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991.
In plasmid NR1 the expression of genes involved in mercury resistance (Tn21) is regulated by the trans-acting product of the merR gene. An in vivo T7 RNA polymerase-promoter overexpression system was used to detect a protein of approximately 16,000 daltons encoded by the merR reading frame. Overexpressed MerR constituted about 5% of labeled proteins. An in vitro MerR-mer-op (mer-op is the mer operator and promoter region) gel electrophoresis binding assay established that the binding site for MerR was located between the putative -35 and -10 sequences of the promoter for the mer structural genes. A nonsense mutation in the carboxyl half of MerR resulted in the loss of biological function and the loss of in vitro mer-op binding properties.  相似文献   
992.
993.
The adk gene encoding adenylate kinase in Escherichia coli was cloned in pBR322. Adenylate kinase represented about 4% of total proteins in extracts of cells containing the pBR322:adk plasmid. This allowed preparation of more than 90% pure enzyme in a single-step purification procedure. Amino acid analysis, high performance liquid chromatography separation of trypsin digests, sequence analysis of most peptides, and determination of the N-terminal sequence of the whole protein confirmed the primary structure of E. coli adenylate kinase predicted from the nucleotide sequence of the adk gene (Brune, M., Schumann, R., and Wittinghofer, F. (1985) Nucleic Acids Res. 13, 7139-7151). 2-Nitro-5-thiocyanatobenzoic acid reacted with the single cysteine residue of E. coli adenylate kinase. The cyanylated protein was cleaved upon exposure to alkaline pH, yielding two peptides corresponding to residues 1-76 and 77-214, respectively. A mixture of purified peptides tended to reassociate, recovering both catalytic activity and binding properties for adenine nucleotides. E. coli adenylate kinase has a broader specificity for nucleoside monophosphates than does the mammalian enzyme. In addition to 2'-dAMP, other nucleoside monophosphates such as 3'-dAMP, adenine-9-beta-D-arabinofuranoside 5'-monophosphate, and 7-deazaadenosine (tubercidine) 5'-monophosphate were able to replace AMP as substrate.  相似文献   
994.
995.
The nuclear gene encoding the Rieske iron-sulfur protein of the cytochrome bc1 complex of the mitochondrial respiratory chain has been isolated and characterized from Saccharomyces cerevisiae. We used a segment of the iron-sulfur protein gene from Neurospora crassa (Harnisch, U., Weiss, H., and Sebald, W. (1985) Eur. J. Biochem. 149, 95-99) to detect the yeast gene by Southern analysis. Five different but overlapping clones were then isolated by probing a yeast genomic library carried on YEp 13 by colony lift hybridization. Several approaches confirmed that the isolated DNA contained the gene for the Rieske iron-sulfur protein. The yeast gene, which contains no introns, can be expressed in Escherichia coli. A 900-base pair HindIII-EcoRI fragment was subcloned into pUC19 and directed the synthesis of immunodetectable protein. The gene was also identified by disruption of its chromosomal copy by homologous integration. A 400 base pair PstI-EcoRI fragment cloned adjacent to a HIS3 marker in pUC18 was used as an integrating vector. HIS+ transformants were obtained which were unable to grow on the nonfermentable carbon source glycerol. Southern analysis of the respiration deficient (gly-) strains confirmed that the chromosomal copy of the gene was disrupted, and immunoblots of extracts of the transformants indicated a lack of iron-sulfur protein. A respiration-deficient integrant was transformed to GLY+ by a 2-kilobase pair HindIII-BglII fragment, including a complete copy of the gene, carried on a multicopy episomal vector. Immunoblots with monoclonal antibodies to the iron-sulfur protein indicated overproduction of the protein in the complemented strain and revealed expression of approximately equal amounts of mature iron-sulfur protein and of a protein approximately 3 kDa larger than the mature protein in the complemented strain. A 1.2-kilobase pair segment of DNA from the clone which complemented the disrupted strains was sequenced and found to contain an open reading frame of 645 nucleotides, capable of encoding a 21,946-dalton protein. The gene is flanked by consensus signal sequences for initiation and termination which are common in yeast and is preceded by a possible upstream activating sequence. Amino acid sequence analysis of the amino-terminal end of the mature iron-sulfur protein agreed exactly with that predicted by the nucleotide sequence starting at Lys-31.(ABSTRACT TRUNCATED AT 400 WORDS)  相似文献   
996.
