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21.
Ishibashi Y Kobayashi U Hijikata A Sakaguchi K Goda HM Tamura T Okino N Ito M 《Journal of lipid research》2012,53(10):2242-2251
Endoglycoceramidase (EGCase) is a glycosidase capable of hydrolyzing the β -glycosidic linkage between the oligosaccharides and ceramides of glycosphingolipids (GSLs). Three molecular species of EGCase differing in specificity were found in the culture fluid of Rhodococcus equi (formerly Rhodococcus sp. M-750) and designated EGCase I, II, and III. This study describes the molecular cloning of EGCase I and characterization of the recombinant enzyme, which was highly expressed in a rhodococcal expression system using Rhodococcus erythropolis. Kinetic analysis revealed the turnover number (k(cat)) (k(cat)) of the recombinant EGCase I to be 22- and 1,200-fold higher than that of EGCase II toward GM1a and Gb3Cer, respectively, although the K(m) of both enzymes was almost the same for these substrates. Comparison of the three-dimensional structure of EGCase I (model) and EGCase II (crystal) indicated that a flexible loop hangs over the catalytic cleft of EGCase II but not EGCase I. Deletion of the loop from EGCase II increased the k(cat) of the mutant enzyme, suggesting that the loop is a critical factor affecting the turnover of substrates and products in the catalytic region. Recombinant EGCase I exhibited broad specificity and good reaction efficiency compared with EGCase II, making EGCase I well-suited to a comprehensive analysis of GSLs. 相似文献
22.
Goda HM Ushigusa K Ito H Okino N Narimatsu H Ito M 《Biochemical and biophysical research communications》2008,375(4):441-446
We report here the molecular cloning, expression and characterization of a novel endo-alpha-N-acetylgalactosaminidase, classified into the GH101 family, from Enterococcus faecalis (endo-EF). The recombinant endo-EF was found to catalyze the liberation of core1-disaccharides (Galbeta1-3GalNAc) from core1-pNP (Galbeta1-3GalNAcalpha-pNP) like other GH101 family enzymes. However, endo-EF seems to differ in specificity from the GH101 enzymes reported to date, because it was able to release trisaccharides from core2-pNP (Galbeta1-3[GlcNAcbeta1-6]GalNAcalpha-pNP) and tetrasaccharides from Gal-core2-pNP (Galbeta1-3[Galbeta1-3GlcNAcbeta1-6]GalNAcalpha-pNP). Interestingly, the enzyme could transfer not only core1-disaccharides but also core2-trisaccharides to alkanols generating alkyl-oligosaccharides. Endo-EF should facilitate O-glycoprotein research. 相似文献
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Cells from unaffected parents of retinoblastoma (RB) patients were previously shown to be hypersensitive to radiation induced G(1) arrest and cell killing [1]. The hypersensitivity was similar to that reported for cells from ATM heterozygotes. The latter was consistent with a mild DNA DSB rejoining defect which we demonstrated using a gamma-H2AX focus assay after low dose-rate (LDR) irradiation of non-cycling G(0) cells [2,3]. Since neither parent carried the mutant RB allele of the RB heterozygous probands, these results suggested the possibility of an enhanced germline mutation rate, perhaps resulting from some mild defect in genome maintenance. We therefore examined levels of gamma-H2AX foci for cells from these RB parents in this G(0) LDR assay, which reflects the non-homologous end joining (NHEJ) capacity of cells and in a G(2)/M assay, which reflects additional contributions from other G(2)-related damage processing systems. For several of the cell strains parallel radiosensitivity comparisons were made for cell killing and for G(2) chromosomal radiosensitivities. G(0) cells from the RB parents were clearly hypersensitive both in the LDR gamma-H2AX assay, and for cell killing. In addition, cultured fibroblasts from 6 of 15 apparently normal individuals in this study (and one of six in a previous study) were also hypersensitive in the same assays. In the G(2)/M gamma-H2AX assay, the relative sensitivities were similar to those seen in the low dose-rate G(0) assay and tracked with chromosomal radiosensitivity, but some differences were observed. 相似文献
26.
Hinz JM Tebbs RS Wilson PF Nham PB Salazar EP Nagasawa H Urbin SS Bedford JS Thompson LH 《Nucleic acids research》2006,34(5):1358-1368
Homologous recombinational repair (HRR) restores chromatid breaks arising during DNA replication and prevents chromosomal rearrangements that can occur from the misrepair of such breaks. In vertebrates, five Rad51 paralogs are identified that contribute in a nonessential but critical manner to HRR proficiency. We constructed and characterized a knockout of the paralog Rad51D in widely studied CHO cells. The rad51d mutant (clone 51D1) displays sensitivity to a diverse spectrum of induced DNA damage including gamma-rays, ultraviolet (UV)-C radiation, and methyl methanesulfonate (MMS), indicating the broad relevance of HRR to genotoxicity. Spontaneous chromatid breaks/gaps and isochromatid breaks are elevated 3- to 12-fold, but the chromosome number distribution remains unchanged. Most importantly, 51D1 cells exhibit a 12-fold-increased rate of hprt mutation, as well as 4- to 10-fold increased rates of gene amplification at the dhfr and CAD loci, respectively. Xrcc3 irs1SF cells from the same parental CHO line show similarly elevated mutagenesis at these three loci. Collectively, these results confirm the a priori expectation that HRR acts in an error-free manner to repress three classes of genetic alterations (chromosomal aberrations, loss of gene function and increased gene expression), all of which are associated with carcinogenesis. 相似文献
27.
