1009948.
    Species: Transgenic Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  14. DAZL mediates a broad translational program regulating expansion and differentiation of spermatogonial progenitors
    Authors: MM Mikedis, Y Fan, PK Nicholls, T Endo, EK Jackson, SA Cobb, DG de Rooij, DC Page
    Elife, 2020-07-20;9(0):.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC-P
  15. Mechanically activated ion channel PIEZO1 is required for lymphatic valve formation
    Authors: K Nonomura, V Lukacs, DT Sweet, LM Goddard, A Kanie, T Whitwam, SS Ranade, T Fujimori, ML Kahn, A Patapoutia
    Proc. Natl. Acad. Sci. U.S.A., 2018-11-27;0(0):.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC-Fr
  16. Complementary Wnt Sources Regulate Lymphatic Vascular Development via PROX1-Dependent Wnt/?-Catenin Signaling
    Authors: B Cha, X Geng, MR Mahamud, JY Zhang, L Chen, W Kim, EH Jho, Y Kim, D Choi, JB Dixon, H Chen, YK Hong, L Olson, TH Kim, BJ Merrill, MJ Davis, RS Srinivasan
    Cell Rep, 2018-10-16;25(3):571-584.e5.
    Species: Human, Mouse
    Sample Types: Cell Lysates, Whole Tissue
    Applications: IHC, Western Blot
  17. Apolipoprotein A-I Modulates Atherosclerosis Through Lymphatic Vessel-Dependent Mechanisms in Mice
    Authors: A Milasan, G Jean, F Dallaire, JC Tardif, Y Merhi, M Sorci-Thom, C Martel
    J Am Heart Assoc, 2017-09-22;6(9):.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  18. Mechanotransduction activates canonical Wnt/?-catenin signaling to promote lymphatic vascular patterning and the development of lymphatic and lymphovenous valves
    Authors: Boksik Cha
    Genes Dev, 2016-06-16;30(12):1454-69.
    Species: Human, Mouse
    Sample Types: Cell Lysates, Whole Tissue
    Applications: IHC-Fr, Western Blot
  19. Lymph flow regulates collecting lymphatic vessel maturation in vivo.
    Authors: Sweet D, Jimenez J, Chang J, Hess P, Mericko-Ishizuka P, Fu J, Xia L, Davies P, Kahn M
    J Clin Invest, 2015-07-27;125(8):2995-3007.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC-P
  20. Lymphatic regulator PROX1 determines Schlemm's canal integrity and identity.
    Authors: Park D, Lee J, Park I, Choi D, Lee S, Song S, Hwang Y, Hong K, Nakaoka Y, Makinen T, Kim P, Alitalo K, Hong Y, Koh G
    J Clin Invest, 2014-07-25;124(9):3960-74.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  21. Regulon active landscape reveals cell development and functional state changes of human primary osteoblasts in vivo
    Authors: Wang S, Gong Y, Wang Z et al.
    Human genomics
  22. Ileitis-associated tertiary lymphoid organs originate at lymphatic valves and obstruct mesenteric lymph flow in response to tumor necrosis factor
    Authors: Rafael S. Czepielewski, Emma C. Erlich, Emily J. Onufer, Shannon Young, Brian T. Saunders, Yong-Hyun Han et al.
    Immunity
  23. YAP and TAZ maintain PROX1 expression in the developing lymphatic and lymphovenous valves in response to VEGF-C signaling
    Authors: Boksik Cha, Yen-Chun Ho, Xin Geng, Md. Riaj Mahamud, Lijuan Chen, Yeunhee Kim et al.
    Development
  24. Foxc2 is required for proper cardiac neural crest cell migration, outflow tract septation, and ventricle expansion
    Authors: Kimberly E. Inman, Carlo Donato Caiaffa, Kristin R. Melton, Lisa L. Sandell, Annita Achilleos, Tsutomu Kume et al.
    Developmental Dynamics
  25. Loss of flow responsive Tie1 results in Impaired Aortic valve remodeling
    Authors: Xianghu Qu, Kate Violette, M. K. Sewell-Loftin, Jonathan Soslow, LeShana Saint-Jean, Robert B. Hinton et al.
    Developmental Biology
  26. GATA2 controls lymphatic endothelial cell junctional integrity and lymphovenous valve morphogenesis through miR-126
    Authors: Md. Riaj Mahamud, Xin Geng, Yen-Chun Ho, Boksik Cha, Yuenhee Kim, Jing Ma et al.
    Development
  27. Statistically derived geometrical landscapes capture principles of decision-making dynamics during cell fate transitions
    Authors: Meritxell Sáez, Robert Blassberg, Elena Camacho-Aguilar, Eric D. Siggia, David A. Rand, James Briscoe
    Cell Systems

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