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81.
Abstract: Reactive oxygen species have been implicated in neuronal injury associated with various neuropathological disorders. However, little is known regarding the relationship between antioxidant enzyme capacity and resultant toxicity. The antioxidant pathways of primary cerebrocortical cultures were directly examined using a novel technique that measures pentose phosphate pathway (PPP) activity, which is enzymatically coupled to glutathione peroxidase (GPx) detoxification of hydrogen peroxide (H2O2). PPP activity was quantified from data obtained by gas chromatography/mass spectrometry analysis of released labeled lactate following metabolic degradation of [1,6-13C2,6,6-2H2]glucose by cerebrocortical cultures. The antioxidant capacity of these cultures was systematically evaluated using H2O2, and the resultant toxicity was quantified by lactate dehydrogenase release. Exposure of primary mixed and purified astrocytic cultures to H2O2 caused stimulation of PPP activity in a concentration-dependent fashion from 0.25 to 22.2% and from 6.9 to 66.7% of glucose metabolized to lactate through the PPP, respectively. In the mixed cultures, chelation of iron before H2O2 exposure was protective and resulted in a correlation between PPP saturation and toxicity. Conversely, addition of iron, inhibition of GPx, or depletion of glutathione decreased H2O2-induced PPP stimulation and increased toxicity. These results implicate the Fenton reaction, reflect the pivotal role of GPx in H2O2 detoxification, and contribute to our understanding of the etiological role of free radicals in neuropathological conditions. 相似文献
82.
Desulfurization of dibenzothiophene derivatives by whole cells of Rhodococcus erythropolis H-2 总被引:3,自引:0,他引:3
Abstract Transposon mutagenesis was performed to pursue the molecular basis of carbazole catabolic pathway in a carbazple-using bacterium, Pseudomonas sp. CA10. One mutant, TD2, was capable of using anthranilic acid but not carbazole as its sole source of carbon, nitrogen, and energy. Another isolated mutant, designated as TE1, was found to have the opposite ability as TD2. TD2 could not convert carbazole to any other compound under cometabolic conditions. On the other hand, TE1 accumulated catechol and cis,cis -muconate from carbazole. The clone containing Tn 5 -flanking region from TD2, showed the meta -cleavage activity for biphenyl-2,3-diol and analysis of the DNA sequence of this region suggests that the genes involved in the degradation of aromatic compounds are clustered. Our analysis of the DNA sequence of another clone from mutant TE1 showed that the Tn 5 -Mob can be inserted into the homologous catR gene, a gene that reportedly enpodes the positive regulatory protein of the catBC operon. These data suggests that carbazole catabolic pathway comprises at least two different gene clusters (upper pathway and lower pathway) in Pseudomonas sp. CA10. 相似文献
83.
84.
85.
Charles P. Moehs Paul V. Allen Mendel Friedman William R. Belknap 《Plant molecular biology》1996,32(3):447-452
We have isolated a cDNA encoding transaldolase, an enzyme of the pentose-phosphate pathway, from potato (Solanum tuberosum). The 1.5 kb cDNA encodes a protein of 438 amino acid residues with a molecular mass of 47.8 kDa. When the potato cDNA was expressed in Escherichia coli a 45 kDa protein with transaldolase activity was produced. The first 62 amino acids of the deduced amino acid sequence represent an apparent plastid transit sequence. While the potato transaldolase has considerable similarity to the enzyme from cyanobacteria and Mycobacterium leprae, similarity to the conserved transaldolase enzymes from humans, E. coli and Saccharomyces cerevisiae is more limited. Northern analysis indicated that the transaldolase mRNA accumulated in tubers in response to wounding. Probing the RNA from various potato tissues indicated that the transaldolase mRNA accumulation to higher levels in the stem of mature potato plants than in either leaves or tubers. These data are consistent with a role for this enzyme in lignin biosynthesis. 相似文献
86.
力复霉素前体甲基丙二酰CoA合成途径的研究 总被引:5,自引:1,他引:4
力复霉素合成的碳前体之一(2R)—甲基丙二酰CoA至少可以有三条酶学合成途径。三条途径中的关键酶分别为甲基丙二酰CoA转羧基酶、丙二酰CoA羧化酶、甲基丙二酰CoA变位酶和甲基丙二酰CoA消旋酶。通过比较各个酶活性的时间进程和力复霉素合成时间的相关性,以及各个酶的底物亲合力,对它们在地中海拟无枝酸菌(Amycolatopsis mediterranei)甲基丙二酰CoA合成中的贡献作了排序,发现甲基丙二酰CoA变位酶途径是主要负责酶系。但是各个途径的贡献排序并不是固定不变的,能受到环境因素的调控,丙酸盐的加入将抑制甲基丙二酰CoA变位酶活力,而使得甲基丙二酰CoA转羧基酶成为主要酶系。甲基丙二酰CoA合成途径的多样性有助于细胞对环境变化的灵活反应。此外,对各个酶的调控特性也进行了研究。 相似文献
87.