Isolation and Characterization of a New Clostridium sp. That Performs Effective Cellulosic Waste Digestion in a Thermophilic Methanogenic Bioreactor
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Hatsumi Shiratori Hironori Ikeno Shohei Ayame Naoaki Kataoka Akiko Miya Kuniaki Hosono Teruhiko Beppu Kenji Ueda 《Applied microbiology》2006,72(5):3702-3709
A methanogenic bioreactor that utilized wastepaper was developed and operated at 55°C. Microbial community structure analysis showed the presence of a group of clostridia that specifically occurred during the period of high fermentation efficiency. To isolate the effective cellulose digester, the sludge that exhibited high fermentation efficiency was inoculated into a synthetic medium that contained cellulose powder as the sole carbon source and was successively cultivated. A comprehensive 16S rRNA gene sequencing study revealed that the enriched culture contained various clostridia that had diverse phylogenetic positions. The microorganisms were further enriched by successive cultivation with filter paper as the substrate, as well as the bait carrier. A resultant isolate, strain EBR45 (= Clostridium sp. strain NBRC101661), was a new member of the order Clostridiales phylogenetically and physiologically related to Clostridium thermocellum and Clostridium straminisolvens. Specific PCR-based monitoring demonstrated that strain EBR45 specifically occurred during the high fermentation efficiency period in the original methanogenic sludge. Strain EBR45 effectively digested office paper in its pure cultivation system with a synthetic medium. 相似文献
28.
Goro Taguchi Takahisa Ubukata Hatsumi Nozue Yuki Kobayashi Maki Takahi Hirobumi Yamamoto Nobuaki Hayashida 《The Plant journal : for cell and molecular biology》2010,63(6):1031-1041
Tobacco cells (Nicotiana tabacum L.) accumulate harmful naphthols in the form of malonylated glucosides ( Taguchi et al., 2005 ). Here, we showed that the malonylation of glucosides is a system to metabolize xenobiotics and is common to higher plants. Moreover, some plantlets including Arabidopsis thaliana excreted some of the incorporated naphthols into the culture media as their glucosides. In order to analyze the function of malonylation in the metabolism of these xenobiotics, we identified a malonyltransferase gene (At5g39050) responsible for the malonylation of these compounds in A. thaliana. The recombinant enzyme had malonyltransferase activity toward several phenolic glucosides including naphthol glucosides. A knockout mutant of At5g39050 (pmat1) exposed to naphthols accumulated only a few malonylglucosides in the cell, and released larger amounts of simple glucosides into the culture medium. In contrast, forced expression of At5g39050 in the pmat1 mutant resulted in increased malonylglucoside accumulation and decreased glucoside excretion to the media. The results provided clear evidence of whether the release of glucosides or the storage of malonylglucosides was determined by the At5g39050 expression level. A similar event in naphthol metabolism was observed in the tobacco mutant with a suppressed malonyltransferase gene (NtMaT1). These results suggested that malonylation could be a key reaction to separate the way of xenobiotics disposition, that is, release from cell surface or storage in vacuoles. 相似文献
29.
Cells of mouse knockout cell lines for Ku80 (now known as Xrcc5), Ku70 (now known as G22p1), DNA-PKcs (now known as Prkdc) and PARP (now known as Adprt) were synchronized in G1 phase and exposed to very low fluences of alpha particles. The frequency of gross chromosomal aberrations was scored at the first postirradiation metaphase. At the two lowest doses examined, aberrations were induced in 4-9% of wild-type cells and 36-55% of Xrcc5-/- cells, whereas only 2-3% of the nuclei were traversed by an alpha particle and thus received any radiation exposure. G22p1-/- cells responded similarly to Xrcc5-/- cells, whereas Prkdc-/- and Adprt-/- cells showed an intermediate effect. The frequency of aberrations per nuclear traversal increased approximately 30-fold for Xrcc5-/- and G22p1-/- cells at the lowest mean dose examined (0.17 cGy), compared with 10-fold in Prkdc-/- cells and 3-fold in wild-type cells. Based on these and other findings, we hypothesize that the marked sensitization of repair-deficient bystander cells to the induction of chromosomal aberrations is a consequence of unrejoined DNA double-strand breaks occurring as a result of clustered damage arising from opposed oxidative lesions and single-strand breaks. 相似文献
30.
We isolated a filamentous bacteriophage, VfO4K68, from the pandemic Vibrio parahaemolyticus strain belonging to 04:K68 serovar. The VfO4K68 DNA lacked a 1,893-bp fragment present in that of the distinctive region of f237, a filamentous phage isolated from a pandemic 03:K6 strain (Nasu, H. et al., J. Clin. Microbiol., 38, 2156-2161, 2000). The deletion resulted in the formation of a novel open reading frame (ORF) that possesses homology to the ORF 27 of ETA phage and staphylococcal enterotoxin E (SEE) of Staphylococcus aureus. VfO4K68 was able to infect the recipient 03:K6 serovar strains. These results suggest that VfO4K68 might act as a genetic transmitter and play some roles in the pandemic V. parahaemolyticus infection. 相似文献