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1.
Estrogen receptor (ER) from chicken liver and calf uterus were used to study the capacity and the characteristics of the receptor binding sites (acceptor sites) in chicken target cell nuclei. Binding studies were performed at a physiological salt concentration of 0.15 M KCl. Binding of liver ER to liver nuclei was temperature-dependent, showing a 9-fold increase between 0 and 28 degrees C. The maximal number of acceptor sites measured in this cell-free system (280 sites/nucleus) was considerably lower than measured in nuclei after in vivo administration of estrogen (820 sites/nucleus). Moreover incubation of nuclei with the liver ER preparation resulted in a substantial breakdown of nuclear DNA, making this ER less suitable for DNA binding studies. The temperature-activated calf uterine receptor bound to liver nuclei at 0 degrees C, at which temperature no DNA degradation was measured. To all chicken cell nuclei tested, the receptor bound with a high affinity (Kd = 0.4-1.0 nM). Nuclear binding displayed tissue specificity: oviduct greater than heart, liver greater than spleen greater than erythrocytes and was salt dependent. Calf uterine ER binding in liver nuclei ranged from 3000-6000 acceptor sites per nucleus when assayed under conditions of a constant protein or a constant DNA concentration. Nuclei isolated from estrogen-treated cockerels bound a 2-fold lower number of calf uterine ER complexes when compared to control nuclei. Incubation of nuclei with a fixed concentration of [3H]ER from liver and increasing concentrations of uterine non-radioactive-ER also resulted in a reduced binding of the liver receptor. Both types of experiments suggest that liver and uterine ER compete for a common nuclear acceptor site. Our data demonstrate that the ER from calf uterus is very useful as a probe to examine the nature of the acceptor sites in heterologous chicken target cell nuclei. The assay system functions at 0 degrees C, a temperature at which no DNA degradation occurs.  相似文献   

2.
The interaction of partially purified calf uterine estradiol-charged estrogen receptor ([3H]ER) with rat nuclei was studied in vitro. We previously observed a significantly greater number of [3H]ER binding sites (at saturation) in nuclei of R3230AC mammary tumors from intact vs ovariectomized (ovex) rats with no difference in the affinity of [3H]ER binding for these nuclei. We now report on the nuclease sensitivity of [3H]ER binding sites in nuclei from these tumors and from normal rat tissues. Digestion of tumor nuclei with deoxyribonuclease I (DNase I) prior to incubation with [3H]ER in vitro resulted in a progressive loss of [3H]ER binding capacity, which was not accompanied by alterations in the affinity of [3H]ER for the nuclei (Kd = 1-3 nM). A significantly lower concentration (P less than 0.005) of DNase I eliminated 50% of the [3H]ER binding sites in nuclei of tumors from intact hosts (8 unit.min/ml) compared to tumors from ovex hosts (22 unit.min/ml). These results indicate that DNA regions capable of binding ER are more susceptible to DNase I digestion in tumors from intact rats than those from ovex hosts, suggesting that the endogenous hormonal milieu is responsible, at least in part, for maintenance of nuclease-sensitive DNA conformations in this hormone-responsive mammary tumor. The amount of DNase I required to eliminate 50% of [3H]ER binding to nuclei from lactating mammary gland, liver, and kidney ranged from 14 to 56 unit.min/ml. Therefore, accessibility of [3H]ER binding sites to nuclease digestion in normal rat tissue is generally less than that of R3230AC tumors.  相似文献   

3.
1. Binding of non-enzymatically [methyl-14C]-labeled histone H3 to nuclei isolated from young and old rat livers, regenerating rat liver, and tumor cells has been investigated. 2. Scatchard plot analysis indicated that various cell types had different binding capacity and different dissociation constant (Kd). 3. Nuclei isolated from younger rats had fewer binding sites and lower Kd (or higher Ka) values for [methyl-14C]H3 than those from older rats. 4. Fewer binding sites and lower Kd values were also observed with nuclei isolated from the maximally regenerating liver (24 hr after partial hepatectomy) and the fast-growing ascites tumor and Novikoff hepatomas. 5. These results strongly suggest that the number of binding sites and affinity of histone H3 for nuclei appears to be correlated with the degree of cell proliferation. 6. Fractionation of the [methyl-14C]H3 bound nuclei into nuclear membrane and nucleoplasm demonstrates that approx. 94% of radioactivity is associated with the former in which less than 6% of DNA is found, whereas 94% of total DNA is found in nucleoplasm. 7. This suggests that the binding of [methyl-14C]H3 to nuclei is independent of DNA present in each fraction.  相似文献   

