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Rat anti gfap

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Rat anti-GFAP is a laboratory equipment product used for the detection and analysis of Glial Fibrillary Acidic Protein (GFAP), a key marker for astrocytes in the central nervous system. This product provides a reliable and specific tool for the identification and characterization of astrocytes in various research applications.

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Lab products found in correlation

Cryostat microtome, by Leica (1 mentions) Alexa 488 green, by Jackson ImmunoResearch (1 mentions) Rabbit anti gfap, by Agilent Technologies (1 mentions) 4 6 diamidino 2 phenylindole dihydrochloride dapi, by Thermo Fisher Scientific (1 mentions) Prolong gold antifade reagent, by Thermo Fisher Scientific (1 mentions) 3 amino 9 ethylcarbazole, by Merck Group (1 mentions) Isolectin b4, by Merck Group (1 mentions) Axioplan 2 epifluorescence microscope, by Zeiss (1 mentions) Axiocam hrc ccd camera, by Zeiss (1 mentions) Mouse anti hif 1α antibody, by Novus Biologicals (1 mentions)

2 protocols using rat anti gfap

1

Perfusion, Cryosectioning, and Immunofluorescence of Mouse Spinal Cord

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After terminal anesthesia by barbiturate overdose, mice were perfused transcardially with a phosphate buffered saline rinse followed by either 4% paraformaldehyde or 10% formalin. Spinal cords were removed, post-fixed overnight, and cryoprotected in buffered 30% sucrose for 48 hours. Frozen sections (30 μm) were prepared using a cryostat microtome (Leica) and processed for immunofluorescence as described7 (link)12 (link)13 (link). Primary antibodies were: rabbit anti-GFAP (1:1000; Dako, Carpinteria, CA); rat anti-GFAP (1:1000, Zymed Laboratories); sheep anti-BrdU (1:300, Maine Biotechnology Services, Portland, ME); rat anti-CD133 (1:200; Millipore, Temecula, CA); and rat anti-vimentin (clone # 280618; 1:150; Novus Biologicals, Littleton, CO). Fluorescence secondary antibodies were conjugated to: Alexa 488 (green) or Alexa 405 (blue) or to Cy3 (550, red) or Cy5 (649, far red) all from Jackson Immunoresearch Laboratories. Nuclear stain: 4′,6′-diamidino-2-phenylindole dihydrochloride (DAPI; 2 ng/ml; ThermoFisher). Sections were coverslipped using ProLong Gold anti-fade reagent (InVitrogen, Grand Island, NY). Sections were examined and photographed using deconvolution fluorescence microscopy and scanning confocal laser microscopy (Zeiss, Oberkochen, Germany).
Ren Y., Ao Y., O’Shea T.M., Burda J.E., Bernstein A.M., Brumm A.J., Muthusamy N., Ghashghaei H.T., Carmichael S.T., Cheng L, & Sofroniew M.V. (2017). Ependymal cell contribution to scar formation after spinal cord injury is minimal, local and dependent on direct ependymal injury. Scientific Reports, 7, 41122.
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2

Immunohistochemical Analysis of HIF-1α in Mice

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Mice were anesthetized and transcardially perfused with ice-cold PBS solution containing zinc (3.9 mg/ml) as previously described (Sun et al., 2008 (link)). Brains and spinal cords were dissected and frozen in OCT-compound. Sections of 10 μm thickness were fixed overnight in a zinc fixative solution (0.1 M Tris, pH 7.4, 0.05% calcium acetate, 0.5% zinc acetate, and 0.5% zinc chloride) and immunostained overnight at 4 °C with a rabbit polyclonal anti-mouse HIF-1α antibody (1/500, Novus Biological). For light microscopy immunostaining, HIF-1α signal was developed by the peroxidase substrate 3-amino-9-ethylcarbazole (Sigma-Aldrich). The signal specificity was determined by omission of the primary antibody and by pre-adsorption of the primary antibody with the NB100-449 blocking peptide (Novus Biological). Double-immunofluorescence staining was performed with antibodies against GFAP (rat anti-GFAP: 1:1000, Zymed Laboratories) and Isolectin B4 (biotin IsoB4: 1/300, Sigma-Aldrich). Images were acquired with an Axioplan II epifluorescence microscope (Carl Zeiss) equipped with dry Plan-Neofluar objectives (10× 0.3 NA, 20× 0.5 NA, or 40× 0.75 NA) using an Axiocam HRc CCD camera and the Axiovision image analysis software.
Le Moan N., Baeten K.M., Rafalski V.A., Kyu Ryu J., Rios Coronado P.E., Bedard C., Syme C., Davalos D, & Akassoglou K. (2015). Hypoxia Inducible Factor-1α in Astrocytes and/or Myeloid Cells Is Not Required for the Development of Autoimmune Demyelinating Disease,,. eNeuro, 2(2), ENEURO.0050-14.2015.
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