Mouse PDGF R beta Antibody

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AF1042
AF1042-SP
Best Seller
Detection of Rat and Mouse PDGF R beta  by Western Blot.
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Product Details
Citations (108)
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Mouse PDGF R beta Antibody Summary

Species Reactivity
Mouse
Specificity
Detects mouse PDGF R beta in direct ELISAs and Western blots. In direct ELISAs, this antibody shows approximately 35% cross-reactivity with recombinant human PDGF R beta.
Source
Polyclonal Goat IgG
Purification
Antigen Affinity-purified
Immunogen
Mouse myeloma cell line NS0-derived recombinant mouse PDGF R beta
Leu32-Lys530
Accession # P05622
Formulation
Lyophilized from a 0.2 μm filtered solution in PBS with Trehalose. See Certificate of Analysis for details.
*Small pack size (-SP) is supplied either lyophilized or as a 0.2 µm filtered solution in PBS.
Label
Unconjugated

Applications

Recommended Concentration
Sample
Western Blot
0.25 µg/mL
See below
Immunohistochemistry
5-15 µg/mL
See below
Dual RNAscope ISH-IHC
5-15 µg/mL
Immersion fixed paraffin-embedded sections of mouse embryo brain

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

Western Blot Detection of Rat and Mouse PDGF R beta  antibody by Western Blot. View Larger

Detection of Rat and Mouse PDGF R beta by Western Blot. Western blot shows lysates of rat spinal cord tissue, rat brain tissue, and mouse brain tissue. PVDF membrane was probed with 0.25 µg/mL of Goat Anti-Mouse PDGF R beta Antigen Affinity-purified Polyclonal Antibody (Catalog # AF1042) followed by HRP-conjugated Anti-Goat IgG Secondary Antibody (Catalog # HAF019). A specific band was detected for PDGF R beta at approximately 190 kDa (as indicated). This experiment was conducted under reducing conditions and using Immunoblot Buffer Group 1.

Immunohistochemistry PDGF R beta  antibody in Mouse Embryonic Spinal Cord by Immunohistochemistry (IHC-Fr). View Larger

PDGF R beta in Mouse Embryonic Spinal Cord. PDGF R beta was detected in immersion fixed frozen sections of mouse embryo spinal cord using 5 µg/mL Goat Anti-Mouse PDGF R beta Antigen Affinity-purified Polyclonal Antibody (Catalog # AF1042) overnight at 4 °C. Tissue was stained with the Anti-Goat HRP-DAB Cell & Tissue Staining Kit (brown; Catalog # CTS008) and counterstained with hematoxylin (blue). View our protocol for Chromogenic IHC Staining of Frozen Tissue Sections.

Immunohistochemistry Detection of Mouse PDGF R beta by Immunohistochemistry View Larger

Detection of Mouse PDGF R beta by Immunohistochemistry Expression of sFlt1 in pericytes at the angiogenic front. a Maximum intensity projections of confocal images from P6 retinas of the Hey1-GFP transgenic reporter mouse model stained for GFP (green), PDGFR beta + (white) and IB4 (red). Images of the first row show enrichment of Hey1-GFP+, PDGFR beta + perivascular cells in the angiogenic front in comparison to mural cells covering the remodeling central plexus around veins (middle row) and arteries (bottom row). Note strong expression of Hey1-GFP reporter in arterial ECs (bottom row). Scale bar, 50 µm. b, Quantitation of Pdgfrb expression by qPCR in P6 PDGFR beta + retinal pericytes sorted based on GFP expression in comparison to whole-retina single-cell suspension (input). Note significant enrichment of Pdgfrb in both (GFP+ and GFP−) pericyte fractions and higher expression in the Hey1-GFP+ subset. Error bars, s.e.m. p-values, Kruskal–Wallis and Dunn’s multiple comparison test. NS, not statistically significant. c Quantitation of sFlt1 expression by qPCR in sorted P6 retinal pericytes in comparison to whole-retina single-cell suspension (input). Note significant enrichment of sFlt1 expression in Hey1-GFP+ pericytes in comparison to input and GFP- pericytes. Error bars, s.e.m. p-values, one-way ANOVA and Tukey’s multiple comparison test. NS, not statistically significant Image collected and cropped by CiteAb from the following publication (https://pubmed.ncbi.nlm.nih.gov/29146905), licensed under a CC-BY license. Not internally tested by R&D Systems.

Immunocytochemistry/ Immunofluorescence Detection of Mouse PDGF R beta by Immunocytochemistry/Immunofluorescence View Larger

Detection of Mouse PDGF R beta by Immunocytochemistry/Immunofluorescence VCAM1 is involved in the regulation of proliferation and morphological changes in oligodendrocytes.(a) Tissue lysates from 7-day-old NG2-Cre-driven VCAM1 conditional knockout (VCAM1fl/fl; Ng2-Cre) or control (Ctrl) mouse spinal cords or 11-day-old whole brains were immunoblotted with an antibody against MBP, CNPase, VCAM1 or actin. Data are representative of three experiments. (b–d) Antibodies against Ki67 (green) and Olig2 (red) were used for co-staining in 2-day-old spinal cord cross sections. Data are representative. The scale bars indicate 200 μm. The number of Olig2+ cells per one square millimetre was counted. Data were evaluated using Student’s t-test (**P=0.000528; n=19 slices of two independent experiments). The percentage of Ki67+ cells among the Olig2+ cells is shown. Data were evaluated using Student’s t-test (**P=0.00807; n=6 slices of two independent experiments). (e) Antibodies against Ki67 and NG2 were used for co-staining in 2-day-old spinal cord. The percentage of Ki67+ cells among the NG2+ cells per one square millimetre is shown. Data were evaluated using Student’s t-test (*P=0.0275; n=6 slices of two independent experiments). (f–h) Knock-down efficiencies of shRNAs were confirmed by immunoblotting. Data are representative of three experiments. Oligodendrocytes were transfected with VCAM1 shRNA or control, co-cultured with neurons for 2 days, and co-stained with antibodies against NF (green) and NG2 (red). Magnified images of the dotted boxes (i, attached; ii, aligned) are shown below. Data are representative. Scale bar, 100 μm. The percentage of NG2+ cells whose process tips or cell bodies were attached to axons or aligned along axons is shown. Data were evaluated using Student’s t-test (**P=0.00109 (attached cells) or P=0.00982 (aligned cells); n=6 areas of three experiments). (i,k) Oligodendrocytes were cultured on dishes coated with or without recombinant alpha 4 beta 1 integrin in a growth medium containing PDGF and bFGF. Cells were co-stained with an anti-MBP antibody (red) and DAPI (blue) (a) or an anti-PDGFR alpha antibody (green) (b). Data are representative. Scale bar, 100 μm. The percentage of MBP+ cells is shown. Data were evaluated using Student’s t-test (**P=1.14E−10; n=6 areas of two independent experiments). (j,l) Oligodendrocytes transfected with VCAM1#1 or control shRNA were cultured on recombinant alpha 4 beta 1 integrin-coated dishes in the differentiation medium and co-stained with an anti-MBP antibody (red) and DAPI (blue). Data are representative. Scale bar, 100 μm. The percentage of MBP+ cells is shown. Data were evaluated using Student’s t-test (**P=1.82E−21; n=6 areas of two independent experiments). (m–o) Antibodies against Ki67 (green) and O4 (red) were used for co-staining in 7-day-old spinal cord. DAPI staining is also shown. Data are representative. Scale bar, 100 μm. The number of O4+ cells was counted. Data were evaluated using Student’s t-test (**P=5.87E−05 (P7) or P=5.87E−06 (P14); n=12 slices of two independent experiments). The percentage of Ki67− or Ki67+ cells among the O4+ cells is shown. Data were evaluated using Student’s t-test (**P=0.00344 (P7, Ki67−), 0.00344 (P7, Ki67+) or 0.000580 (P14, Ki67+) *P=0.0494 (P14, Ki67−); n=12 slices of two independent experiments). Image collected and cropped by CiteAb from the following publication (https://pubmed.ncbi.nlm.nih.gov/27876794), licensed under a CC-BY license. Not internally tested by R&D Systems.