4.
Non-histone protein-DNA complexes with acceptor activity for estradiol-receptor complexes were reconstituted from fractionated calf uterine chromatin. Acceptor activity had tissue specificity with target tissue binding exceeding non-target tissue binding. The binding of estradiol-receptor complexes to acceptor sites was dependent on intact non-histone protein-DNA complexes, reconstituted select non-histone proteins, and protein equivalent: DNA reconstitution ratios. [3H]Estradiol-receptor complexes were bound to reconstituted non-histone protein-DNA complexes (i.e., nucleoacidic protein) with a high affinity and with a limited number of binding sites. Fractionation of uterine chromatin non-histone proteins identified two major sets of non-histone proteins which had acceptor activity when reconstituted with DNA. Thus, it seems possible to reconstitute nucleoacidic protein fractions with specific acceptor activity for the calf uterine estrogen receptor.  相似文献   

5.
Macromolecular components with properties of oestrogen receptors have been identified in the 0.5 M KCl nuclear soluble, the nuclear insoluble and the cytosol fractions of laying hen and immature (2--4 weeks, untreated by hormone) chicken oviduct. 7n the 0.5 M KCl extract of laying hen oviduct nuclei, a receptor, of protein nature according to the effects of enzymic treatments, has been identified. It exhibits high affinity for oestradiol with an apparent equilibrium association constant KA = 4 - 109 M-1 at 4 degrees C. The binding of [3H] oestradiol is abolished by 1 muM oestriol, oestrone and diethylstilboestrol, but not by the same concentration of progesterone, testosterone, and cortisol. Sucrose gradient ultracentrifugation studies in the presence of 0.5 M KCl indicate a sedimentation coefficient of 4.3 S, and there is partial aggregation in low-ionic-strength medium. The estimated number of binding sites per nucleus is about 5000, as calculated from DNA content of chick diploid genome. Most of the binding sites were found to be occupied by endogenous oestrogen(s). Oestradiol dissociates from the receptor according to an apparent two-step mechanism. The half-life time for the faster dissociation step is 18 h at 0 degrees C, 25 min at 20 degrees C and 10 min at 30 degrees C, and for the slower one is 180 h, 115 min and 60 min, respectively. In the 0.5 M KCl extract of immature chicken oviduct nuclei, there are approximately 500 receptor sites per nucleus; their affinity for oestradiol is the same as in the case of laying hen soluble nuclear receptor. After repeated extractions of nuclei with 0.5 M KCl medium, a substantial quantity of oestrogen binding sites remains in the residual fraction. Binding characteristics of this insoluble nuclear receptor resemble those of the soluble nuclear receptor: high affinity for oestradiol (KA = 7 - 10(8) M-1 at 37 degrees C) and specificity for oestrogens. The estimated number of binding sites are approximately 2000/cell for laying hen, and approximately 1000/cell for immature chicken. In the high-speed supernatant fraction of laying hen oviduct homogenates, an oestrogen receptor is also present, but its concentration is low (less than or equal to 100 sites/cell) and at the limits of sensitivity of the methods used. In the cytosol of immature chicken oviduct, there are approximately 2500 oestradiol receptor sites per cell.  相似文献   

6.
The binding of the "activated" receptor-glucocorticoid complexes of cultured rat hepatoma cells to nuclei, chromatin, and DNA has been studied under cell-free conditions. A critical factor in determining the shape of the binding curve is shown to be an inhibitory material which is present in crude cytosol and which can be removed without destroying the receptor-steroid complex. These and other results argue that the apparent saturation observed in earlier experiments may have been due to the inhibitors. Thus, the actual number of acceptor sites in hepatoma tissue culture cell nuclei is much larger than previously estimated and their affinity for the complex is lower. Nuclear binding experiments indicate that the inhibitory material interacts with the receptor-steroid complex. The inhibitors appear to be macromolecular; but their effects cannot be mimicked by albumin or hemoglobin. The acceptor capacity at low ionic strength for binding receptor-glucocorticoid complexes increases when proceeding from nuclei to DNA. An analysis of the kinetics of association and dissociation and of the relative binding behavior of nuclei and DNA argues that the affinity of complex for nuclei is much greater than for DNA. DNA-associated histones reduce the amount of complex that binds to DNA. These and perhaps other chromosomal proteins may be responsible for the ordering of acceptor capacity. Evidence is presented that the difference in affinities of nuclear and DNA acceptors could also be due to chromosomal proteins. In nuclei, these proteins may thus both reduce the amount of complex binding by rendering regions of DNA less accessible and increase the binding affinity of some, or all, of those DNA binding sites which remain exposed.  相似文献   

