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991.
It is believed that human progesterone receptor (PR) contains a ligand binding subunit A (83 kDa) or subunit B (120 kDa) and 2 copies of heat shock proteins (hsp90) of molecular weight 90 kDa. To elucidate the mechanism of hormone binding, we employed radiation inactivation to determine its functional size. The functional masses determined in the presence of glycerol, molybdate and potassium chloride were 120 \pm 14, 124 \pm 13 and 130 \pm 20 kDa, respectively. From scatchard plot analysis, the radiation decreased the binding sites and increased the binding affinity of PR with ligand. The functional masses of PR dissolved in the three variant buffers were similar to the molecular weight of PR subunit B. The results implied that PR subunit B could bind with ligand despite hsp90 and hsp90 was not involved in the PR binding to progesterone. 相似文献
992.
Cilia and flagella play key roles in development and sensory transduction, and several human disorders, including polycystic kidney disease, are associated with the failure to assemble cilia. Here, we show that the aurora protein kinase CALK in the biflagellated alga Chlamydomonas has a central role in two pathways for eliminating flagella. Cells rendered deficient in CALK were defective in regulated flagellar excision and regulated flagellar disassembly. Exposure of cells to altered ionic conditions, the absence of a centriole/basal body for nucleating flagellar assembly, cessation of delivery of flagellar components to their tip assembly site, and formation of zygotes all led to activation of the regulated disassembly pathway as indicated by phosphorylation of CALK and the absence of flagella. We propose that cells have a sensory pathway that detects conditions that are inappropriate for possession of a flagellum, and that CALK is a key effector of flagellar disassembly in that pathway. 相似文献
993.
The conjugation of the protein transduction domain (PTD) from the HIV-1 Tat protein to shell-cross-linked (SCK) nanoparticles is reported as a method to facilitate cell surface binding and transduction of SCK nanoparticles. Attaching increasing numbers of peptide sequences to SCK nanoparticles in a global solution-state functionalization strategy has been devised as a method for increasing the efficiency of the cell-penetrating process. The numbers of peptides per SCK were controlled through stoichiometric balance and measured experimentally by two independent methods, UV-visible spectroscopy and phenylglyoxal analysis. PTD was conjugated in (0.005, 0.01, and 0.02) molar ratios, relative to the acrylic acid residues in the shell, to the SCK nanoparticles resulting in SCK populations possessing nominally 52, 104, and 210 (41, 83, and 202 as measured by phenylglyoxal analysis) PTD peptides per particle, respectively. The methodologies for the block copolymer and nanoparticle syntheses, peptide derivatization, and characterization of peptide-functionalized SCK nanoparticles are reported and the feasibility and efficiency of intracellular internalization of the respective SCKs were quantified. 相似文献
994.
Colchicine is a potent chemical that disrupts the assembly of microtubulin and affects the integrity of cytoskeleton. It is commonly used to block the axonal transport in neurons. Central administration of colchicine (48 microg/3 microl/rat) two days earlier significantly lowered 3,4-dihydroxyphenylacetic acid (DOPAC) levels in the striatum and nucleus accumbens, both in the morning and in the afternoon. Median eminence DOPAC levels exhibit a diurnal change between morning and afternoon as previously shown. Colchicine treatment lowered and elevated median eminence DOPAC levels in the morning and afternoon, respectively. The estrogen-induced prolactin surge was also blocked. The findings indicate that neuronal inputs are necessary for maintaining basal activities in all dopaminergic neurons, while an inhibitory one predominates in the afternoon for TIDA neurons. 相似文献
995.
Platelet-derived growth factor (PDGF) exerts neurotrophic and neuromodulatory effects on the CNS. To determine the permeability of the blood-brain barrier (BBB) to PDGF, we examined the blood-to-brain influx of radioactively labeled PDGF isoforms (PDGF-AA and PDGF-BB) by multiple-time regression analysis after intravenous (i.v.) injection and by in-situ perfusion, and also determined the physicochemical characteristics which affect their permeation across the BBB, including lipophilicity (measured by octanol:buffer partition coefficient), hydrogen bonding (measured by differences in octanol : buffer and isooctane : buffer partition coefficients), serum protein binding (measured by capillary electrophoresis), and stability of PDGF in blood 10 min after i.v. injection (measured by HPLC). After i.v. bolus injection, neither 125I-PDGF-AA nor 125I-PDGF-BB crossed the BBB, their influx rates being similar to that of the vascular marker 99mTc-albumin. 125I-PDGF-AA degraded significantly faster in blood than 125I-PDGF-BB. PDGF-BB, however, was completely bound to a large protein in serum whereas PDGF-AA showed no binding. Thus, degradation might explain the poor blood-to-brain influx of PDGF-AA, whereas protein binding could explain the poor influx of circulating PDGF-BB. Despite their lack of permeation in the intact mouse, both 125I-PDGF-AA and 125I-PDGF-BB entered the brain by perfusion in blood-free buffer, and the significantly faster rate of 125I-PDGF-AA than 125I-PDGF-BB may be explained by the lower hydrogen bonding potential of 125I-PDGF-AA. Thus, the lack of significant distribution of PDGF from blood to brain is not because of the intrinsic barrier function of the BBB but probably because of degradation and protein binding. Information from these studies could be useful in the design of analogues for delivery of PDGF as a therapeutic agent. 相似文献
996.