Immunohistochemistry Detection of Mouse PDGF R beta by Immunohistochemistry View Larger

Detection of Mouse PDGF R beta by Immunohistochemistry Vascular alterations after intraocular VEGF-A injection. a Morphology of IB4-stained P6 wild-type retinal vessels at 4 h after administration of human VEGF-A165 (0.5 µl at a concentration of 5 μg μl−1). Note blunt appearance of the vessel front after VEGF-A injection but not for vehicle (PBS) control. Scale bar, 200 µm. b Quantitation of sprouts and filopodia at the front of the P6 vessel plexus after injection of VEGF-A165 or vehicle control. Error bars, s.e.m. p-values, Student’s t-test. c PDGFR beta + (green) pericytes are unaffected by short-term VEGF-A administration, whereas VEGFR2 immunosignals (white) are increased in IB4+ (red) ECs (arrowheads). Images shown correspond to insets in a. Scale bar, 100 µm. d Quantitation of VEGFR2 immunosignals intensity in the peripheral plexus of P6 retinas after injection of VEGF-A165 or vehicle control. Error bars, s.e.m. p-values, Student’s t-test. e Confocal images showing increased Esm1 immunostaining (white) in IB4+ (red) ECs in the peripheral plexus (arrowheads) after VEGF-A injection in P6 pups. Scale bar, 200 µm. f VEGF-A165 injection-mediated increase of Esm1 immunosignals (normalized to IB4+ EC area) in the peripheral capillary plexus but not at the edge of the angiogenic front in comparison to PBS-injected controls at P6. Error bars, s.e.m. p-values, Student’s t-test. NS, not statistically significant. g Short-term VEGF-A165 administration leads to clustering of Erg1+ (green) and IB4+ (red) ECs, as indicated, in thick sprout-like structures of P6 retinas. Panels in the center and on the right (scale bar, 20 µm) show higher magnification of the insets on the left (scale bar, 100 µm). Dashed lines in panels on the right outline IB4+ vessels. h Quantitation of EC density in the leading front vessel and emerging sprouts of the P6 angiogenic front after injection of VEGF-A165 or vehicle control. Error bars, s.e.m. p-values, Student’s t-test Image collected and cropped by CiteAb from the following publication (https://pubmed.ncbi.nlm.nih.gov/29146905), licensed under a CC-BY license. Not internally tested by R&D Systems.

In-situ Hybridization View Larger

Detection of PDGF R beta in Mouse Embryo Brain. Formalin-fixed paraffin-embedded tissue sections of mouse embryo were probed for PDGFRb mRNA (ACD RNAScope Probe, catalog #411388; Fast Red chromogen, ACD catalog # 322750). Adjacent tissue section was processed for immunohistochemistry using goat anti-mouse PDGFRb polyclonal antibody (R&D Systems catalog # AF1042) at 1.7ug/mL with overnight incubation at 4 degrees Celsius followed by incubation with anti-goat IgG VisUCyte HRP Polymer Antibody (Catalog # VC004) and DAB chromogen (yellow-brown). Tissue was counterstained with hematoxylin (blue). Specific staining was localized to developing vasculature.

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Preparation and Storage

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Reconstitute at 0.2 mg/mL in sterile PBS. For liquid material, refer to CoA for concentration.
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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: PDGF R beta

The platelet-derived growth factor (PDGF) family consists of proteins derived from four genes (PDGF-A, -B, -C, and -D) that form disulfide-linked homodimers (PDGF-AA, -BB, -CC, and -DD) and a heterodimer (PDGF-AB) (1, 2). These proteins regulate diverse cellular functions by binding to and inducing the homo- or hetero-dimerization of two receptors (PDGF R alpha and R beta ). Whereas alpha / alpha homo-dimerization is induced by PDGF-AA, -BB, -CC, and -AB, alpha / beta hetero-dimerization is induced by PDGF-AB, -BB, -CC, and -DD, and beta / beta homo-dimerization is induced only by PDGF-BB, and -DD (1 - 4). Both PDGF R alpha and R beta are members of the class III subfamily of receptor tyrosine kinases (RTK) that also includes the receptors for M-CSF, SCF and Flt3-ligand. All class III RTKs are characterized by the presence of five immunoglobulin-like domains in their extracellular region and a split kinase domain in their intracellular region. Ligand-induced receptor dimerization results in autophosphorylation in trans resulting in the activation of several intracellular signaling pathways that can lead to cell proliferation, cell survival, cytoskeletal rearrangement, and cell migration. Many cell types, including fibroblasts and smooth muscle cells, express both the alpha and beta  receptors. Others have only the alpha receptors (oligodendrocyte progenitor cells, mesothelial cells, liver sinusoidal endothelial cells, astrocytes, platelets and megakaryocytes) or only the beta  receptors (myoblasts, capillary endothelial cells, pericytes, T cells, myeloid hematopoietic cells and macrophages). A soluble PDGF R alpha has been detected in normal human plasma and serum as well as in the conditioned medium of the human osteosarcoma cell line MG-63 (5). Both the recombinant mouse and human soluble PDGF R alpha bind PDGF with high affinity and are potent PDGF antagonists.

