The antibody has a proven strong indirect immunofluorescence at 1/400 - 1/800 and 4+ biotin-streptavidin/HRP staining at a 1/2000 - 1/4000 dilution in rat brainstem, cerebellum and adrenal medulla. Using Western blot of purified DBH the antiserum detects a triplet at approximately 72-74 kD.
The FMRF-Amide antiserum was quality control tested using standard histochemical methods. The antiserum demonstrates strongly positive labeling of rat hypothalamus and spinal cord using indirect immunofluorescent and biotin/avidin-HRP techniques. Recommended primary dilutions are 1/400 - 1/800 in PBS/0.3% Triton X-100 -Cy3 Technique and 1/1,000 - 1/2,000 in PBS/0.3% Triton X-100 - biotin/avidin-HRP Technique. Staining is completely eliminated by pretreatment of the diluted antibody with 100 µg/mL of FMRF-Amide.
The ImmunoStar gamma amino butyric acid antiserum was quality control tested using standard immunohistochemical methods. The antiserum demonstrates strongly positive labeling of rat thalamus and cerebellum using indirect immunofluorescent and biotin/avidin-HRP techniques. Recommended primary dilutions are 1/15,000- 1/20,000 in PBS /0.3% Triton X-100 - biotin/avidin-HRP technique. The specificity of the antiserum for GABA was evaluated using a competitive inhibition ELISA. While conjugates of GABA completely eliminate labeling, a 1000 fold excess of the following conjugates could not inhibit the antiserums ability to bind GABA conjugate: glutamate, aspartate, beta alanine, tyrosine, taurine, glycine and alanine.
The gamma amino butyric acid antiserum was quality control tested using standard immunohistochemical methods. The antiserum demonstrates strongly positive labeling of rat thalamus and cerebellum using indirect immunofluorescent and biotin/avidin-HRP techniques. Recommended primary dilutions are 1/15,000- 1/20,000 in PBS /0.3% Triton X-100 - biotin/avidin-HRP technique. The specificity of the antiserum for GABA was evaluated using a competitive inhibition ELISA. While conjugates of GABA completely eliminate labeling, a 1000 fold excess of the following conjugates could not inhibit the antiserums ability to bind GABA conjugate: glutamate, aspartate, beta alanine, tyrosine, taurine, glycine and alanine.
The GAT-2 antiserum was quality control tested using standard immunohistochemical methods. The antiserum demonstrates strongly positive labeling of rat retina and leptomeninges using indirect immunofluorescent and biotin/avidin-HRP techniques. Recommended primary dilutions are 1/100-1/200 in PBS/0.3% Triton X-100Â - Cy3 Technique and 1/500 - 1/1,000 in PBS/0.3% Triton X-100 - biotin/avidin-HRP Technique. The antiserum has been characterized as specific to GAT-2; please see references listed below. GAT-2 immunolabeling is completely abolished by soluble pre-adsorption with synthetic rat GAT-2 (594-602) at a concentration of 10-5 M.
This antibody has been shown to react strongly with human GFAP as well as with GFAP from rat, mouse, guinea pig, hamster, kangaroo, sheep, cat and monkey. Excellent staining results were obtained when rabbit anti-glial fibrillary acidic protein serum was tested.
The GHRF (Growth Hormone Releasing Factor) Antibody was raised to rat hypothalamic GHRF (1-43). The antibody produces strong labeling of GHRH at dilutions of 1/200-1/400 using indirect immunofluorescence and at dilutions of 1/2,000 - 1/4,000 using biotin/streptavidin HRP in rat hypothalamus (median eminence). Cross reactivity of GHRF antiserum was examined using the paper spot technique of Larsson (1981). Using 2 µL, 100 pmole amounts, the following substances did not react with rat GHRF antisera diluted 1/500 using the PAP labeling method: glucagon, gastric inhibitory peptide, secretin, vasoactive intestinal peptide, peptide histidine isoleucine, pancreatic polypeptide (human or rat), human GHRF, somatostatin, insulin, ACTH, motilin, cholecystokinin octapeptide, substance P, molluscan cardioexcitatiory peptide, gastrin 34, and serotonin. GHRF antiserum had a very good reactivity using rat GHRF at 2 µL, 100 pmole amounts.
The Glucagon Antibody was raised to glucagon coupled to bovine thyroglobulin with glutaraldehyde. The antibody has a proven strong Biotin-Streptavidin/HRP immunostaining at a 1/500-1/1000 dilution in human pancreatic islets. Staining is completely eliminated by pretreatment of the diluted antibody in an excess of glucagon. Preadsorption of the diluted antibody with an excess of the following substances had no effect on glucagon labeling: secretin, vasoactive intestinal peptide, peptide histidine isoleucine-27, gastric inhibitory polypeptide, rat and human growth hormone releasing hormone and somatostatin.
