UNIPROT:P50583 - FACTA Search

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Query: UNIPROT:P50583 (asymmetrical)
12,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

After bilateral visual cortex ablation, cats exhibit a loss of depth perception as measured on a visual cliff, which recovers following administration of d-amphetamine. In this Study, 3 amphetamine-treated cats with visual cortex ablations showed a rapid and enduring recovery, with 2 of these animals obtaining levels of performance seen only with binocular vision, suggesting a restoration of binocular depth perception. Cats with asymmetrical lesions showed only a transient improvement during amphetamine treatment, and some animals not displaying autonomic signs of amphetamine intoxication did not improve. Saline-treated cats showed no signs of improvement, and the effect of amphetamine was blocked by the catecholaminergic antagonist haloperidol. These results indicate that amphetamine can induce an enduring recovery from a behavioral deficit after brain injury, which if left untreated would not spontaneously recover.
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PMID:Amphetamine-induced recovery of visual cliff performance after bilateral visual cortex ablation in cats: measurements of depth perception thresholds. 273 72

The nuclear thyroid hormone receptors isolated from cultured human hepatoma cells (Hep G2) were characterized and compared with those from cultured human fibroblasts and rat liver. The Hep G2 nuclear thyroid hormone receptors had an affinity constant (Ka) of 2.1 X 10(10) M-1 and maximal binding capacity (MBC) of 21.0 fmol/100 micrograms DNA for T3 in assays performed on isolated nuclei. 16% of nuclear receptors were released into the media during incubation and had the same Ka. Salt-extracted receptors had a Ka of 1.8 X 10(10) M-1 and MBC of 0.1 pmol/mg protein for T3. Density gradient sedimentation and gel filtration chromatography revealed a sedimentation coefficient of 3.4 S and Stokes radius of 34 A. From these values, a molecular weight of 49,000 and total frictional ratio (f/f0) of 1.4 were calculated, suggesting an asymmetrical shape of the receptor molecule. Heat inactivation occurred with t1/2 of 28.1, 18.0, and 7.9 min at 38, 43, 45 degrees C, respectively. Isoelectric focusing (IEF) of Hep G2 nuclear receptors demonstrated T3 binding proteins at pH 5.3-5.5, 5.7, and 5.9. Evidence that these are nuclear thyroid hormone receptors includes the following: Triiodothyroacetic acid was the most potent competitor of [125I]T3 binding to these proteins followed by L-T3, and L-T4. Cytosolic protein, human serum, and fetal calf serum failed to show the same T3 binding proteins. Ka of these proteins measured by T3 displacement was 1.1-3.2 X 10(9) M-1. Human fibroblast nuclear extract showed similar T3 binding pattern in IEF, except for a slight difference in pI of an acidic band.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Thyroid hormone receptors in a human hepatoma cell line: multiple receptor forms on isoelectric focusing. 303 21

Pallidotomy is a neurosurgical procedure designed to ameliorate the akinesia and bradykinesia associated with Parkinson's disease. In the present study, the effects of pallidal-like lesions on motor behavior in the hemiparkinsonian rat were compared to the effects of lesions in the ventrolateral thalamus, a target of entopeduncular projections feeding motor-related information to motor cortex. Six aspects of spontaneous and evoked behavior induced by amphetamine and apomorphine in the hemiparkinsonian rat with either bilateral electrolytic entopeduncular lesions or bilateral electrolytic ventrolateral thalamic lesions were measured for 60 min. Saline or amphetamine, 5 mg/kg, or apomorphine, 0.3 mg/kg, were administered IP 5 min before the tests. The results show that on all measures except time spent resting the hemiparkinsonian rats with the entopeduncular lesions were more active than the hemiparkinsonian rats with the thalamic lesions. The asymmetrical rotation responses to dopamine receptor stimulation evoked by amphetamine and apomorphine were influenced by the general effect on gross motor behavior, as shown by the response being very large in the entopeduncular group and very small in the thalamic group. These results are consistent with current thinking about the functional organization of the basal ganglia according to which damage of the entopeduncular nucleus reduces its inhibitory control of the thalamic motor regions, thereby promoting thalamic facilitation of motor cortex, and damage to the thalamic motor regions has the opposite effect. These effects of the lesions translate, respectively, into hyperactivity and hypoactivity without blocking the asymmetrical rotation response of the hemiparkinsonian rat.
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PMID:Entopeduncular lesions facilitate and thalamic lesions depress spontaneous and drug-evoked motor behavior in the hemiparkinsonian rat. 1130 59