References
  1. Betshotz, C. et al. (2001) BioEssays 23:494.
  2. Ostman, A. and A.H. Heldin (2001) Advances in Cancer Research 80:1.
  3. Gilbertson, D. et al. (2001) J. Biol. Chem. 276:27406.
  4. LaRochells, W.J. et al. (2001) Nature Cell Biol. 3:517.
  5. Tiesman, J. and C.E. Hart (1993) J. Biol. Chem. 5:9621.
Long Name
Platelet-derived Growth Factor Receptor beta
Entrez Gene IDs
5159 (Human); 18596 (Mouse); 24629 (Rat)
Alternate Names
beta-type platelet-derived growth factor receptor; CD140 antigen-like family member B; CD140b antigen; CD140b; EC 2.7.10; EC 2.7.10.1; JTK12; PDGF R beta; PDGFR; PDGFR1; PDGFRB; PDGF-R-beta; platelet-derived growth factor receptor, beta polypeptide

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Citations for Mouse PDGF R beta 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.

108 Citations: Showing 1 - 10
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  1. Imatinib inhibits pericyte-fibroblast transition and inflammation and promotes axon regeneration by blocking the PDGF-BB/PDGFR? pathway in spinal cord injury
    Authors: Yao F, Luo Y, Liu YC et al.
    Inflammation and Regeneration
  2. Weibel-Palade Bodies Orchestrate Pericytes During Angiogenesis
    Authors: Mélissande Cossutta, Marie Darche, Gilles Carpentier, Claire Houppe, Matteo Ponzo, Fabio Raineri et al.
    Arteriosclerosis, Thrombosis, and Vascular Biology
  3. Dysfunction of Mouse Cerebral Arteries during Early Aging
    Authors: Matilde Balbi, Mitrajit Ghosh, Thomas A Longden, Max Jativa Jativa Vega, Benno Gesierich, Farida Hellal et al.
    Journal of Cerebral Blood Flow & Metabolism
  4. A distant, cis-acting enhancer drives induction of Arf by Tgf beta in the developing eye
    Authors: Yanbin Zheng, Caitlin Devitt, Jing Liu, Jie Mei, Stephen X. Skapek
    Developmental Biology
  5. Delayed Effects of Acute Reperfusion on Vascular Remodeling and Late-Phase Functional Recovery After Stroke
    Authors: Violeta Durán-Laforet, David Fernández-López, Alicia García-Culebras, Juan González-Hijón, Ana Moraga, Sara Palma-Tortosa et al.
    Frontiers in Neuroscience
  6. Low-dose sodium-glucose cotransporter 2 inhibitor ameliorates ischemic brain injury in mice through pericyte protection without glucose-lowering effects
    Authors: Masamitsu Takashima, Kuniyuki Nakamura, Takuya Kiyohara, Yoshinobu Wakisaka, Masaoki Hidaka, Hayato Takaki et al.
    Communications Biology
  7. A functional circuit formed by the autonomic nerves and myofibroblasts controls mammalian alveolar formation for gas exchange
    Authors: Kuan Zhang, Erica Yao, Shao-An Wang, Ethan Chuang, Julia Wong, Liliana Minichiello et al.
    Developmental Cell
  8. Effects of Angiopoietin-1 on Hemorrhagic Transformation and Cerebral Edema after Tissue Plasminogen Activator Treatment for Ischemic Stroke in Rats
    Authors: Kunio Kawamura, Tetsuya Takahashi, Masato Kanazawa, Hironaka Igarashi, Tsutomu Nakada, Masatoyo Nishizawa et al.
    PLoS ONE
  9. TAZ Induces Migration of Microglia and Promotes Neurological Recovery After Spinal Cord Injury
    Authors: Hu X, Huang J, Li Y et al.
    Frontiers in Pharmacology
  10. Pulmonary pericytes regulate lung morphogenesis
    Authors: K Kato, R Diéguez-Hu, DY Park, SP Hong, S Kato-Azuma, S Adams, M Stehling, B Trappmann, JL Wrana, GY Koh, RH Adams
    Nat Commun, 2018-06-22;9(1):2448.
  11. Reduced folate carrier 1 is present in retinal microvessels and crucial for the inner blood retinal barrier integrity
    Authors: Gokce Gurler, Nevin Belder, Mustafa Caglar Beker, Melike Sever-Bahcekapili, Gokhan Uruk, Ertugrul Kilic et al.
    Fluids and Barriers of the CNS
  12. Carbon Monoxide Suppresses Neointima Formation in Transplant Arteriosclerosis by Inhibiting Vascular Progenitor Cell Differentiation
    Authors: Hideyasu Sakihama, Ghee Rye Lee, Beek Y. Chin, Eva Csizmadia, David Gallo, Yilin Qi et al.
    Arteriosclerosis, Thrombosis, and Vascular Biology
  13. Revealing Spatial and Temporal Patterns of Cell Death, Glial Proliferation, and Blood-Brain Barrier Dysfunction Around Implanted Intracortical Neural Interfaces
    Authors: Steven M. Wellman, Lehong Li, Yalikun Yaxiaer, Ingrid McNamara, Takashi D. Y. Kozai
    Frontiers in Neuroscience
  14. Chemerin regulates normal angiogenesis and hypoxia-driven neovascularization
    Authors: Cyrine Ben Dhaou, Kamel Mandi, Mickaël Frye, Angela Acheampong, Ayoub Radi, Benjamin De Becker et al.
    Angiogenesis
  15. R-Ras Deficiency in Pericytes Causes Frequent Microphthalmia and Perturbs Retinal Vascular Development.
    Authors: Jose H, Masanobu K
    J Vasc Res.
  16. Expression and enhancement of FABP4 in septoclasts of the growth plate in FABP5-deficient mouse tibiae
    Authors: Yasuhiko Bando, Nobuko Tokuda, Yudai Ogasawara, Go Onozawa, Arata Nagasaka, Koji Sakiyama et al.
    Histochemistry and Cell Biology
  17. Extracellular retention of PDGF-B directs vascular remodeling in mouse hypoxia-induced pulmonary hypertension
    Authors: Philip Tannenberg, Ya-Ting Chang, Lars Muhl, Bàrbara Laviña, Hanna Gladh, Guillem Genové et al.
    American Journal of Physiology-Lung Cellular and Molecular Physiology
  18. Lineage tracing of Foxd1‐expressing embryonic progenitors to assess the role of divergent embryonic lineages on adult dermal fibroblast function
    Authors: John T. Walker, Lauren E. Flynn, Douglas W. Hamilton
    FASEB BioAdvances
