共查询到20条相似文献,搜索用时 15 毫秒
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R A Hogue-Angeletti 《The Journal of biological chemistry》1975,250(19):7814-7818
The subunit structure and amino acid composition of xylose isomerase from Streptomyces albus have been examined. A native molecular weight of 165,000 determined by sedimentation equilibrium was reduced to 43,000 when the protein was treated with 6 M guanidine hydrochloride. No further reduction in molecular weight was observed when potential disulfide bridges of xylose isomerase were reduced and alkylated, indicating that the protein was devoid of interchain disulfide bonds. NH2-terminal analysis using [3H]dansyl chloride showed 0.86 residues of methionine per Mr equals 41,500 unit. Analysis of the native protein with an automated protein sequenator revealed the presence of only one degradable polypeptide chain. Fractionation of the soluble tryptic peptides of S-[14C]carboxymethyl xylose isomerase by ion exchange chromatography and one-dimensional paper electrophoresis yielded 37 to 43 peptides. When the acid-insoluble tryptic peptides were dissolved and analyzed using gel filtration techniques, and additional four peptides were found. A unique radioactive tryptic peptide containing S-carboxymethylcysteine was found among the soluble peptides, confirming cysteine as the limiting amino acid residue in the amino acid composition of xylose isomerase. On the basis of its lysine and arginine content, the number of tryptic peptides is consistent with the hypothesis that the native xylose isomerase is a tetramer of four very similar or identical subunits of Mr equals 41,500, associated by noncovalent bonds. 相似文献
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T Hasegawa H Himeno H Ishikura M Shimizu 《Biochemical and biophysical research communications》1989,163(3):1534-1538
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B H Berg 《Biochimica et biophysica acta》1975,414(2):93-98
A method is described which permits the simultaneous isolation and separation of insoluble aminoacyl-tRNA synthetase protein - RNA complexes containing high specific synthetase activity, and soluble tRNA which retains 25% to 50% of its specific amino acid accepting activity. A possible amino acid accepting activity of the RNA part of the insoluble aminoacyl-tRNA synthetase protein - RNA complex was investigated by assaying the unchanged complex and the RNA obtained after dissociation from the protein part of the synthetase complex. No amino acid accepting activity was found. 相似文献
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Most of the iminoproton resonances in the 1H-NMR spectrum of Bombyx mori tRNA(UCCGly) have been assigned by the sequential NOEs. Any peak which indicates the presence of the tertiary GC base pair between the D and T loops could not be detected. The effects of temperature and the addition of magnesium ions and spermine on the 1H-NMR spectrum of this tRNA were examined. From the temperature change, it was found that the acceptor stem and the D stem in Bombyx mori tRNA(UCCGly) are equally stable even in the absence of magnesium, which is different from tRNA(GCCGly) where the D stem is not so stable. 相似文献
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In this research, the role of amino acid residue P272 of arginine kinase (AK) was investigated by site-directed mutagenesis. When the structure of AK was impaired by mutation, AK was in a partially unfolded state with more hydrophobic exposure, which was prone to aggregate under environmental stresses. Mutation at this position influences transition from the molten globule intermediate to the native state in folding process. The results provided herein may suggest that some residues near the active site may play a relatively important role in keeping AK activity and structural stability. 相似文献
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We have recently reported an in vitro-evolved precursor tRNA (pre-tRNA) that is able to catalyze aminoacylation on its own 3'-hydroxyl group. This catalytic pre-tRNA is susceptible to RNase P RNA, generating the 5'-leader ribozyme and mature tRNA. The 5'-leader ribozyme is also capable of aminoacylating the tRNA in trans, thus acting as an aminoacyl-tRNA synthetase-like ribozyme (ARS-like ribozyme). Here we report its structural characterization that reveals the essential catalytic core. The ribozyme consists of three stem-loops connected by two junction regions. The chemical probing analyses show that a U-rich region (U59-U62 in J2a/3 and U67-U68 in L3) of the ribozyme is responsible for the recognition of the phenylalanine substrate. Moreover, a GGU-motif (G70-U72) of the ribozyme, adjacent to the U-rich region, forms base pairs with the tRNA 3' terminus. Our demonstration shows that simple RNA motifs can recognize both the amino acid and tRNA simultaneously, thus aminoacylating the 3' terminus of tRNA in trans. 相似文献
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The Escherichia coli trmA gene encodes the tRNA(m5U54)methyltransferase, which catalyses the formation of m5U54 in tRNA. During the synthesis of m5U54, a covalent 62-kDa TrmA-tRNA intermediate is formed between the amino acid C324 of the enzyme and the 6-carbon of uracil. We have analysed the formation of this TrmA-tRNA intermediate and m5U54 in vivo, using mutants with altered TrmA. We show that the amino acids F188, Q190, G220, D299, R302, C324 and E358, conserved in the C-terminal catalytic domain of several RNA(m5U)methyltransferases of the COG2265 family, are important for the formation of the TrmA-tRNA intermediate and/or the enzymatic activity. These amino acids seem to have the same function as the ones present in the catalytic domain of RumA, whose structure is known, and which catalyses the formation of m5U in position 1939 of E. coli 23S rRNA. We propose that the unusually high in vivo level of the TrmA-tRNA intermediate in wild-type cells may be due to a suboptimal cellular concentration of SAM, which is required to resolve this intermediate. Our results are consistent with the modular evolution of RNA(m5U)methyltransferases, in which the specificity of the enzymatic reaction is achieved by combining the conserved catalytic domain with different RNA-binding domains. 相似文献