On modelling mean-covariance structures in longitudinal studies 总被引:4,自引:0,他引:4
997.
Cytosolic CuZnSOD removes deleterious superoxides from plant cells. In order to understand its function better, we sought to express a monocot CuZnSODgene in transgenic Arabidopsis. We constructed a transgene usingthe CaMV 35S promoter to express a rice cytosolic CuZnSOD gene in Arabidopsis and generated over 200 transformants. A 16kD polypeptide, the same size as the native rice CuZnSOD polypeptide, was detected inthe transgenic Arabidopsis. Interestingly, two forms of riceCuZnSOD, rSODI and rSODII, having the same dimeric size, were detectedin the transgenic plants. rSODII protein was relatively abundant but hadlow specific activity. In contrast, rSODI protein was relatively rareand had high specific activity. Inter-conversion of rSODI and rSODIIcould be achieved by the addition and removal of copper ions into the purifiedrecombinant SOD and to the leaf extract of transgenic plants. Ouranalysis indicates that rSODI most likely corresponds to native riceCuZnSOD that has incorporated the Cu and Zn ions required for fullactivity, whereas the less active rSODII form may not have properlyincorporated the necessary copper ions. 相似文献
998.
Fu XW Wang D Pan J Farragher SM Wong V Cutz E 《American journal of physiology. Lung cellular and molecular physiology》2001,281(4):L931-L940
Serotonin (5-HT) type 3 receptor (5-HT(3)-R) is a ligand-gated ion channel found primarily in the central and peripheral nervous system. We report expression and functional characterization of 5-HT(3)-R in pulmonary neuroepithelial body (NEB) cells. Using nonisotopic in situ hybridization, we demonstrate expression of 5-HT(3)-R mRNA in NEB cells in the lungs of different mammals (hamster, rabbit, mouse, and human). Dual immunocytochemistry (for 5-HT and 5-HT(3)-R) and confocal microscopy localized 5-HT(3)-R on NEB cell plasma membrane from rabbit. The electrophysiological characteristics of 5-HT(3)-R in NEB cells were studied in fresh slices of neonatal hamster lung using the whole cell patch-clamp technique. Application of the 5-HT (5-150 microM) and 5-HT(3)-R agonist 2-methyl-5-HT (5-150 microM) induced inward currents in a concentration-dependent manner. The 5-HT-induced current was blocked (76.5 +/- 5.9%) by the specific 5-HT(3)-R antagonist ICS-205-930 (50 microM), whereas katanserin and p-4-iodo-N-(2-[4-(methoxyphenyl)-1-piperazinyl]ethyl)-N-2-pyridinylbenzamide had minimal effects. Forskolin had no effect on desensitization and amplitude of the 5-HT-induced current. The reduction of Ca(2+) and Mg(2+) in the extracellular solution enhanced the amplitude of the 5-HT-induced current because of slower desensitization. Our studies suggest that 5-HT(3)-R in NEB cells may function as an autoreceptor and may potentially be involved in modulation of hypoxia signaling. 相似文献
999.
The stress- and abscisic acid-induced barley gene HVA22: developmental regulation and homologues in diverse organisms 总被引:6,自引:0,他引:6
Abscisic acid (ABA) induces the expression of a battery of genes in mediating plant responses to environmental stresses. Here we report one of the early ABA-inducible genes in barley (Hordeum vulgare L.), HVA22, which shares little homology with other ABA-responsive genes such as LEA (late embryogenesis-abundant) and RAB (responsive to ABA) genes. In grains, the expression of HVA22 gene appears to be correlated with the dormancy status. The level of HVA22 mRNA increases during grain development, and declines to an undetectable level within 12 h after imbibition of non-dormant grains. In contrast, the HVA22 mRNA level remains high in dormant grains even after five days of imbibition. Treatment of dormant grains with gibberellin (GA) effectively breaks dormancy with a concomitant decline of the level of HVA22 mRNA. The expression of HVA22 appears to be tissue-specific with the level of its mRNA readily detectable in aleurone layers and embryos, yet undetectable in the starchy endosperm. The expression of HVA22 in vegetative tissues can be induced by ABA and environmental stresses, such as cold and drought. Apparent homologues of this barley gene are found in phylogenetically divergent eukaryotic organisms, including cereals, Arabidopsis, Caenorhabitis elegans, man, mouse and yeast, but not in any prokaryotes. Interestingly, similar to barley HVA22, the yeast homologue is also stress-inducible. These observations suggest that the HVA22 and its homologues encode a highly conserved stress-inducible protein which may play an important role in protecting cells from damage under stress conditions in many eukaryotic organisms. 相似文献
1000.