  19. Evidence that blood–CSF barrier transport, but not inflammatory biomarkers, change in migraine, while CSF sVCAM1 associates with migraine frequency and CSF fibrinogen
    Authors: Robert P. Cowan, Noah B. Gross, Melanie D. Sweeney, Abhay P. Sagare, Axel Montagne, Xianghong Arakaki et al.
    Headache: The Journal of Head and Face Pain
  20. Epithelial Vegfa Specifies a Distinct Endothelial Population in the Mouse Lung
    Authors: Lisandra Vila Ellis, Margo P. Cain, Vera Hutchison, Per Flodby, Edward D. Crandall, Zea Borok et al.
    Developmental Cell
  21. An artery-specific fluorescent dye for studying neurovascular coupling
    Authors: Zhiming Shen, Zhongyang Lu, Pratik Y Chhatbar, Philip O'Herron, Prakash Kara
    Nature Methods
  22. Optimized Enrichment of Murine Blood-Brain Barrier Vessels with a Critical Focus on Network Hierarchy in Post-Collection Analysis
    Authors: Abdelazim, H;Barnes, A;Stupin, J;Hasson, R;Muñoz-Ballester, C;Young, KL;Robel, S;Smyth, JW;Lamouille, S;Chappell, JC;
    bioRxiv : the preprint server for biology
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: Immunohistochemistry
  23. Oligodendroglia-to-pericyte conversion after lipopolysaccharide exposure is gender-dependent
    Authors: Yu, Q;Zhang, L;Xu, T;Shao, J;Yuan, F;Yang, Z;Wu, Y;Lyu, H;
    PloS one
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: Immunohistochemistry
  24. Aging drives cerebrovascular network remodeling and functional changes in the mouse brain
    Authors: Bennett, HC;Zhang, Q;Wu, YT;Manjila, SB;Chon, U;Shin, D;Vanselow, DJ;Pi, HJ;Drew, PJ;Kim, Y;
    Nature communications
    Species: Transgenic Mouse
    Sample Types: Whole Tissue
    Applications: Immunohistochemistry
  25. Sustained amphiregulin expression in intermediate alveolar stem cells drives progressive fibrosis
    Authors: Zhao, R;Wang, Z;Wang, G;Geng, J;Wu, H;Liu, X;Bin, E;Sui, J;Dai, H;Tang, N;
    Cell stem cell
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: Immunohistochemistry
  26. FNIP1 abrogation promotes functional revascularization of ischemic skeletal muscle by driving macrophage recruitment
    Authors: Sun, Z;Yang, L;Kiram, A;Yang, J;Yang, Z;Xiao, L;Yin, Y;Liu, J;Mao, Y;Zhou, D;Yu, H;Zhou, Z;Xu, D;Jia, Y;Ding, C;Guo, Q;Wang, H;Li, Y;Wang, L;Fu, T;Hu, S;Gan, Z;
    Nature communications
    Species: Transgenic Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  27. Postconditioning promotes recovery in the neurovascular unit after stroke
    Authors: Esposito, E;Licastro, E;Cuomo, O;Lo, EH;Hayakawa, K;Pignataro, G;
    Frontiers in cellular neuroscience
    Species: Rat
    Sample Types: Whole Tissue
    Applications: IHC
  28. Anti-Fibrotic and Anti-Inflammatory Role of NO-Sensitive Guanylyl Cyclase in Murine Lung
    Authors: Englert, N;Burkard, P;Aue, A;Rosenwald, A;Nieswandt, B;Friebe, A;
    International journal of molecular sciences
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  29. Glutamatergic neuronal activity regulates angiogenesis and blood-retinal barrier maturation via Norrin/ beta -catenin signaling
    Authors: Biswas, S;Shahriar, S;Bachay, G;Arvanitis, P;Brunken, WJ;Agalliu, D;
    bioRxiv : the preprint server for biology
    Species: Transgenic Mouse, Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  30. NO-sensitive guanylyl cyclase discriminates pericyte-derived interstitial from intra-alveolar myofibroblasts in murine pulmonary fibrosis
    Authors: Aue, A;Englert, N;Harrer, L;Schwiering, F;Gaab, A;König, P;Adams, R;Schmidtko, A;Friebe, A;Groneberg, D;
    Respiratory research
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: Immunohistochemistry
  31. Cultured brain pericytes adopt an immature phenotype and require endothelial cells for expression of canonical markers and ECM genes
    Authors: Oliveira, F;Bondareva, O;Rodr�guez-Aguilera, JR;Sheikh, BN;
    Frontiers in cellular neuroscience
    Species: Mouse
    Sample Types: Whole Cells
    Applications: ICC
  32. Median eminence blood flow influences food intake by regulating ghrelin access to the metabolic brain
    Authors: N Romanò, C Lafont, P Campos, A Guillou, T Fiordelisi, DJ Hodson, P Mollard, M Schaeffer
    JCI Insight, 2023-02-08;0(0):.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: Confocal Imaging
  33. A Soluble Platelet-Derived Growth Factor Receptor-beta Originates via Pre-mRNA Splicing in the Healthy Brain and is Differentially Regulated during Hypoxia and Aging
    Authors: LB Payne, H Abdelazim, M Hoque, A Barnes, Z Mironovova, CE Willi, J Darden, C Jenkins-Ho, MW Sedovy, SR Johnstone, JC Chappell
    bioRxiv : the preprint server for biology, 2023-02-04;0(0):.
    Species: Mouse
    Sample Types: Tissue Homogenates
    Applications: Western Blot
  34. Imatinib inhibits pericyte-fibroblast transition and inflammation and promotes axon regeneration by blocking the PDGF-BB/PDGFR? pathway in spinal cord injury
    Authors: Yao F, Luo Y, Liu YC et al.
    Inflammation and Regeneration
  35. M1-type microglia can induce astrocytes to deposit chondroitin sulfate proteoglycan after spinal cord injury
    Authors: L Cheng, M Zheng, J Jing, S Yu, Z Li, X Xu, F Yao, Y Luo, Y Liu
    Neural regeneration research, 2022-07-01;0(0):.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  36. TAZ Induces Migration of Microglia and Promotes Neurological Recovery After Spinal Cord Injury
    Authors: Hu X, Huang J, Li Y et al.
    Frontiers in Pharmacology