When addressing the nature of ecological adaptation and environmental factors limiting population ranges and contributing to speciation, it is important to consider not only the plant's genotype and its response to the environment, but also any close interactions that it has with other organisms, specifically, symbiotic microorganisms. To investigate this, soils and seedlings were reciprocally transplanted into common gardens of the big sagebrush hybrid zone in Salt Creek Canyon, Utah, to determine location and edaphic effects on the fitness of parental and hybrid plants. Endophytic symbionts and functional microbial diversity of indigenous and transplanted soils and sagebrush plants were also examined. Strong selection occurred against the parental genotypes in the middle hybrid zone garden in middle hybrid zone soil; F(1) hybrids had the highest fitness under these conditions. Neither of the parental genotypes had superior fitness in their indigenous soils and habitats; rather F(1) hybrids with the nonindigenous maternal parent were superiorly fit. Significant garden-by-soil type interactions indicate adaptation of both plant and soil microorganisms to their indigenous soils and habitats, most notably in the middle hybrid zone garden in middle hybrid zone soil. Contrasting performances of F(1) hybrids suggest asymmetrical gene flow with mountain, rather than basin, big sagebrush acting as the maternal parent. We showed that the microbial community impacted the performance of parental and hybrid plants in different soils, likely limiting the ranges of the different genotypes.
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PMID:Genotype, soil type, and locale effects on reciprocal transplant vigor, endophyte growth, and microbial functional diversity of a narrow sagebrush hybrid zone in Salt Creek Canyon, Utah. 2163 12

Capacitive deionization (CDI) is an electrochemical method of removing salt ions from brackish water. A common assumption in CDI is that monovalent ions (e.g., Na⁺, Cl^-) are removed in a 1:1 symmetry on the electrodes. Validation of this assumption with techniques such as ion chromatography is not commonly performed, but is important to better understand how parasitic process, such as faradaic reactions, affect ion removals. In this study, we quantified the removals of Na⁺ and Cl^- as a function of electrode orientation in flow-through CDI. When the cathode was positioned upstream, Na⁺ and Cl^- removals approached a 1:1 symmetry, but when the anode was located upstream, we observed a significant drop in Na⁺, but not Cl^-, removals. We attributed this drop to oxygen reduction reactions at the cathode that competed with Na⁺ adsorption. Oxidation of carbon in the upstream anode yielded H⁺ that enhanced the reduction of oxygen to H₂O₂ at the downstream cathode, which in turn diverted electrons from Na⁺ adsorption. In the absence of oxygen, Na⁺ removals increased in the upstream anode orientation and were comparable to Cl^- removals, confirming that competition with oxygen reduction reactions was the primary reason for decreased Na⁺ removal. In the upstream cathode orientation, we show that H₂O₂ generated at the cathode can be oxidized at the downstream anode, possibly enhancing Na⁺ removals via internal electron recycling. Salt adsorption capacities calculated using actual ion removals did not always agree with those estimated using changes in solution conductivity, with the largest disagreement observed when conductivity data were corrected for pH changes. Our results highlight that faradaic reactions, particularly oxygen reduction reactions, can contribute to asymmetrical removals of monovalent ions in flow-through CDI.
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PMID:Asymmetrical removal of sodium and chloride in flow-through capacitive deionization. 3272 4