GR39
Anti-Estrogen Receptor β (Ab-2) Mouse mAb (9.88)
Synonym(s):
Anti-ER β
antibody form
ascites fluid
clone
9.88, monoclonal
form
liquid
contains
≤0.1% sodium azide as preservative
species reactivity
human, rat, mouse
isotype
IgM
Quality Level
General description
Recognizes the ~53 kDa estrogen receptor β protein. Does not cross-react with estrogen receptor α.
Mouse monoclonal antibody generated by immunizing BALB/c mice with the specified immunogen and fusing splenocytes with NS-1 mouse myeloma cells. Recognizes the ~53 kDa estrogen receptor β protein.
Anti-Estrogen Receptor β (Ab-2), mouse monoclonal, clone 9.88, recognizes the ~53 kDa estrogen receptor β. Does not cross-react with the α receptor It is validated for use in WB and IP.
Steroids regulate important neuronal functions including the organization of neural circuits during development and the regulation of synapse organization in the adult. Steroid hormones may promote cell survival and differentiation of both neurons and glial cells, regulate synaptogenesis, prevent synapse elimination, cause axonal and dendritic growth, and play a role during regeneration of the nervous system. Steroid hormone receptors are members of a large family of nuclear ligand-activated transcription factors that includes the androgen, estrogen, glucocorticoid, and progesterone receptors. In the absence of hormone, steroid receptors are associated in complexes with heat shock proteins and immunophilins. Steroid binding results in the dissociation of the heat-shock protein, receptor dimerization, and binding to specific hormone response elements (HRE) to produce a transcriptionally active complex that leads to the activation or repression of target genes. Steroid receptors are regulated by phosphorylation, however, modulation of kinase activity can also cause receptor activation in the absence of hormone. Recent evidence suggests that steroid receptor expression can be regulated by neurotrophins, and that steroids can regulate the expression of trophic factors and their receptors. In addition to the classical estrogen receptor α, a second estrogen receptor, designated estrogen receptor &beta, has been identified. Although initially identified from the rat prostate, estrogen receptor β is expressed in a variety of tissues including the brain. In vitro studies demonstrate that estrogen receptor α and estrogen receptor β form both homodimers and heterodimers. Additionally, in situ hybridization and immunohistochemical studies indicate that estrogen receptor α and β are coexpressed in certain neuronal populations, but also exhibit distinct non-overlapping expression in the nervous system.
Immunogen
recombinant, human estrogen receptor β
Application
Immunoblotting (1:1000)
Immunoprecipitation (1 μl)
Paraffin Sections (not recommended)
Immunoprecipitation (1 μl)
Paraffin Sections (not recommended)
Physical form
Undiluted ascites.
Preparation Note
Following initial thaw, aliquot and freeze (-20°C).
Analysis Note
Positive Control
Recombinant human estrogen receptor β protein, PC12 cells, or mouse brain
Recombinant human estrogen receptor β protein, PC12 cells, or mouse brain
Other Notes
Does not cross-react with estrogen receptor α protein. Antibody should be titrated for optimal results in individual systems.
Regulatory Information
新产品
This item has
Certificates of Analysis (COA)
Search for Certificates of Analysis (COA) by entering the products Lot/Batch Number. Lot and Batch Numbers can be found on a product’s label following the words ‘Lot’ or ‘Batch’.
Already Own This Product?
Find documentation for the products that you have recently purchased in the Document Library.
K Pettersson et al.
Molecular endocrinology (Baltimore, Md.), 11(10), 1486-1496 (1997-09-01)
The recent discovery that an additional estrogen receptor subtype is present in various rat tissues has advanced our understanding of the mechanisms underlying estrogen signaling. Here we report on the cloning of the cDNA encoding the mouse homolog of estrogen
N L Weigel
The Biochemical journal, 319 ( Pt 3), 657-667 (1996-11-01)
The steroid/thyroid hormone receptor superfamily of ligand-activated transcription factors encompasses not only the receptors for steroids, thyroid hormone, retinoids and vitamin D, but also a large number of proteins whose functions and/or ligands are unknown and which are thus termed
H A Al-Shamma et al.
Proceedings of the National Academy of Sciences of the United States of America, 94(4), 1521-1526 (1997-02-18)
Motoneurons in the spinal nucleus of the bulbocavernosus (SNB) express androgen receptors and innervate striated muscles attached to the penis. Previous studies indicated that androgen receptor immunoreactivity in the SNB motoneurons decreases after axotomy and returns to normal only in
C D Toran-Allerand
Developmental neuroscience, 18(1-2), 36-48 (1996-01-01)
Estrogen enhances neurite growth within the developing rodent forebrain. Estrogen receptor mRNA is co-expressed with the mRNA for the neurotrophins and their receptors. Estrogen may act independently by altering growth-related genes directly, but may interact additionally with growth factors (neurotrophins)
W B Pratt et al.
Endocrine reviews, 18(3), 306-360 (1997-06-01)
We have provided a historical perspective on a body of steroid receptor research dealing with the structure and physiological significance of the untransformed 9S receptor that has often confused both novice and expert investigators. The frequent controversies and equivocations of
Our team of scientists has experience in all areas of research including Life Science, Material Science, Chemical Synthesis, Chromatography, Analytical and many others.
Contact Technical Service