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91.
92.
Southeast Asian ovalocytosis (SAO) human red cell membranes contain similar proportions of normal band 3 and a mutant band 3 with a nine amino acid deletion (band 3 SAO). We employed specific chemical modification and proteolytic cleavage to probe the structures of band 3 in normal and SAO membranes. When the membranes were modified specifically at lysine residues with N-hydroxysulfosuccinimide-SS-biotin, band 3 Lys-851 was not modified in normal membranes but quantitatively modified in SAO membranes. Normal and SAO membranes showed different patterns of band 3 proteolytic cleavage. Notably, many sites cleaved in normal membranes were not cleaved in SAO membranes, despite the presence of normal band 3 in these membranes. The mutant band 3 changes the structure of essentially all the normal band 3 present in the SAO membranes, and these changes extend throughout the normal band 3 molecules. The results also imply that band 3 in SAO membranes is present as hetero-tetramers or higher hetero-oligomers. The dominant structural effects of band 3 SAO on the other band 3 allele have important consequences on the functional and hematological properties of human red cells heterozygous for band 3 SAO. Analysis of the altered profile of biotinylation and protease cleavage sites suggests the location of exposed surfaces in the band 3 membrane domain and identifies likely interacting regions within the molecule. Our approach provides a sensitive method for studying structural changes in polytopic membrane proteins. 相似文献
93.
Takashi Ohsato Naotada Ishihara Tsuyoshi Muta Shuyo Umeda Shogo Ikeda Katsuyoshi Mihara Naotaka Hamasaki Dongchon Kang 《European journal of biochemistry》2002,269(23):5765-5770
Mammalian mitochondria contain strong nuclease activity. Endonuclease G (endoG), which predominantly resides in mitochondria, accounts for a large part of this nuclease activity. It has been proposed to act as an RNase H-like nuclease on RNA.DNA hybrids (R-loops) in the D-loop region where the origins of mitochondrial replication are mapped, providing RNA primers for mtDNA replication. However, in contrast with this proposed activity, endoG has recently been shown to translocate to nuclei on apoptotic stimulation and act as a nuclease without sequence specificity. To clarify the role of endoG in mtDNA replication, we examined its submitochondrial localization and its ability to cleave R-loops. At low concentration, it preferentially produces double-stranded breaks in R-loops, but does not act as an RNase H-like nuclease. In addition, it exists in the mitochondrial intermembrane space, but not in the matrix where mtDNA replication occurs. These results do not support the involvement of endoG in mtDNA replication. Based on the fact that guanine tracts, which are preferential targets of endoG, tend to form triplex structures and that endoG produces double-stranded breaks in R-loops, we propose that three-stranded DNA may be the preferred substrate of endoG. 相似文献
94.
Watanabe Kenji Hamasaki Mitsuhiro Nakashima Yukihiko Kakita Yukari Miake Fumio 《Current microbiology》1994,29(4):217-222
To optimize the conditions for transformation ofLactobacillus casei ATCC 27092 cells with plasmid pHY300PLK, a shuttle vector forEscherichia coli andBacillus subtilis, by electroporation, we investigated the effects of the electrical parameters (voltage and resistance), the concentration of plasmid DNA, the cell age and density, the electroporation buffer, and other factors. Under optimal conditions of 2.0 kV, 100 ohm, and 25F, a transformation efficiency as high as 1.4×107 transformants per g of plasmid DNA was obtained, with a survival rate of about 50%.L. casei YIT 9021, one of the PL-1 phage mutants of the ATCC 27092 strain, was also transformed with the same plasmid under optimal conditions. The transformants were confirmed to harbor the same intact plasmid molecules by agarose gel electrophoretic analysis. 相似文献
95.