7.
Some previous reports on acellular binding of glucocorticoid · receptor complexes to rat liver nuclei have pointed to the conclusion that there exists a small number of high affinity nuclear “receptor” sites. Various investigations lead us to the opposite conclusion and suggest that these results were actually due to the presence, in the cytosol, of one or several macromolecules which inhibited the binding to nuclei of steroid · receptor complexes. The mechanism of this inhibition was examined. It appeared to be due not to a competition between both molecules for the same nuclear acceptor site but to an interaction in the cytosol between teh inhibitor and the steroid · receptor complex which prevented the binding of the latter to the nuclei. The search for high affinity specific acceptor sites was also negative for physiological saline conditions and for the non-salt-extractable fraction of the nuclear receptor. When 940-fold purified receptor · steroid complexes were used, very high concentrations of complexes could be achieved and saturation of nuclei was then observed, but only under physiological ionic strength conditions. However, the interaction was of relatively low affinity (KA = 3.8 · 107 M?1) and to a great number of acceptor sites (N = 26.2 pmol/mg DNA), largely exceeding the cellular concentration of receptor (5.8 pmol/mg DNA).These results suggested that saturation of nuclei by steroid · receptor complexes should not occur in the intact liver cell. They were confirmed by studies on the distribution of steroid · receptor complexes in liver slices incubated with various concentrations of [3H]dexamethasone. For all hormone concentrations a constant proportion (90%) of the complexes was found in the nuclei, thus showing no saturation of the nuclear acceptor sites.  相似文献   

8.
Immune antisera to 5 fractions (H1, H2a, H2b, H3, H4) of calf thymus histone were assayed using indirect immunofluorescence (IIF). The analysis of such sera by this technique, as well as the data on complement fixation obtained previously, show that these antisera are highly active and specific for various test-objects: thymys, liver nuclei of rat, chicken, and calf, chicken erythrocytes, metaphase chromosomes of mouse fibroblasts. These antisera are of importance for the evaluation of species- and tissue-specificity of different histone fractions. Using the IIF reaction, a comparison was made between the nucleosome fraction H3, which is evolutionary stable, and fraction HI from calf thymus, rat and chicken liver, and chicken erythrocytes.  相似文献   

9.
Summary A horseradish peroxidase (HRP) labeled antibody method was developed for use with a monoclonal antibody to detect estrogen receptor (ER) in mouse tissue. Combined use of HRP labeled F(ab)2 fragment absorbed with mouse liver protein to minimize background staining and imidazol-DAB reaction gave the most reliable and sensitive immunostaining.The method was applied to uterine, vaginal, pituitary and liver tissues in ovariectomized adult mice. In uterus and vagina, ER was recognized in nuclei of epithelial cells, stromal cells and smooth muscle cells of the muscle layer and blood vessels. Liver tissue showed positive nuclear immunostaining in parenchymal cells; however, no reaction was present in endothelial cells, Kupffer cells, bile ductal cells, and smooth muscle cells of blood vessels. ER was localized in the nuclei of anterior pituitary cells while weak reaction was also recognized in cells of the intermediate lobe. No staining was detected in the posterior pituitary.Results demonstrate that both occupied and unoccupied ER are localized in the cell nucleus from several target tissues. Weak immunostaining in samples could not be enhanced by multiple procedures. It is suggested that nuclear ER is partially hidden by nuclear components such as nuclei acid and chromatin proteins.  相似文献   