  37. M1-type microglia can induce astrocytes to deposit chondroitin sulfate proteoglycan after spinal cord injury
    Authors: SS Yu, ZY Li, XZ Xu, F Yao, Y Luo, YC Liu, L Cheng, MG Zheng, JH Jing
    Neural regeneration research, 2022-05-01;17(5):1072-1079.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  38. SU16f inhibits fibrotic scar formation and facilitates axon regeneration and locomotor function recovery after spinal cord injury by blocking the PDGFRbeta pathway
    Authors: Z Li, S Yu, Y Liu, X Hu, Y Li, Z Xiao, Y Chen, D Tian, X Xu, L Cheng, M Zheng, J Jing
    Journal of Neuroinflammation, 2022-04-16;19(1):95.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  39. Prenatal disruption of blood-brain barrier formation via cyclooxygenase activation leads to lifelong brain inflammation
    Authors: Q Zhao, W Dai, HY Chen, RE Jacobs, BV Zlokovic, BT Lund, A Montagne, A Bonnin
    Proceedings of the National Academy of Sciences of the United States of America, 2022-04-04;119(15):e2113310119.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC-F
  40. Microglia modulate blood flow, neurovascular coupling, and hypoperfusion via purinergic actions.
    Authors: Eszter C, Nikolett L, Csaba C et al.
    J Exp Med.
  41. Induction of osteogenesis by bone-targeted Notch activation
    Authors: C Xu, VV Dinh, K Kruse, HW Jeong, EC Watson, S Adams, F Berkenfeld, M Stehling, SJ Rasouli, R Fan, R Chen, I Bedzhov, Q Chen, K Kato, ME Pitulescu, RH Adams
    Elife, 2022-02-04;11(0):.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  42. Fascin-1 is Highly Expressed Specifically in Microglia After Spinal Cord Injury and Regulates Microglial Migration
    Authors: S Yu, L Cheng, D Tian, Z Li, F Yao, Y Luo, Y Liu, Z Zhu, M Zheng, J Jing
    Frontiers in Pharmacology, 2021-09-27;12(0):729524.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  43. KAI1(CD82) is a key molecule to control angiogenesis and switch angiogenic milieu to quiescent state
    Authors: JW Lee, J Hur, YW Kwon, CW Chae, JI Choi, I Hwang, JY Yun, JA Kang, YE Choi, YH Kim, SE Lee, C Lee, DH Jo, H Seok, BS Cho, SH Baek, HS Kim
    Journal of hematology & oncology, 2021-09-16;14(1):148.
    Species: Mouse
    Sample Types: Whole Cells
    Applications: Flow Cytometry
  44. Expression of IL-20 Receptor Subunit beta Is Linked to EAE Neuropathology and CNS Neuroinflammation
    Authors: JR Dayton, Y Yuan, LP Pacumio, BG Dorflinger, SC Yoo, MJ Olson, SI Hernández-, MM McMahon, L Cruz-Oreng
    Frontiers in Cellular Neuroscience, 2021-09-07;15(0):683687.
    Species: Human
    Sample Types: Whole Tissue
    Applications: IHC
  45. A human three-dimensional neural-perivascular 'assembloid' promotes astrocytic development and enables modeling of SARS-CoV-2 neuropathology
    Authors: L Wang, D Sievert, AE Clark, S Lee, H Federman, BD Gastfriend, EV Shusta, SP Palecek, AF Carlin, JG Gleeson
    Nature Medicine, 2021-07-09;0(0):.
    Species: Human
    Sample Types: Organoid
    Applications: IHC
  46. R-Ras Deficiency in Pericytes Causes Frequent Microphthalmia and Perturbs Retinal Vascular Development.
    Authors: Jose H, Masanobu K
    J Vasc Res.
  47. M2 Macrophages Promote PDGFR&beta+ Pericytes Migration After Spinal Cord Injury in Mice via PDGFB/PDGFR&beta Pathway
    Authors: Z Li, M Zheng, S Yu, F Yao, Y Luo, Y Liu, D Tian, L Cheng, J Jing
    Frontiers in Pharmacology, 2021-04-15;12(0):670813.
    Species: Mouse
    Sample Types: Protein, Whole Cells, Whole Tissue
    Applications: ICC, IHC, Western Blot
  48. Foreign body responses in mouse central nervous system mimic natural wound responses and alter biomaterial functions
    Authors: TM O?Shea, AL Wollenberg, JH Kim, Y Ao, TJ Deming, MV Sofroniew
    Nature Communications, 2020-12-04;11(1):6203.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  49. Reactive pericytes in early phase are involved in glial activation and late-onset hypersusceptibility to pilocarpine-induced seizures in traumatic brain injury model mice
    Authors: K Sakai, F Takata, G Yamanaka, M Yasunaga, K Hashiguchi, K Tominaga, K Itoh, Y Kataoka, A Yamauchi, S Dohgu
    Journal of pharmacological sciences, 2020-11-23;145(1):155-165.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  50. Genetic analyses in mouse fibroblast and melanoma cells demonstrate novel roles for PDGF-AB ligand and PDGF receptor alpha
    Authors: JL Kadrmas, MC Beckerle, M Yoshigi
    Sci Rep, 2020-11-09;10(1):19303.
    Species: Rat
    Sample Types: Cell Lysates
    Applications: Western Blot
  51. Bidirectional, non-necrotizing glomerular crescents are the critical pathology in X-linked Alport syndrome mouse model harboring nonsense mutation of human COL4A5
    Authors: JY Song, N Saga, K Kawanishi, K Hashikami, M Takeyama, M Nagata
    Sci Rep, 2020-11-03;10(1):18891.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  52. P7C3-A20 treatment one year after TBI in mice repairs the blood-brain barrier, arrests chronic neurodegeneration, and restores cognition
    Authors: E Vázquez-Ro, MK Shin, M Dhar, K Chaubey, CJ Cintrón-Pé, X Tang, X Liao, E Miller, Y Koh, S Barker, K Franke, DR Crosby, R Schroeder, J Emery, TC Yin, H Fujioka, JD Reynolds, MM Harper, MK Jain, AA Pieper
    Proc Natl Acad Sci U S A, 2020-10-21;0(0):.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  53. Attenuation of Flightless I Increases Human Pericyte Proliferation, Migration and Angiogenic Functions and Improves Healing in Murine Diabetic Wounds