Inositol lipid signaling relies on an InsP3-induced Ca2+ release from intracellular stores and on extracellular Ca2+ entry, which takes place when the Ca2+ stores become depleted of Ca2+. This interplay between Ca2+ release and Ca2+ entry has been termed capacitative Ca2+ entry and the inward current calcium release activated current (CRAC) to indicate gating of Ca2+ entry by Ca2+-store depletion. The signaling pathway and the gating mechanism of capacitative Ca2+ entry, however, are largely unknown and the molecular participants in this process have not been identified. In this article
we review genetic, molecular, and functional studies of wild-type and mutantDrosophila photoreceptors, suggesting that thetransient receptor potential mutant (trp) is the first putative capacitative Ca2+ entry mutant. Furthermore, several lines of evidence suggest that thetrp gene product TRP is a candidate subunit of the plasma membrane channel that is activated by Ca2+ store depletion. 相似文献
88.
A 4-chlorophenol (4-CP)-degrading bacterium, strain CPW301, was isolated from soil and identified as Comamonas testosteroni. This strain dechlorinated and degraded 4-CP via a meta-cleavage pathway. CPW301 could also utilize phenol as a carbon and energy source without the accumulation of any metabolites via the same meta-cleavage pathway. When phenol was added as a additional substrate, CPW301 could degrade 4-CP and phenol simultaneously. The addition of phenol greatly accelerated the degradation of 4-CP due to the increased cell mass. The simultaneous degradation of the 4-CP and phenol is useful not only for enhanced cell growth but also for the bioremediation of both compounds, which are normally present in hazardous waste sites as a mixture. 相似文献
89.
We have examined the distribution and extent of phosphorylation of the tight junction-associated protein ZO-1 in the epithelial MDCK cell line, and in three cell types that do not form tight junctions: S180 (sarcoma) cells, S180 cells transfected with E-cadherin (S180L), and primary cultures of astrocytes. In shortterm calcium chelation experiments on MDCK cells, removal of extracellular calcium caused cells to pull apart. However, ZO-1 remained concentrated at the plasma membrane and no change in ZO-1 phosphorylation was observed. Maintenance of MDCK cells in low calcium medium, conditions where no tight junctions are found, resulted in altered ZO-1 distribution and lower total phosphorylation of the protein. In S180 cells, ZO-1 was diffusely distributed along the entire cell surface, with concentration of the antigen in motile regions of the cell. Cell-cell contact was not a prerequisite for ZO-1 localization at the plasma membrane in this cell type, and the phosphate content of ZO-1 was found to be lower in S180 cells relative to MDCK cells. Expression of Ecadherin in S180L cells did not alter either the distribution or phosphorylation of ZO-1. In contrast to S180 cells, ZO-1 in primary cultures of astrocytes was concentrated at sites of cell-cell contact, and the phosphorylation state was the same as that in control MDCK cells. Comparison of one-dimensional proteolytic digests of 32P-labeled ZO-1 revealed the phosphorylation of two peptides in control MDCK cells that was absent in both MDCK cells grown in low calcium and in S180 cells.We would like to thank Cheryl Richards for her help with the cell culture and immunohistochemistry; David Begg, Gary Firestone, Vik Maraj, Manijeh Pasdar and Colin Rasmussen for helpful discussions; Jaclyn Peebles and Greg Morrison for help with graphics and photography; and Grace Martin and Bob Campenot for rat tail collagen. We are grateful to all the members of our laboratories for their friendship, advice and support. This work was supported by an Establishment Award to B.R.S. from the Alberta Heritage Foundation for Medical Research and grants to B.R.S. from the Kidney Foundation of Canada and the Medical Research Council of Canada. A.H. is funded by a Studentship from the AHFMR. K.L.S. was supported by a grant from the National Institutes of Health (DK-42799) to Gary L. Firestone. B.R.S. is a Medical Research Council of Canada and AHFMR Scholar. 相似文献
90.
Odile Ozier-Kalogeropoulos Marie-Thérèse Adeline Weng-Lang Yang George M. Carman François Lacroute 《Molecular & general genetics : MGG》1994,242(4):431-439
In the pyrimidine biosynthetic pathway, CTP synthetase catalyses the conversion of uridine 5-triphosphate (UTP) to cytidine 5-triphosphate (CTP). In the yeast Saccharomyces cerevisiae, the URA7 gene encoding this enzyme was previously shown to be nonessential for cell viability. The present paper describes the selection of synthetic lethal mutants in the CTP biosynthetic pathway that led us to clone a second gene, named URA8, which also encodes a CTP synthetase. Comparison of the predicted amino acid sequences of the products of URA7 and URA8 shows 78% identity. Deletion of the URA8 gene is viable in a haploid strain but simultaneous presence of null alleles both URA7 and URA8 is lethal. Based on the codon bias values for the two genes and the intracellular concentrations of CTP in strains deleted for one of the two genes, relative to the wild-type level, URA7 appears to be the major gene for CTP biosynthesis. Nevertheless, URA8 alone also allows yeast growth, at least under standard laboratory conditions. 相似文献