10.
It is known from previous investigations by other authors that the non-steroidal molecule Tamoxifen competes for estradiol binding sites in target tissues and displays partial agonist-antagonist effects. It is able to bind a cytosol protein distinct from ER which has been detected in target tissues, as well as in fetal target and non-target organs. The present work investigates the antiestrogen binding activity of human breast cancer cell lines and tumor biopsies. It is found that BT-20 and MDA-MB 231 cell lines devoid of ER and PGR contain a cytosol protein component able to bind antiestrogens with a high affinity (= 2 X 10(-9) M). The 3H-labeled complex prepared in hypotonic buffer sediments at 6.25 S in a sucrose gradient. A substantial amount of antiestrogen binding sites is found to be linked to the microsomal cell fraction, in agreement with previous data from other investigators. In experiments using whole cells incubated at 37 C, the complex is depleted from the cytosol compartment. A low amount of radioactivity is extracted from the purified nuclei. In the cytosol of human breast tumor biopsies the presence of antiestrogen binding sites is not exclusively associated with the presence of ER and PGR. The identity of the natural ligand which binds to these sites under physiological conditions merits investigation.  相似文献   

11.
Previous studies from our laboratory demonstrated that normal, but not malignant tissues, contain a ligand which competes for [3H]estradiol binding to nuclear type II sites in the rat uterus. Since elevated nuclear levels of type II sites are correlated with estrogen stimulation of uterine growth and DNA synthesis, we believe this ligand may regulate cell growth. The present studies show that the ligand for nuclear type II sites also interacts with type II sites in uterine cytosol. This was demonstrated by dilution experiments which show that greater quantities of type II sites are measured in dilute (10 mg/ml) than in concentrated (40 mg/ml) uterine cytosol. Furthermore, stripping of uterine cytosol with 1% dextrancoated charcoal, or pre-binding cytosol type II sites to hydroxylapetite (HAP) prior to binding analysis, removed the ligand from these preparations such that high levels of type II sites were measured. Following charcoal stripping, cytosol type II sites demonstrated good specificity for estrogenic hormones but not progesterone, corticosterone, or the triphenylethylene anti-estrogen, nafoxidine. Since the level of type II sites in the cytosol always preceded and exceeded the level of this site measured in uterine nuclei at all times following estrogen treatment (0-96 h), we believe cytosol type II sites may function as an type II-ligand binding protein (LBP) which regulates the availability of the ligand for interaction with nuclear type II sites. This is consistent with our observation that type II sites are not depleted from uterine cytosol by estrogen treatment and nuclear type II sites are very tightly associated with the nuclear matrix.  相似文献   

12.
A horseradish peroxidase (HRP) labeled antibody method was developed for use with a monoclonal antibody to detect estrogen receptor (ER) in mouse tissue. Combined use of HRP labeled F(ab')2 fragment absorbed with mouse liver protein to minimize background staining and imidazol-DAB reaction gave the most reliable and sensitive immunostaining. The method was applied to uterine, vaginal, pituitary and liver tissues in ovariectomized adult mice. In uterus and vagina, ER was recognized in nuclei of epithelial cells, stromal cells and smooth muscle cells of the muscle layer and blood vessels. Liver tissue showed positive nuclear immunostaining in parenchymal cells; however, no reaction was present in endothelial cells, Kupffer cells, bile ductal cells, and smooth muscle cells of blood vessels. ER was localized in the nuclei of anterior pituitary cells while weak reaction was also recognized in cells of the intermediate lobe. No staining was detected in the posterior pituitary. Results demonstrate that both occupied and unoccupied ER are localized in the cell nucleus from several target tissues. Weak immunostaining in samples could not be enhanced by multiple procedures. It is suggested that nuclear ER is partially hidden by nuclear components such as nucleic acid and chromatin proteins.  相似文献   

13.
Insulin binding experiments were performed with liver plasma membranes from guinea pig, calf and chicken. Bound insulin was separated from free insulin by a simple and rapid centrifugation of membranes through a layer of silicon oil. 125I-labeled beef insulin was displaced from receptor sites by unlabelled guinea pig, beef and chicken insulin. The receptors of animals with insulins of different biological activity show similar basic characteristics and affinities to the different insulin molecules and thus are not specialised for the interactions with the homologous insulin molecule. The binding capacity of the membranes for beef insulin seems to be inversely related to the affinity of the homologous insulin to the receptor, guinea pig membranes showing the highest and chicken membranes the lowest receptor concentration  相似文献   