    Authors: HM Thomas, P Ahangar, BR Hofma, XL Strudwick, R Fitridge, SJ Mills, AJ Cowin
    Int J Mol Sci, 2020-08-05;21(16):.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  54. Cleavage of proteoglycans, plasma proteins and the platelet-derived growth factor receptor in the hemorrhagic process induced by snake venom metalloproteinases
    Authors: AF Asega, MC Menezes, D Trevisan-S, D Cajado-Car, L Bertholim, AK Oliveira, A Zelanis, SMT Serrano
    Sci Rep, 2020-07-31;10(1):12912.
    Species: Mouse
    Sample Types: Cell Lysates, Tissue Homogenates
    Applications: Western Blot
  55. Neural metabolic imbalance induced by MOF dysfunction triggers pericyte activation and breakdown of vasculature
    Authors: BN Sheikh, S Guhathakur, TH Tsang, M Schwabenla, G Renschler, B Herquel, V Bhardwaj, H Holz, T Stehle, O Bondareva, N Aizarani, O Mossad, O Kretz, W Reichardt, A Chatterjee, LJ Braun, J Thevenon, H Sartelet, T Blank, D Grün, D von Elverf, TB Huber, D Vestweber, S Avilov, M Prinz, JM Buescher, A Akhtar
    Nat. Cell Biol., 2020-06-15;0(0):.
    Species: Mouse
    Sample Types: Whole Cells, Whole Tissue
    Applications: Flow Cytometry, IHC
  56. Early Reperfusion Following Ischemic Stroke Provides Beneficial Effects, Even After Lethal Ischemia with Mature Neural Cell Death
    Authors: Y Tanaka, N Nakagomi, N Doe, A Nakano-Doi, T Sawano, T Takagi, T Matsuyama, S Yoshimura, T Nakagomi
    Cells, 2020-06-01;9(6):.
    Species: Transgenic Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  57. Imatinib Sets Pericyte Mosaic in the Retina
    Authors: T Kovács-Öll, E Ivanova, G Szarka, ÁJ Tengölics, B Völgyi, BT Sagdullaev
    Int J Mol Sci, 2020-04-05;21(7):.
    Species: Mouse
    Sample Types: Tissue
    Applications: IHC-P
  58. Glioblastoma Exhibits Inter-Individual Heterogeneity of TSPO and LAT1 Expression in Neoplastic and Parenchymal Cells
    Authors: L Cai, SV Kirchleitn, D Zhao, M Li, JC Tonn, R Glass, RE Kälin
    Int J Mol Sci, 2020-01-17;21(2):.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  59. Inhibition of Sema4D/PlexinB1 signaling alleviates vascular dysfunction in diabetic retinopathy
    Authors: JH Wu, YN Li, AQ Chen, CD Hong, CL Zhang, HL Wang, YF Zhou, PC Li, Y Wang, L Mao, YP Xia, QW He, HJ Jin, ZY Yue, B Hu
    EMBO Mol Med, 2020-01-13;12(2):e10154.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  60. TBX2-positive cells represent a multi-potent mesenchymal progenitor pool in the developing lung
    Authors: I Wojahn, TH Lüdtke, VM Christoffe, MO Trowe, A Kispert
    Respir. Res., 2019-12-23;20(1):292.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC-P
  61. The isolation and molecular characterization of cerebral microvessels
    Authors: YK Lee, H Uchida, H Smith, A Ito, T Sanchez
    Nat Protoc, 2019-10-04;0(0):.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  62. GPR124 facilitates pericyte polarization and migration by regulating the formation of filopodia during ischemic injury
    Authors: DY Chen, NH Sun, YP Lu, LJ Hong, TT Cui, CK Wang, XH Chen, SS Wang, LL Feng, WX Shi, K Fukunaga, Z Chen, YM Lu, F Han
    Theranostics, 2019-08-14;9(20):5937-5955.
    Species: Human
    Sample Types: Whole Cells
    Applications: ICC
  63. Loss of the transcription factor RBPJ induces disease-promoting properties in brain pericytes
    Authors: R Diéguez-Hu, K Kato, BD Giaimo, M Nieminen-K, H Arf, F Ferrante, M Bartkuhn, T Zimmermann, MG Bixel, HM Eilken, S Adams, T Borggrefe, P Vajkoczy, RH Adams
    Nat Commun, 2019-06-27;10(1):2817.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  64. Straightforward method for singularized and region-specific CNS microvessels isolation
    Authors: J Rose Dayto, MC Franke, Y Yuan, L Cruz-Oreng
    J. Neurosci. Methods, 2019-02-21;0(0):.
    Species: Mouse, Primate - Macaca mulatta (Rhesus Macaque)
    Sample Types: Whole Tissue
    Applications: IHC
  65. Exercise promotes a cardioprotective gene program in resident cardiac fibroblasts
    Authors: JK Lighthouse, RM Burke, LS Velasquez, RA Dirkx, A Aiezza, CS Moravec, JD Alexis, A Rosenberg, EM Small
    JCI Insight, 2019-01-10;4(1):.
    Species: Mouse
    Sample Types: Whole Cells
    Applications: Flow Cytometry
  66. Blood-brain barrier-associated pericytes internalize and clear aggregated amyloid-?42 by LRP1-dependent apolipoprotein E isoform-specific mechanism
    Authors: Q Ma, Z Zhao, AP Sagare, Y Wu, M Wang, NC Owens, PB Verghese, J Herz, DM Holtzman, BV Zlokovic
    Mol Neurodegener, 2018-10-19;13(1):57.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  67. PDGF-mediated mesenchymal transformation renders endothelial resistance to anti-VEGF treatment in glioblastoma
    Authors: T Liu, W Ma, H Xu, M Huang, D Zhang, Z He, L Zhang, S Brem, DM O'Rourke, Y Gong, Y Mou, Z Zhang, Y Fan
    Nat Commun, 2018-08-27;9(1):3439.
    Species: Human
    Sample Types: Whole Tissue
    Applications: Western Blot
  68. NCK-dependent pericyte migration promotes pathological neovascularization in ischemic retinopathy
    Authors: A Dubrac, SE Künzel, SH Künzel, J Li, RR Chandran, K Martin, DM Greif, RH Adams, A Eichmann
    Nat Commun, 2018-08-27;9(1):3463.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  69. Disruption of Bmal1 impairs blood-brain barrier integrity via pericyte dysfunction