A soluble phosphoinositide-specific phospholipase C (PLC) was purified 58,000-fold from bovine brain. The enzyme, one of six distinct PLC activities detected in brain, accounted for approximately 15% of the soluble phosphatidylinositol-4,5-bisphosphate-phospholipase C (PIP2-PLC) activity in this tissue. The purification scheme included hydrophobic chromatography on phenyl-Sepharose and affinity chromatography on phosphatidylinositol-Sepharose (PI-Sepharose). The enzyme was specifically eluted from the PI-Sepharose with PI, calcium, and detergent. The purified PLC had an estimated molecular weight of 88,000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis and behaved as a monomeric protein during sedimentation on glycerol gradients. The enzyme required calcium for activity, exhibited a pH optimum of 6.5, and cleaved only phosphoinositides. The rates of PIP2 and phosphatidyl-4-monophosphate hydrolysis exceeded the rate of PI hydrolysis under all conditions tested. These properties are consistent with a potential role for this PLC in the early events involved in cellular calcium mobilization.  相似文献   
997.
Alanine dehydrogenase from Bacillus cereus, a non-allosteric enzyme composed of six identical subunits, was purified to homogeneity by chromatography on blue-Sepharose and Sepharose 6B-CL. Like other pyridine-linked dehydrogenases, alanine dehydrogenase is inhibited by Cibacron blue, competitively with respect to NADH and noncompetitively with respect to pyruvate. The enzyme was inactivated by 0.1 M glycine/HCl (pH 2) and reactivated by 0.1 M phosphate (pH 8) supplemented with NAD+ or NADH. The reactivation was characterized by sigmoidal kinetics indicating a complex mechanism involving rate-limiting folding and association steps. Cibacron blue interfered with renaturation, presumably by competition with NADH. Chromatography on Sepharose 6B-CL of the partially renatured alanine dehydrogenase led to the separation of several intermediates, but only the hexamer was characterized by enzymatic activity. By immobilization on Sepharose 4B, alanine dehydrogenase from B. cereus retained 66% of the specific activity of the soluble enzyme. After denaturation of immobilized alanine dehydrogenase with 7 M urea, 37% of the initial protein was still bound to Sepharose, indicating that on the average the hexamer was attached to the matrix via, at most, two subunits. The ability of the denatured, immobilized subunits to pick up subunits from solution shows their capacity to fold back to the native conformation after urea treatment. The formation of "hybrids" between subunits of enzyme from B. cereus and Bacillus subtilis demonstrates the close resemblance of the tertiary and quaternary structures of alanine dehydrogenases from these species.  相似文献   
998.
The mechanism of cytotoxic action of 5-fluorodeoxyuridine (FdUrd) in mouse FM3A cells was investigated. We observed the FdUrd-induced imbalance of intracellular deoxyribonucleoside triphosphate (dNTP) pools and subsequent double strand breaks in mature DNA, accompanied by cell death. The imbalance of dNTP pools was maximal at 8 h after 1 microM FdUrd treatment; a depletion of dTTP and dGTP pools and an increase in the dATP pool were observed. The addition of FdUrd in culture medium induced strand breaks in DNA, giving rise to a 90 S peak by alkaline sucrose gradient sedimentation. The loss of cell viability and colony-forming ability occurred at about 10 h. DNA double strand breaks as measured by the neutral elution method were also observed in FdUrd-treated cells about 10 h after the addition. These results lead us to propose that DNA double strand breaks play an important role in the mechanism of FdUrd-mediated cell death. A comparison of the ratio of single and double strand breaks induced by FdUrd to that observed following radiation suggested that FdUrd produced double strand breaks exclusively. Cycloheximide inhibited both the production of DNA double strand breaks and the FdUrd-induced cell death. An activity that can induce DNA double strand breaks was detected in the lysate of FdUrd-treated FM3A cells but not in the untreated cells. This suggests that FdUrd induces the cellular DNA double strand breaking activity. The FdUrd-induced DNA strand breaks and cell death appear to occur in the S phase. Our results indicate that imbalance of the dNTP pools is a trigger for double strand DNA break and cell death.  相似文献   
999.