The rabbit antibody for Glucagon-like Protein Receptor is generated for acetyl 65-88 amide sequence targeting rat and human proteins, but not mouse. The peptide was synthesized and cross-linked to keyhole limpet hemocyanin via sulfolink coupling. The antibody is provided as 100 µL of affinity purified serum containing 1% BSA.
Produced by Dr. Mark Brownfield, the peptide sequence encoding the rat GLP2R was retrieved from the NCBI protein database and evaluated using GeneRunner software to generate antigen candidates for antibody production. Antibody was generated in rabbits and purified by affinity chromatography against the antigenic peptide. The specificity of the antibody was confirmed by Western blotting and by immunoabsorption controls is the immunohistochemistry procedure (see Nelson et al, Endocrinology 148(5)1954-1962, 2007.
The antiserum demonstrates significant labeling of enteroendocrine cells in the intestinal epithelium, as well as cell bodies of vagal afferents in nodose ganglia of the parasympathetic nervous system. Immunolabeling of Western blot revealed a band of approximately 66 kDa in human and rat tissue.
Product Type:
Antibody - Antibodies
Antibody Type:
polyclonal
Format:
Liquid
Host Animal:
Rabbit
Species Reactivity:
Rat
Immunogen:
Glucagon-like peptide 2 receptor (GLP2R) for acetyl 65-88 amide sequence targeting rat and human proteins, but not mouse.
The rabbit antibody for Glucagon-like Protein Receptor is generated for acetyl 65-88 amide sequence targeting rat and human proteins, but not mouse. The peptide was synthesized and cross-linked to keyhole limpet hemocyanin via sulfolink coupling.
Raised against a C-terminal synthetic peptide sequence corresponding to amino acids 894-907 of rat GluR1 coupled to bovine thyroglobulin with gluraraldehyde.
Product Type:
Antibody - Antibodies
Antibody Type:
polyclonal
Format:
Lyophilised
Host Animal:
Rabbit
Immunogen:
Rat GluR1 (894-907)
Applications:
Immunohistochemistry, Immunocytochemistry, Western Blot
The GluR1 (lonotropic Glutamate Receptor1) Antibody was raised against a C-terminal synthetic peptide sequence corresponding to amino acids 894-907 of rat GluR1 coupled to bovine thyroglobulin with gluraraldehyde. The antibody produces strong labeling of GluR1 at dilutions of 1/4,000 - 1/6,000 using biotin-streptavidin peroxidase technique in rat cortex and hippocampus. Western blot analysis of GluR1 transfected cells and rat brain homogenates the antibody specifically labels a single band at Uapproximately 102 kD. Western blot analysis of GluR2, 3, 4, 4C, 5, 6, and 7 transfected cells revealed no immunolabeling. Immunolabeling of the above non-NMDA transfected cells demonstrates specificity for GluR1. Additionally, immunolabeling for GluR1 is completely abolished by pre-adsorption with synthetic rat GluR1 (894-907) at 5 µg per mL of diluted antibody.
GluR1 (Ionotropic Glutamate Receptor) Peptide Control
Background Info:
The peptide control for GluR1 is intended for the immuno-adsorption of GluR1 antiserum, catalog #24439. Pre-adsorption of GluR1 antiserum, diluted 1/4000-1/8000 according to the antibody specification sheet, with 5ug/mL GluR1 peptide immunogen following the instructions below provides complete blockage of GluR1 immunolabeling. The peptide is provided as 25ug of lyophilized rat GluR1, and approximately 0.09% sodium azide, sequence 894-907. Please read the instructions carefully.
Histamine is located in mast cells, endocrine cells of the gut, blood cells and in some cells of the peripheral and central nervous system. Histamine is a potent vasodilator when secreted by mast cells found in various tissues as a result of allergic hypersensitivity or inflammation. In the central nervous system, Histamine is putative neurotransmitter. In the brain, its highest content has been found in the hypothalamus and in certain areas of the mesencephalon. The Histamine antiserum has a sensitivity level capable of detecting the low level Histamine contents of the brain. The Histamine antiserum was quality control tested using standard immunohistochemical methods. The antiserum demonstrates strongly positive labeling of rat hypothalamus using indirect immunofluorescent and biotin/avidin-HRP techniques. Recommended primary dilutions are 1/500 - 1/1000 in PBS/0.3% Triton X-100 Cy3 Technique and 1/4000-1/6000 in PBS/0.3% Triton X-100 biotin/avidin-HRP Technique . All staining is blocked by preabsorption of the antiserum with Histamine conjugate. Cross reactivity experiments indicate no cross reactivity with L-histidine or L-histidine containing peptides such as LH-RH.