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Summary The complete amino acid sequence of the major sialoglycoproteins of horse erythrocyte membranes, glycophorin HA, was determined by manual sequencing methods, using tryptic, chymotryptic, and cyanogen bromide fragments. Glycophorin HA is a polypeptide chain of 120 amino acid residues and contains 10 oligosaccharide units attached to the amino-terminal side of the molecule. Its amino terminus is pyroglutamic acid. All of the oligosaccharides are linked O-glycosidically to threonine or serine residues. The amino acid sequence is consistent with the transmembrane orientation of glycophorins.There is no significant homology between the glycosylated domains of horse, human, and porcine glycophorins, but there is a considerable homology between the hydrophobic domains of the three glycophorins, which interact with the lipid bilayer of the erythrocyte membrane. 相似文献
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Arginine kinase (AK) catalyzes the reversible phosphorylation of arginine by ATP, yielding the phosphoarginine. Domain-domain interactions may be very important to the structure and functions of many multidomain proteins. However, little is known about the role of amino acid residues located in the linker between the N- and C-terminal domains in the structural stability and functions of multidomain proteins. In this research, A series mutation of conserved residue Ile121 located in the linker were mutated to explore its roles in the activity and structural stability of AK. The mutations I121D and I121K led to pronounced loss of activity and structural stability. Furthermore, these mutations also led to serious aggregation during heat-and GdnHCl-induced denaturation and refolding from the GdnHCl-denatured state. More importantly, all the mutantions except I121L could not successfully recover their activities by dilution-initiated refolding, and showed significant decreased rate constant during AK refolding. While the mutation I121L almost had no effect on AK activity and structural stability. These results suggested that mutations of the residue I121 in the linker might affect the correct positioning of the domains and thus disrupt the efficient recognition and interactions between the N- and C-terminal domains. 相似文献
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In a previous study, the conserved arginine residue at position 306 of Streptomyces clavuligerus deacetoxycephalsoporin C synthase (scDAOCS), when mutated to leucine, resulted in 191% increase in converting ampicillin to its expanded cephalosporin moiety compared with that of the wild-type enzyme. However, the role of this residue in eliciting the improved enzymatic activity is not well understood. In this study, probing the molecular basis of amino acid substitutions at position 306 has underscored its importance for engineering various improvements in the ring expansion activity. Structural modeling using SwissPdbViewer revealed that R306 is surrounded by a hydrophobic cleft formed by residues Y184, L186, W297, I298, and V303. Hence, the improved activity achieved by the R306L mutation was probably because of better hydrophobic packing in this region. To evaluate the role of amino acids at position 306 of scDAOCS and its influence on the molecular status of the enzyme at this locality, alteration to 18 other amino acids was done by site-directed mutagenesis. The effects of each substitution on the enzyme activity were determined by bioassay using penicillin substrates: ampicillin, penicillin G, phenethicillin, and carbenicillin. Results obtained showed a drastic reduction in enzyme activity when R306 was replaced with charged or polar residues, thus emphasizing the importance of hydrophobic packing around this site. The bioassay results also illustrated that apart from leucine, substitutions to nonpolar residues, isoleucine and methionine, were able to improve the ampicillin conversion activity of scDAOCS by 168 and 113% of the wild-type enzyme activity, respectively. Similar trend of effects from each mutation was also observed for penicillin G, phenethicillin, and carbenicillin conversions. The enhanced enzyme activities were supported by spectrophotometric assay indicating that all these mutants have lower K(m) values (R306L: 1.09 mM; R306I: 2.64 mM; R306M: 5.68 mM) than the wild-type enzyme (8.33 mM), resulting in improvement in the enzyme's substrate binding affinity. Hence, this mutational study of amino acids situated at 306 of scDAOCS has provided a better understanding of the significance of specific amino acid residues at this position which can improve its ring-expansion activity when given a plethora of beta-lactam substrates to generate corresponding, possibly new, cephalosporins. 相似文献
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N Yoshida S Tsuruyama K Nagata K Hirayama K Noda S Makisumi 《Journal of biochemistry》1988,104(3):451-456
A protease was purified 163-fold from Pronase, a commercial product from culture filtrate of Streptomyces griseus, by a series of column chromatographies on CM-Toyopearl (Fractogel), Sephadex G-50, hydroxyapatite, and Z-Gly-D-Phe-AH-Sepharose 4B using Boc-Ala-Ala-Pro-Glu-pNA as a substrate. The final preparation was homogeneous by polyacrylamide gel electrophoresis (PAGE), sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE), and gel isoelectric focusing. Studies on the substrate specificity with peptide p-nitroanilides revealed that this protease preferentially hydrolyzed peptide bonds on the carbonyl-terminal side of either glutamic acid or aspartic acid. It was most active at pH 8.8 for the hydrolysis of Boc-Ala-Ala-Pro-Glu-pNA. The molecular weight of the protease was estimated to be 20,000 by gel filtration on Sepharose 6B using 6 M guanidine hydrochloride as an eluent, and 22,000 by SDS-PAGE in the presence of 2-mercaptoethanol. The isoelectric point of the enzyme was 8.4. The enzyme was inactivated by diisopropyl phosphofluoridate (DFP) but not by p-chloromercuribenzoate (PCMB) or EDTA. 相似文献