14.
Experiments performed with a cell-free system in tris-EDTA buffer, pH 7.4, indicate that the high-speed supernatant fraction of the rat uterus contains all the factors necessary to transform the 8S cytoplasmic oestradiol-receptor complex to the nuclear complex. The transformation is temperature-dependent. This nuclear complex was extracted in the form of a 5S particle with 0.4m-KCl from sediments of either uterine or heart nuclei that had been incubated together with the cytoplasmic soluble fraction of the uterus at 2 degrees C for 30min. This complex can also be obtained similarly from the soluble fraction of the uterus, incubated in the absence of nuclei. Previous warming of the soluble fraction to 37 degrees C for 7min was necessary for the successful extraction of the nuclear particle under these conditions of incubation. After an incubation of the transformed complex with the nuclear sediment at 37 degrees C for 7min, the 5S complex was extractable from the uterine nuclear sediment but not from the heart nuclear sediment, which may indicate the tissue specificity of the nuclear acceptor sites for the transformed complex. The extracted uterine nuclear complex sediments in the 5S region, but whether it is the native complex or a subunit or other part of the native complex resulting from the extraction with salt is unknown.  相似文献   

15.
The specific interaction between 17 beta-estradiol-receptor complex and nuclear acceptors was analyzed by immobilizing various nuclear proteins to CNBr-activated agarose. The specific, high affinity sites identified in a fraction of basic proteins that can be solubilized from purified nuclei of calf uterus (Puca, G.A., Sica, V., and Nola. E (1974) Proc. Natl. Acad. Sci. U.S.A. 71, 979-983) were chromatographed on Sephadex G-100 columns. Elution of the acceptor activity depends on the pH and ionic strength of the buffer used. With 5 mM HCl, however, a peak of acceptor activity with a molecular weight of about 70,000 was partially dissociated from the other basic nuclear proteins. The high affinity binding of the receptor to the acceptor proteins was estradiol-, but not progesterone-, cortisone-, or testosterone-dependent; it was very sensitive to ionic strength and showed a physiological pH optimum. Low affinity binding, such as that seen between receptor and histone, showed no estradiol dependence and little ionic strength and pH sensitivity. Native or heat-denatured DNA strongly modified the receptor-acceptor interaction, reducing the number of binding sites of acceptor for the receptor without changing the high affinity of the interaction. Heating of the acceptor protein before its covalent linkage to agarose considerably increased the affinity of the resulting agarose derivative. Free sulfhydryl groups of the receptor but not of the acceptor molecule play an important role in the acceptor-receptor interaction. When receptor and acceptor preparations were incubated in solution, the resulting complex was included on a Sephadex G-100 column and it eluted from DEAE-cellulose columns at lower ionic strength than the receptor alone. Even though not absolutely specific, these two properties allowed determination of the molecular weight (85,000) of the acceptor protein at neutral pH and more nearly physiological ionic strength. The apparent KD of the acceptor-receptor interaction was determined to be 2 x 10(-10) M at O degrees. Apparently similar, high affinity binding sites for estradiol receptors are also present in nuclei of other tissues.  相似文献   

16.
Expression of the vitellogenin genes in avian and amphibian liver is regulated by estrogens. The DNA elements mediating estrogen induction of the various vitellogenin genes of chicken and Xenopus encompass one or more copies of a 13-mer palindromic sequence called the estrogen-responsive element (ERE). Here we show that upon incubation with the purified estrogen receptor (ER) from calf uterus the Xenopus vitellogenin A2 gene yields a DNase-I footprint over the ERE between -331 and -319. This element does not mediate the response to glucocorticoids or progestins in T47D cells. The three guanine residues in each half of the palindrome are protected against methylation by dimethylsulfate after incubation with ER, but not with glucocorticoid (GR) or progesterone (PR) receptors. In contrast, the chicken vitellogenin II gene exhibits multihormonal regulation by estrogens, progestins, and glucocorticoids in T47D and MCF7 cells. Regulation is mediated by the DNA region between -721 and -591 that contains four binding sites for hormone receptors, as demonstrated by DNase-I footprints and methylation protection experiments. The two distal and most proximal binding sites are recognized by ER, GR, and PR, whereas the central binding site is only bound by ER and GR. At suboptimal concentrations, estrogens and progestins or glucocorticoids act synergistically. In experiments using a DNA fragment containing an ERE adjacent to a glucocorticoid-responsive element/progesterone-responsive element, ER and PR bind synergistically to their corresponding sites, perhaps explaining the functional synergism of both hormones. Thus, two very different regulatory elements are used to mediate estrogen induction of related genes in chickens and amphibians.  相似文献   