The Insulin antiserum was quality control tested using standard immunohistochemical methods. The antiserum demonstrates strongly positive labeling of rat pancreatic beta cells using indirect immunofluorescent and biotin/avidin-HRP techniques. Recommended primary dilutions for these methods are 1/500-1/1000 in PBS/0.3% Triton X-100 - Cy3 Technique and 1/3000-1/5000 in PBS/0.3% Triton X-100 - biotin/avidin-HRP Technique. Immuostaining is completely abolished by soluble pre-adsorption with bovine insulin at 10 µg per mL of diluted antiserum.
The antibody has a proven strong indirect immunofluorescent staining at a 1/400 - 1/600 dilution and a proven strong biotin-streptavidin/HRP staining at a 1/1000 - 1/2000 dilution in rat globus pallidus and spinal cord. Staining is completely eliminated by pretreatment with 50 µg of Leucine Enkephalin per mL of diluted antiserum. Pretreatment with 50 µg of Methionine Enkephalin per mL of diluted antiserum also significantly blocks staining.
The antibody produces a strong postive labeling of LHRH at dilutions of 1/200-1/400 using indirect immunofluorescence and at dilutions of 1/2,000 - 1,4,000 using biotin-streptavidin/HRP in rat hypothalamus (median eminence). Optimal dilution will vary depending upon fixation, labeling technique and/or detection system; therefore, a dilution series is recommended. Staining is completely eliminated by pretreatment of the diluted antibody with 5 µg of LHRH per mL of diluted antiserum.
The antibody has a proven strong indirect immunofluorescent staining at a 1/400-1/600 dilution and a proven 4+ biotin-streptavidin/HRP staining at 1/1,000-1/1,200 dilution in rat globus pallidus and amygdala. Staining is completely eliminated by pretreatment with 100 µg of methionine enkephalin per mL of diluted antiserum. Pretreatment with 100 µg of leucine enkephalin only partially blocks staining.
Neuropeptide Y (NPY) is a member of a regulatory peptide family and has a marked sequence homology with pancreatic polypeptide (PP) and peptide YY (PYY), which are other members of the family. In the rat central nervous system, immunohistochemistry has found NPY-like cell bodies in the cortex, caudate-putamen, hypothalamus (arcuate nucleus), hippocampus, anterior olfactory bulb, nucleus accumbens, amygdaloid complex and periaqueductal grey. NPY-like fibers and terminals are detected in high numbers in the bed nucleus of the stria terminalis, the peri- and paraventricular regions of the hypothalamus and thalamus and in discrete hypothalamic nuclei, particularly the suprachiasmatic nucleus. It has been used to detect NPY in a wide range of species including rat, mouse, human (1-7), fish, cat, bird, guinea pig, zebrafish, squirrels, frog, and newt.
The Neuropeptide Y Y1 Receptor was quality control tested using standard immunohistochemical methods. The antiserum demonstrates strongly positive labeling of rat cortex, arcuate and hippocampus using indirect immunofluorescent and biotin/avidin-HRP techniques. Recommended primary dilutions are 1/500 - 1/1000 in PBS - Bn/Av-HRP detection.
The antibody was characterized by immunohistochemistry and Western blot. Western blot showed one immunoreactive band of 40 kD and a single high molecular weight band, presumably a precursor molecule. Preincubation of the antibody with an excess of the synthetic peptide blocked staining. Immunohistochemical staining of rat brain correlates well with Northern analysis, in situ hybridization and receptor autoradiography. BlastP database sequence homology searches confirmed that this sequence is unique to rat, mouse and human NPY Y1 receptors.
The Neurotensin antiserum was quality control tested using standard immunohistochemical methods. The antiserum demonstrates strongly positive labeling of rat amygdala using indirect immunofluorescent and biotin/avidin-HRP techniques. Recommended primary dilutions are 1/200-1/400 in PBS/0.3% Triton x-100 - Cy3 Technique and 1/4000-1/8000 in PBS/0.3% Triton x-100 - Bn/Av-HRP Technique. Staining is completely eliminated by pretreatment with 10 µg of Neurotensin per 1 mL of diluted antibody.
The histochemical antibody for Neurokinin 1 Receptor is generated in a rabbit from a synthetic peptide corresponding to rat NK1R 393-407 coupled to carrier protein. The antiserum is provided as l00 µL of lyophilized whole serum.
Product Type:
Antibody - Antibodies
Antibody Type:
polyclonal
Format:
Lyophilised
Host Animal:
Rabbit
Species Reactivity:
Rat
Expected Species:
100% sequence homology with rat and gerbil, 93% with mouse, 78% with human
Immunogen:
Synthetic peptide corresponding to rat NK1R 393-407 coupled to carrier protein.