Stereochemistry during aflatoxin biosynthesis: conversion of norsolorinic acid to averufin. 总被引:7,自引:7,他引:0
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A reaction sequence, norsolorinic acid (NA)-->averantin (AVN)-->5'-hydroxyaverantin (HAVN)-->averufin (AVR), is the early part of a biosynthetic pathway for aflatoxins. In this study, we determined the stereochemical relationship among these metabolites by using chiral high-performance liquid chromatography. In cell-free experiments using the cytosol fraction of Aspergillus parasiticus NIAH-26, (1'S)-AVN was exclusively produced from NA in the presence of NADPH. Also, only (1'S)-AVN, and not (1'R)-AVN, served as a substrate for the reverse reaction from AVN to NA. When the microsome fraction of NIAH-26 was incubated with (1'S)-AVN in the presence of NADPH, two HAVN diastereomers and one AVR enantiomer were formed, whereas these substances were never produced from (1'R)-AVN. Moreover, (1'S,5'R)-AVR was exclusively formed from both HAVN diastereomers by the cytosol fraction in the presence of NAD. The feeding experiments using this mutant showed that aflatoxins were produced from (1'S,5'R)-AVR but not from (1'R,5'S)-AVR. These results indicate that the enzymes involved in this pathway show strict stereospecificity to their substrates and that the configuration of (1'S,5'R)-AVR leading to the formation of aflatoxins is due to the stereospecificity of NA dehydrogenase which catalyzes the reaction between (1'S)-AVN and NA. 相似文献
96.
Ciliary movement is powered by axonemal dynein. This article considers how a signal transduction cascade initiated at the cell membrane may activate outer dynein arms to change the velocity of microtubule sliding and the swimming speed of ciliated cells. For Paramecium, a critical event in the cascade is the cAMP-dependent phosphorylation of a 29 kDa polypeptide that is associated with the outer dynein arm. 相似文献
97.
Cloning and Characterization of the O-Methyltransferase I Gene (dmtA) from Aspergillus parasiticus Associated with the Conversions of Demethylsterigmatocystin to Sterigmatocystin and Dihydrodemethylsterigmatocystin to Dihydrosterigmatocystin in Aflatoxin Biosynthesis 总被引:1,自引:0,他引:1
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Marisa Motomura Naomi Chihaya Takao Shinozawa Takashi Hamasaki Kimiko Yabe 《Applied microbiology》1999,65(11):4987-4994
O-Methyltransferase I catalyzes both the conversion of demethylsterigmatocystin to sterigmatocystin and the conversion of dihydrodemethylsterigmatocystin to dihydrosterigmatocystin during aflatoxin biosynthesis. In this study, both genomic cloning and cDNA cloning of the gene encoding O-methyltransferase I were accomplished by using PCR strategies, such as conventional PCR based on the N-terminal amino acid sequence of the purified enzyme, 5′ and 3′ rapid amplification of cDNA ends PCR, and thermal asymmetric interlaced PCR (TAIL-PCR), and genes were sequenced by using Aspergillus parasiticus NIAH-26. A comparison of the genomic sequences with the cDNA of the dmtA region revealed that the coding region is interrupted by three short introns. The cDNA of the dmtA gene is 1,373 bp long and encodes a 386-amino-acid protein with a deduced molecular weight of 43,023, which is consistent with the molecular weight of the protein determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The C-terminal half of the deduced protein exhibits 76.3% identity with the coding region of the Aspergillus nidulans StcP protein, whereas the N-terminal half of dmtA exhibits 73.0% identity with the 5′ flanking region of the stcP gene, suggesting that translation of the stcP gene may start at a site upstream from methionine that is different from the site that has been suggested previously. Also, an examination of the 5′ and 3′ flanking regions of the dmtA gene in which TAIL-PCR was used demonstrated that the dmtA gene is located in the aflatoxin biosynthesis cluster between (and in the same orientation as) the omtA and ord-2 genes. Northern blotting revealed that expression of the dmtA gene is influenced by both medium composition and culture temperature and that the pattern correlates with the patterns observed for other genes in the aflatoxin gene cluster. Furthermore, Southern blotting and PCR analyses of the dmtA gene showed that a dmtA homolog is present in Aspergillus oryzae SYS-2. 相似文献
98.
Maruyama T Takata T Ichinose H Kamiya N Kuma H Hamasaki N Morita H Goto M 《Biotechnology progress》2005,21(2):575-579
We report a novel and simple method for mutation detection in DNA oligonucleotides using a double-stranded DNA specific dye (SYBR Green I) in nanostructured molecular assemblies, called reverse micelles. The intercalation of SYBR Green I into the duplex DNA exhibits fluorescent emission in a CTAB/isooctane reverse micellar system as well as in an aqueous solution. We found marked differences in the fluorescence intensity between perfectly matched and mismatched 52-mer synthetic oligonucleotides, which were designed to contain the YMDD motif of the hepatitis B virus (HBV) polymerase gene, in a reverse micellar solution. Using this method, we successfully detected a mutation in PCR-amplified oligonucleotides of the HBV polymerase gene in sera of four patients with chronic hepatitis B. This detection method does not require DNA immobilization, chemical modification of DNA, or any special apparatus; it only needs a normal fluorescence spectrophotometer, an inexpensive dye, and just 10 pmol of sample DNA. 相似文献
99.