    Authors: R Nakazato, K Kawabe, D Yamada, S Ikeno, M Mieda, S Shimba, E Hinoi, Y Yoneda, T Takarada
    J. Neurosci., 2017-09-14;0(0):.
    Species: Transgenic Mouse
    Sample Types: Whole Tissue
    Applications: Immunohistochemistry
  70. Assay to visualize specific protein oxidation reveals spatio-temporal regulation of SHP2
    Authors: R Tsutsumi, J Harizanova, R Stockert, K Schröder, PIH Bastiaens, BG Neel
    Nat Commun, 2017-09-06;8(1):466.
    Species: Mouse
    Sample Types: Whole Cells
    Applications: Western Blot
  71. Ageing causes prominent neurovascular dysfunction associated with loss of astrocytic contacts and gliosis
    Authors: Jessica Duncombe
    Neuropathol. Appl. Neurobiol, 2017-03-27;0(0):.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  72. Nogo receptor blockade overcomes remyelination failure after white matter stroke and stimulates functional recovery in aged mice
    Proc. Natl. Acad. Sci. U.S.A, 2016-12-12;0(0):.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC-Fr
  73. VCAM1 acts in parallel with CD69 and is required for the initiation of oligodendrocyte myelination
    Nat Commun, 2016-11-23;7(0):13478.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC-Fr
  74. Emergence of a Wave of Wnt Signaling that Regulates Lung Alveologenesis by Controlling Epithelial Self-Renewal and Differentiation
    Cell Rep, 2016-11-22;17(9):2312-2325.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC-P
  75. Decellularized zebrafish cardiac extracellular matrix induces mammalian heart regeneration
    Authors: WC Chen, Z Wang, MA Missinato, DW Park, DW Long, HJ Liu, X Zeng, NA Yates, K Kim, Y Wang
    Sci Adv, 2016-11-18;2(11):e1600844.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC-Fr
  76. Dual effects of carbon monoxide on pericytes and neurogenesis in traumatic brain injury
    Nat Med, 2016-09-26;0(0):.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  77. Microglia protect against brain injury and their selective elimination dysregulates neuronal network activity after stroke
    Nat Commun, 2016-05-03;7(0):11499.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  78. Multiple mouse models of primary lymphedema exhibit distinct defects in lymphovenous valve development.
    Authors: Geng X, Cha B, Mahamud M, Lim K, Silasi-Mansat R, Uddin M, Miura N, Xia L, Simon A, Engel J, Chen H, Lupu F, Srinivasan R
    Dev Biol, 2015-11-02;409(1):218-33.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  79. Malignant stroma increases luminal breast cancer cell proliferation and angiogenesis through platelet-derived growth factor signaling.
    Authors: Pinto, Mauricio, Dye, Wendy W, Jacobsen, Britta M, Horwitz, Kathryn
    BMC Cancer, 2014-10-01;14(0):735.
    Species: Mouse
    Sample Types: Whole Cells
    Applications: IHC-P
  80. PGC-1alpha induces SPP1 to activate macrophages and orchestrate functional angiogenesis in skeletal muscle.
    Authors: Rowe G, Raghuram S, Jang C, Nagy J, Patten I, Goyal A, Chan M, Liu L, Jiang A, Spokes K, Beeler D, Dvorak H, Aird W, Arany Z
    Circ Res, 2014-07-09;115(5):504-17.
    Species: Human, Mouse
    Sample Types: Whole Cells
    Applications: ICC
  81. Enhanced sphingosine-1-phosphate receptor 2 expression underlies female CNS autoimmunity susceptibility.
    Authors: Cruz-Orengo L, Daniels B, Dorsey D, Basak S, Grajales-Reyes J, McCandless E, Piccio L, Schmidt R, Cross A, Crosby S, Klein R
    J Clin Invest, 2014-05-08;124(6):2571-84.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  82. Restoration of oligodendrocyte pools in a mouse model of chronic cerebral hypoperfusion.
    Authors: McQueen, Jamie, Reimer, Michell, Holland, Philip R, Manso, Yasmina, McLaughlin, Mark, Fowler, Jill H, Horsburgh, Karen
    PLoS ONE, 2014-02-03;9(2):e87227.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC
  83. Pericyte loss influences Alzheimer-like neurodegeneration in mice.
    Authors: Sagare A, Bell R, Zhao Z, Ma Q, Winkler E, Ramanathan A, Zlokovic B
    Nat Commun, 2013-01-01;4(0):2932.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC-Fr
  84. Survival effect of PDGF-CC rescues neurons from apoptosis in both brain and retina by regulating GSK3beta phosphorylation.
    Authors: Tang Z, Arjunan P, Lee C, Li Y, Kumar A, Hou X, Wang B, Wardega P, Zhang F, Dong L, Zhang Y, Zhang SZ, Ding H, Fariss RN, Becker KG, Lennartsson J, Nagai N, Cao Y, Li X
    J. Exp. Med., 2010-03-15;207(4):867-80.
    Species: Mouse
    Sample Types: In Vivo
    Applications: Neutralization
  85. Characterization of neuroprogenitor cells expressing the PDGF beta-receptor within the subventricular zone of postnatal mice.
    Authors: Ishii Y, Matsumoto Y, Watanabe R, Elmi M, Fujimori T, Nissen J, Cao Y, Nabeshima Y, Sasahara M, Funa K
    Mol. Cell. Neurosci., 2007-12-03;37(3):507-18.
    Species: Mouse
    Sample Types: Whole Tissue
    Applications: IHC-P
  86. Tumor-driven paracrine platelet-derived growth factor receptor alpha signaling is a key determinant of stromal cell recruitment in a model of human lung carcinoma.
    Authors: Tejada ML, Yu L, Dong J, Jung K, Meng G, Peale FV, Frantz GD, Hall L, Liang X, Gerber HP, Ferrara N
    Clin. Cancer Res., 2006-05-01;12(9):2676-88.
    Species: Human
    Sample Types: Whole Tissue
    Applications: IHC-P
  87. High-efficiency pharmacogenetic ablation of oligodendrocyte progenitor cells in the adult mouse CNS