Beef heart mitochondrial F1 possesses three pyrophosphate-binding sites, which comprises one high affinity binding site (Kd approximately equal to 1 microM) and two lower affinity sites (Kd approximately equal to 20 microM). High affinity pyrophosphate binding required the presence of Mg2+ in the incubation medium. Pyrophosphate competed with ADP, but not with Pi for binding to mitochondrial F1. Upon binding of 3 mol of pyrophosphate/mol of F1, one of the three tightly bound nucleotides present in native F1 was released. Like ADP and in contrast to Pi, pyrophosphate enhanced the fluorescence intensity of F1-bound aurovertin, and it prevented the photolabeling of F1 by 2-azido-ADP. As aurovertin and 2-azido-ADP are ligands of the beta subunit of F1, it is likely that pyrophosphate binds preferentially to the beta subunit. Whereas the binding affinity of F1 for Pi was increased by concentrations of pyrophosphate lower than 100 microM, it was decreased by a higher concentration of pyrophosphate. This biphasic effect of pyrophosphate on Pi binding was not observed with ADP, which, at all concentrations tested, inhibited Pi binding. Except for the effect of pyrophosphate on Pi binding to F1, for all the other effects, pyrophosphate mimicked ADP. It is suggested that pyrophosphate and ADP share the same binding site on F1 and that pyrophosphate interacts with the same amino acid residues as those interacting with the alpha and beta phosphate groups of ADP.  相似文献   
1000.
Fast Ca2+ uptake into K+-depolarized cultured bovine adrenal chromaffin cells has been isotopically measured in a time scale of 1-10 s. Depolarized cells retained as much as 80-fold 45Ca2+ taken up by resting cells; Ca2+ was not taken up by fibroblasts or endothelial-like cells. Because Ca2+ entry was inhibited by inorganic (La3+, Co2+, Mg2+) and organic (nifedipine) Ca2+ channel antagonists and enhanced by the Ca2+ channel activator Bay-K-8644, it seems clear that Ca2+ gains access to the chromaffin cell cytosol mainly through specific voltage-dependent Ca2+ channels. Ca2+ uptake evoked by 59 mM K+ was linear during the first 5 s of stimulation and continued to rise at a much slower rate up to 60 s. The rate of Ca2+ entry became steeper as the external [Ca2+] increased; initial rates of Ca2+ uptake varied from 0.06 fmol/cells . s at 0.125 mM Ca2+ to 2.85 fmol/cell . s at 7.5 mM Ca2+. The early 90Sr2+ uptake was linear but faster than Ca2+ uptake and later on was also saturated; 133Ba2+ was taken up still at a much faster rate and was linear for the entire depolarization period (2-60 s). Increased [K+] gradually depolarized chromaffin cells; Ca2+ and Sr2+ uptakes were not apparent below 30 mM K+ but were linear for 30 to 60 mM K+. In contrast, substantial Ba2+ uptake was seen even in K+-free solutions; and in 5.9 mM K+, Ba2+ uptake was as high as Ca2+ uptake obtained in 60 mM K+. Five to ten-second pulses of 45Ca2+, 90Sr2+, or 133Ba2+ given at different times after pre-depolarization of chromaffin cells served to analyze the kinetics of inactivation of the rates of entry of each divalent cation. Inactivation of Ca2+ uptake was faster than Sr2+, and Ba2+ uptake inactivated very little. Neither voltage changes nor Ca2+ ions passing through the channels seems to cause their inactivation; however, experiments aimed to manipulate the levels of internal Ca2+ using the cell-permeable chelator Quin-2 or the ionophore A23187 strongly suggest that intracellular Ca2+ levels determine the rates of inactivation of these channels.  相似文献   
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