The NK1R antiserum was quality control tested using standard immunohistochemical methods in rat brain using biotin/avidin-HRP techniques. Specificity of the antiserum was demonstrated by soluble pre-adsorption and Western blot. Tissue staining is completely eliminated by pretreatment of the diluted antibody with 10 mg of rat NK1R peptide residues 393-407. Western blot analysis demonstrates two immunoreactive bands of approximately 70 and 110 kD.
The peptide control for Neurokinin 1 Receptor is intended for the immuno-adsorption of Neurokinin 1 Receptor antiserum, catalog number 20060. Pre-adsorption of Neurokinin 1 Receptor antiserum, diluted according to the antibody specification sheet, with 10 µg/mL NK1R peptide immunogen following the instructions below provides complete blockage of Neurokinin 1 Receptor immunolabeling.
The peptide control for Neurokinin 1 Receptor is intended for the immuno-adsorption of Neurokinin 1 Receptor antiserum, catalog number 20060. Pre-adsorption of Neurokinin 1 Receptor antiserum, diluted according to the antibody specification sheet, with 10 µg/mL NK1R peptide immunogen following the instructions below provides complete blockage of Neurokinin 1 Receptor immunolabeling. The peptide is provided as 100 µL of 50 mg of synthetic peptide corresponding to rat NK1R 393-407.
The histochemical antibody for Neurokinin 3 Receptor is generated in a rabbit from a synthetic peptide corresponding to rat NK3R 438-452 coupled to carrier protein. The antiserum is provided as l00 µL of affinity purified liquid.
Product Type:
Antibody - Antibodies
Antibody Type:
polyclonal
Format:
Liquid
Host Animal:
Rabbit
Species Reactivity:
Rat
Expected Species:
100% sequence homology with rat, human, mouse, dog and gerbil
Immunogen:
Synthetic peptide corresponding to rat NK3R 438-452 coupled to carrier protein.
The NK3R antiserum was quality control tested using standard immunohistochemical methods in rat hypothalamus using biotin/avidin-HRP techniques.Specificity of the antiserum was demonstrated by soluble pre-adsorption and Western blot. Tissue staining is completely eliminated by pretreatment of the diluted antibody with 25 mg of rat NK3R peptide residues 438-452. Western blot analysis of crude rat brain homogenate demonstrates two immunoreactive bands of approximately 80 and 115 kD.
The neuronal nitric oxide synthase C-terminal antiserum was quality control tested using standard immunohistochemical methods. The antiserum demonstrates strongly positive labeling of rat hypothalamus, striatum, cortex and spinal cord using indirect immunofluorescent and biotin/avidin-HRP techniques. Recommended primary dilutions are 1/1,000 - 1/1,500 in PBS/0.3% Triton X-100 - Cy3 Technique and 1/8,000 - 1/12,000 in PBS/0.3% Triton X-100 - Bn/Av-HRP Technique. By Western blot analysis of brain homogenates the antibody specifically labels a band of approximately 155 kD. Immuno-labeling is completely abolished by pre-adsorption with synthetic human nNOS (1419-1433) at 5 µg per mL of diluted antibody. No cross reactivity with other forms of NOS were observed. The nNOS antiserum has been used successfully in human, rat, mouse, guinea pig, cat, and monkey tissue. Detection of nNOS from other species will depend upon sequence homology.
The peptide control for nNOS (C-terminal) is intended for the immuno-adsorption of nNOS (C-terminal) antiserum, catalog number 24287. Pre-adsorption of nNOS (C-terminal) antiserum, diluted according to the antibody specification sheet, with 5 µg/ml nNOS peptide immunogen following the instructions below provides complete blockage of nNOS (C-terminal) immunolabeling. The peptide is provided as 25 µg of lyophilized human nNOS, sequence 1419-1433. Please read the instructions carefully before beginning the procedure.
The ImmunoStar N-terminal neuronal nitric oxide synthase antiserum was quality control tested using standard immunohistochemical methods. The antiserum demonstrates strongly positive labeling of rat hypothalamus, striatum, cortex and spinal cord using indirect immunofluorescent and biotin/avidin-HRP techniques. Recommended primary dilutions are 1/1,000 - 1/2,000 in PBS/0.3% Triton X-100 - biotin/avidin-HRP. By Western blot analysis of brain homogenates the antibody specifically labels a band of approximately 155 kD. Immunolabeling is completely abolished by pre-adsorption with synthetic human nNOS (134-148) at 5 µg per mL of diluted antibody. No cross reactivity with other forms of NOS was observed.
PubMed IDs:
22396407, 21280041, 19105198, 16807372, 16697052
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