    Authors: Yao Lulu Xing, Jasmine Poh, Bernard H.A. Chuang, Kaveh Moradi, Stanislaw Mitew, William D. Richardson et al.
    Cell Reports Methods
  88. Encephalitic Alphaviruses Exploit Caveola-Mediated Transcytosis at the Blood-Brain Barrier for Central Nervous System Entry
    Authors: Hamid Salimi, Matthew D. Cain, Xiaoping Jiang, Robyn A. Roth, Wandy L. Beatty, Chengqun Sun et al.
    mBio
  89. Microglia modulate blood flow, neurovascular coupling, and hypoperfusion via purinergic actions.
    Authors: Eszter C, Nikolett L, Csaba C et al.
    J Exp Med.
  90. Excess vascular endothelial growth factor-A disrupts pericyte recruitment during blood vessel formation
    Authors: Jordan Darden, Laura Beth Payne, Huaning Zhao, John C. Chappell
    Angiogenesis
  91. Infiltration of meningeal macrophages into the Virchow–Robin space after ischemic stroke in rats: Correlation with activated PDGFR-beta -positive adventitial fibroblasts
    Authors: Tae-Ryong Riew, Ji-Won Hwang, Xuyan Jin, Hong Lim Kim, Mun-Yong Lee
    Frontiers in Molecular Neuroscience
  92. Retinoic Acid Is Required for Oligodendrocyte Precursor Cell Production and Differentiation in the Postnatal Mouse Corpus Callosum
    Authors: Vivianne E. Morrison, Victoria N. Smith, Jeffrey K. Huang
    eNeuro
  93. Isolation and functional characterization of primary endothelial cells from mouse cerebral cortex
    Authors: Julie Ouellette, Baptiste Lacoste
    STAR Protocols
  94. Role of pericytes in the development of cerebral cavernous malformations
    Authors: Zifeng Dai, Jingwei Li, Ying Li, Rui Wang, Huili Yan, Ziyu Xiong et al.
    iScience
  95. Distinct Compartmentalization of the Chemokines CXCL1 and CXCL2 and the Atypical Receptor ACKR1 Determine Discrete Stages of Neutrophil Diapedesis
    Authors: Tamara Girbl, Tchern Lenn, Lorena Perez, Loïc Rolas, Anna Barkaway, Aude Thiriot et al.
    Immunity
  96. Designing and troubleshooting immunopanning protocols for purifying neural cells
    Authors: Ben A Barres
    Cold Spring Harb Protoc
  97. Ephrin-B2 controls PDGFR-beta internalization and signaling.
    Authors: Nakayama A, Nakayama M, Turner CJ et al.
    Genes Dev
  98. The pseudoprotease iRhom1 controls ectodomain shedding of membrane proteins in the nervous system
    Authors: Johanna Tüshaus, Stephan A. Müller, Joshua Shrouder, Martina Arends, Mikael Simons, Nikolaus Plesnila et al.
    The FASEB Journal
  99. Ninjurin1 Deletion in NG2-Positive Pericytes Prevents Microvessel Maturation and Delays Wound Healing
    Authors: Risa Matsuo, Mari Kishibe, Kiwamu Horiuchi, Kohei Kano, Takamitsu Tatsukawa, Taiki Hayasaka et al.
    JID Innovations
  100. Functional deficits induced by cortical microinfarcts
    Authors: Philipp M Summers, David A Hartmann, Edward S Hui, Xingju Nie, Rachael L Deardorff, Emilie T McKinnon et al.
    Journal of Cerebral Blood Flow & Metabolism
  101. Associations between Vascular Function and Tau PET Are Associated with Global Cognition and Amyloid
    Authors: Daniel Albrecht, A. Lisette Isenberg, Joy Stradford, Teresa Monreal, Abhay Sagare, Maricarmen Pachicano et al.
    The Journal of Neuroscience
  102. Shedding of soluble platelet-derived growth factor receptor-beta from human brain pericytes
    Authors: Abhay P. Sagare, Melanie D. Sweeney, Jacob Makshanoff, Berislav V. Zlokovic
    Neuroscience Letters
  103. Homogeneity or heterogeneity, the paradox of neurovascular pericytes in the brain
    Authors: Huimin Zhang, Xiao Zhang, Xiaoqi Hong, Xiaoping Tong
    Glia
  104. Temporal expression analysis of angiogenesis-related genes in brain development
    Authors: Abdulkadir Özkan, Atilla Biçer, Timuçin Avşar, Askin Şeker, Zafer Orkun Toktaş, Süheyla Uyar Bozkurt et al.
    Vascular Cell
  105. Tocilizumab promotes repair of spinal cord injury by facilitating the restoration of tight junctions between vascular endothelial cells
    Authors: Yang Luo, Fei Yao, Yi Shi, Zhenyu Zhu, Zhaoming Xiao, Xingyu You et al.
    Fluids and Barriers of the CNS
  106. Maternal high-fat diet in mice induces cerebrovascular, microglial and long-term behavioural alterations in offspring
    Authors: Maude Bordeleau, Cesar H. Comin, Lourdes Fernández de Cossío, Chloé Lacabanne, Moises Freitas-Andrade, Fernando González Ibáñez et al.
    Communications Biology
  107. ApoE (Apolipoprotein E) in Brain Pericytes Regulates Endothelial Function in an Isoform-Dependent Manner by Modulating Basement Membrane Components
    Authors: Yamazaki Y, Shinohara M, Yamazaki A et al.
    Arterioscler. Thromb. Vasc. Biol.

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Reviews for Mouse PDGF R beta Antibody

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Mouse PDGF R beta Antibody
By Anonymous on 09/18/2022
Application: Flow Sample Tested: Mouse ear fibroblast Species: Mouse

Works good


Mouse PDGF R beta Antibody
By jinxiu PAN on 10/13/2020
Application: Immunocytochemistry/Immunofluorescence Sample Tested: Adult brain (hippocampus),Adult brain Species: Mouse

Mouse PDGF R beta Antibody
By Anonymous on 11/02/2016
Application: Immunocytochemistry/Immunofluorescence Sample Tested: Brain tissue Species: Mouse

Mouse PDGF R beta Antibody
By Gaia Brezzo on 12/16/2015
Application: IHC Sample Tested: Brain tissue Species: Rat

Optimisation protocols of Microwave and Pressure Cooker antigen retrievals at pH6 and pH9. Concentrations 1:100, 1:200 and 1:400. In FFPE rat brain tissue. Primary antibody incubation 1 hr.