The FRQ1 gene is essential for growth of budding yeast and encodes a 190-residue, N-myristoylated (myr) calcium-binding protein. Frq1 belongs to the recoverin/frequenin branch of the EF-hand superfamily and regulates a yeast phosphatidylinositol 4-kinase isoform. Conformational changes in Frq1 due to N-myristoylation and Ca(2+) binding were assessed by nuclear magnetic resonance (NMR), fluorescence, and equilibrium Ca(2+)-binding measurements. For this purpose, Frq1 and myr-Frq1 were expressed in and purified from Escherichia coli. At saturation, Frq1 bound three Ca(2+) ions at independent sites, which correspond to the second, third, and fourth EF-hand motifs in the protein. Affinity of the second site (K(d) = 10 microM) was much weaker than that of the third and fourth sites (K(d) = 0.4 microM). Myr-Frq1 bound Ca(2+) with a K(d)app of 3 microM and a positive Hill coefficient (n = 1.25), suggesting that the N-myristoyl group confers some degree of cooperativity in Ca(2+) binding, as seen previously in recoverin. Both the NMR and fluorescence spectra of Frq1 exhibited very large Ca(2+)-dependent differences, indicating major conformational changes induced upon Ca(2+) binding. Nearly complete sequence-specific NMR assignments were obtained for the entire carboxy-terminal domain (residues K100-I190). Assignments were made for 20% of the residues in the amino-terminal domain; unassigned residues exhibited very broad NMR signals, most likely due to Frq1 dimerization. NMR chemical shifts and nuclear Overhauser effect (NOE) patterns of Ca(2+)-bound Frq1 were very similar to those of Ca(2+)-bound recoverin, suggesting that the overall structure of Frq1 resembles that of recoverin. A model of the three-dimensional structure of Ca(2+)-bound Frq1 is presented based on the NMR data and homology to recoverin. N-myristoylation of Frq1 had little or no effect on its NMR and fluorescence spectra, suggesting that the myristoyl moiety does not significantly alter Frq1 structure. Correspondingly, the NMR chemical shifts for the myristoyl group in both Ca(2+)-free and Ca(2+)-bound myr-Frq1 were nearly identical to those of free myristate in solution, indicating that the fatty acyl chain is solvent-exposed and not sequestered within the hydrophobic core of the protein, unlike the myristoyl group in Ca(2+)-free recoverin. Subcellular fractionation experiments showed that both the N-myristoyl group and Ca(2+)-binding contribute to the ability of Frq1 to associate with membranes. 相似文献
100.
Mizushina Y Akihisa T Ukiya M Hamasaki Y Murakami-Nakai C Kuriyama I Takeuchi T Sugawara F Yoshida H 《Life sciences》2005,77(17):2127-2140
Isosteviol (ent-16-ketobeyeran-19-oic acid) is a hydrolysis product of stevioside, which is a natural sweetener produced in the leaves of Stevia rebaudiana (Bertoni) Bertoni. In this report, we prepared isosteviol and related compounds from stevioside by microbial transformation and chemical conversion and assayed the inhibitory activities toward DNA metabolic enzymes and human cancer cell growth. Among twelve compounds obtained, only isosteviol (compound 3) potently inhibited both mammalian DNA polymerases (pols) and human DNA topoisomerase II (topo II), and IC50 value for pol alpha was 64.0 microM. This compound had no inhibitory effect on higher plant (cauliflower) pols, prokaryotic pols, human topo I, and DNA metabolic enzymes such as human telomerase, T7 RNA polymerase, and bovine deoxyribonuclease I. With pol alpha, isosteviol acted non-competitively with the DNA template-primer and nucleotide substrate. Isosteviol prevented the growth of human cancer cells, with LD50 values of 84-167 microM, and 500 microg of the compound caused a marked reduction in TPA (12-O-tetradecanoylphorbol-13-acetate)-induced inflammation (inhibitory effect, 53.0%). The relationship between the structure of stevioside-based compounds and these activities were discussed. 相似文献