17.
18.
The binding of [3H]dexamethasone (DEX) to rat liver nuclei in vitro and in vivo have been compared. In vitro, purified nuclei displayed a single class of specific glucocorticoid binding sites with a dissociation constant (Kd) of approximately 10(-7) M for [3H]DEX at 4 degrees C. The glucocorticoid agonists prednisolone, cortisol, and corticosterone and the antagonists progesterone and cortexolone competed avidly for this site, but the potent glucocorticoid triamcinolone acetonide (TA) competed poorly in vitro. Nuclei isolated from the livers of intact rats contained 1-2 X 10(4) [3H]DEX binding sites/nucleus. Up to 85% of the binding sites were recovered in the nuclear envelope (NE) fraction when NE were prepared either before or after labeling with [3H]DEX in vitro. After adrenalectomy, the specific [3H]DEX binding capacity of both nuclei and NE decreased to 15-20% of control values, indicating sensitivity of the binding sites to hormonal status of the animals. Efforts to restore the binding capacity by administration of exogenous glucocorticoids, however, were unsuccessful. After labeling of rat liver nuclei in vivo by intraperitoneal injection of [3H]DEX or [3H]TA into living animals, the steroid specificity and subnuclear localization of radiolabel were different. Both [3H]TA (which did not bind in vitro) and [3H]DEX became localized to nuclei in a saturable fashion in vivo. With either of these ligands, approximately 20% of the total nuclear radiolabel was recovered in the NE fraction. These results suggest the presence of two separate and distinct binding sites in rat liver nuclei, one which is localized to the NE and binds [3H]DEX (but not [3H]TA) in vitro, and another which is not localized to the NE but binds [3H]DEX and [3H]TA in vivo.  相似文献   

19.
Androphilic proteins in the cytosol from the human benign prostatic hypertrophy are separated into two fractions by Sephadex chromatography; void volume fraction and IgG fraction which was eluted near the site of hIgG. In the present study, properties of these two androphilic proteins were compared. Association constants of these proteins were in the order of 10(9) M-1. However, the binding capacity of the former was smaller than that of the latter. These two androphilic proteins well bound to nuclei, and the high-affinity and saturable binding to nuclei was observed in the 3H-dihydrotestosterone-IgG fraction complex, while binding of 3H-dihydrotestosterone-void volume fraction complex to nuclei was low affinity and unsaturable. The binding of the complexes to chromatin seems to be of low affinity and nonsaturable. These androphilic proteins did not bind to calf thymus DNA. Salt extractability of the bound void volume fraction after incubation with nuclei was not different from that of the bound IgG fraction. It was observed that the chromatographic behavior of the androphilic protein in IgG fraction was changed after incubation with nuclei.  相似文献   

20.
The binding of [3H]PK 11195 and [3H]Ro 5-4864 to membrane preparations from cerebral cortex and peripheral tissues of various species was studied. [3H]PK 11195 (0.05-10 nM) bound with high affinity to rat and calf cerebral cortical and kidney membranes. [3H]Ro 5-4864 (0.05-30 nM) also successfully labeled rat cerebral cortical and kidney membranes, but in calf cerebral cortical and kidney membranes, its binding capacity was only 3 and 4%, respectively, of that of [3H]PK 11195. Displacement studies showed that unlabeled Ro 5-4864, diazepam, and flunitrazepam were much more potent in displacing [3H]PK 11195 from rat cerebral cortex and kidney membranes than from calf tissues. The potency of unlabeled Ro 5-4864 in displacing [3H]PK 11195 from the cerebral cortex of various other species was also tested, and the rank order of potency was rat = guinea pig greater than cat = dog greater than rabbit greater than calf. Analysis of these displacement curves revealed that Ro 5-4864 bound to two populations of binding sites from rat and calf kidney and from rat, guinea pig, rabbit, and calf cerebral cortex but to a single population of binding sites from cat and dog cerebral cortex. Using [3H]PK 11195 as a ligand, the rank order of binding capacity in cerebral cortex of various species was cat greater than calf greater than guinea pig greater than rabbit greater than dog greater than rat, whereas when [3H]Ro 5-4864 was used, the rank order of binding capacity was cat greater than guinea pig greater than rat greater than rabbit greater than calf greater than dog.  相似文献   

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