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71.
Nobutaka Hanagata Akihide Ito Haruko Uehara Fumika Asari Toshifumi Takeuchi Isao Karube 《Journal of biotechnology》1993,30(3)
The formation processes of Carthamus tinctorius cell aggregates in a growth medium and the correlation of red pigment formation with cell aggregate sizes were investigated. About 80% of cell aggregates in the growth medium were > 1.00 mm in size. The growth rate of large cell aggregates was more rapid than that of small cell aggregates. Most cell aggregates > 0.50 mm in size became larger or smaller than their original sizes during the culture. A high level of red pigment formation was observed when cell aggregates obtained by the preculture using cell aggregates < 1.00 mm in size were cultured in the production medium. 相似文献
72.
Eizo Takashima Shinzaburo Takamiya Satoru Takeo Fumika Mi-ichi Hisako Amino Kiyoshi Kita 《Parasitology international》2001,50(4):273-278
Using N2 cavitation, we established a protocol to prepare the active mitochondria from Plasmodium falciparum showing a higher succinate dehydrogenase activity than previously reported and a dihydroorotate-dependent respiration. The fact that fumarate partially inhibited the dihydroorotate dependent respiration suggests that complex II (succinate–ubiquinone reductase/quinol–fumarate reductase) in the erythrocytic stage cells of P. falciparum functions as a quinol–fumarate reductase. 相似文献
73.
Kano Y Horie N Doi S Aramaki F Maeda H Hiragami F Kawamura K Motoda H Koike Y Akiyama J Eguchi S Hashimoto K 《Neurochemical research》2008,33(9):1795-1803
We investigated whether artepillin C, a major component of Brazilian propolis, acts as a neurotrophic-like factor in rat PC12m3
cells, in which nerve growth factor (NGF)-induced neurite outgrowth is impaired. When cultures of PC12m3 cells were treated
with artepillin C at a concentration of 20 μM, the frequency of neurite outgrowth induced by artepillin C was approximately
7-fold greater than that induced by NGF alone. Artepillin C induced-neurite outgrowth of PC12m3 cells was inhibited by the
ERK inhibitor U0126 and by the p38 MAPK inhibitor SB203580. Although artepillin C-induced p38 MAPK activity was detected in
PC12m3 cells, phosphorylation of ERK induced by artepillin C was not observed. On the other hand, artepillin C caused rapid
activation of ERK and the time course of the activation was similar to that induced by NGF treatment in PC12 parental cells.
However, NGF-induced neurite outgrowth was inhibited by artepillin C treatment. Interestingly, inhibition of ERK by U0126
completely prevented artepillin C-induced p38 MAPK phosphorylation of PC12m3 cells. These findings suggest that artepillin
C-induced activation of p38 MAPK through the ERK signaling pathway is responsible for the neurite outgrowth of PC12m3 cells. 相似文献
74.
Sakagami H Hashimoto K Suzuki F Ogiwara T Satoh K Ito H Hatano T Takashi Y Fujisawa S 《Phytochemistry》2005,66(17):2108-2120
Lignins are major cell wall components formed by the dehydrogenative polymerization of three monolignols, p-coumaryl, coniferyl and sinapyl alcohols. We prepared lignin-carbohydrate complexes (Fr. VI and Fr. VII) from pine cones by acid and ethanol precipitation, and investigated which part of these molecules is essential for expression of biological activities. They showed potent antiviral activity upon direct interaction with the virus. The antiviral activity of Frs. VI and VII required the higher-order structure of polyphenols without polysaccharides. Pretreatment of mice with Fr. VI or VII induced higher antiparasite activity than those of natural and chemically modified antitumor polysaccharides. Fr. VI or VII at higher concentrations enhanced the radical intensity and cytotoxic activity of vitamin C, whereas tannins counteracted the effect of vitamin C. Fr. VI at lower concentrations enhanced the O2(-)-scavenging activity of vitamin C. Frs. VI and VII stimulated mouse macrophage-like cells Raw 264.7 to produce nitric oxide (NO), citrulline (CIT) and asparagine (ASN), via the enhanced expression of iNOS and ASN synthetase, whereas phenylpropenoid monomers and polymers inhibited NO/CIT/ASN production. These data suggest that the polymerized structure of phenylpropenoids in lignin-carbohydrate complexes is required for the induction of antiviral activity, and that the higher-order structure of phenylpropenoid polymers and polysaccharides is required for immunopotentiation, including macrophage activation. 相似文献
75.
Yujiro Umezaki Sean E. Hayley Michelle L. Chu Hanna W. Seo Prasun Shah Fumika N. Hamada 《Current biology : CB》2018,28(5):779-787.e3
76.
77.
Mohammad Abu Yousuf Fumika Mi-ichi Kumiko Nakada-Tsukui Tomoyoshi Nozaki 《Eukaryotic cell》2010,9(6):926-933
Pyridine nucleotide transhydrogenase (PNT) catalyzes the direct transfer of a hydride-ion equivalent between NAD(H) and NADP(H) in bacteria and the mitochondria of eukaryotes. PNT was previously postulated to be localized to the highly divergent mitochondrion-related organelle, the mitosome, in the anaerobic/microaerophilic protozoan parasite Entamoeba histolytica based on the potential mitochondrion-targeting signal. However, our previous proteomic study of isolated phagosomes suggested that PNT is localized to organelles other than mitosomes. An immunofluorescence assay using anti-E. histolytica PNT (EhPNT) antibody raised against the NADH-binding domain showed a distribution to the membrane of numerous vesicles/vacuoles, including lysosomes and phagosomes. The domain(s) required for the trafficking of PNT to vesicles/vacuoles was examined by using amoeba transformants expressing a series of carboxyl-terminally truncated PNTs fused with green fluorescent protein or a hemagglutinin tag. All truncated PNTs failed to reach vesicles/vacuoles and were retained in the endoplasmic reticulum. These data indicate that the putative targeting signal is not sufficient for the trafficking of PNT to the vesicular/vacuolar compartments and that full-length PNT is necessary for correct transport. PNT displayed a smear of >120 kDa on SDS-PAGE gels. PNGase F and tunicamycin treatment, chemical degradation of carbohydrates, and heat treatment of PNT suggested that the apparent aberrant mobility of PNT is likely attributable to its hydrophobic nature. PNT that is compartmentalized to the acidic compartments is unprecedented in eukaryotes and may possess a unique physiological role in E. histolytica.Pyridine nucleotide transhydrogenase (PNT) participates in the bioenergetic processes of the cell. PNT generally resides on the cytoplasmic membranes of bacteria and the inner membrane of mammalian mitochondria (3, 16) and utilizes the electrochemical proton gradient across the membrane to drive NADPH formation from NADH (14, 15, 39) according to the reaction H+out + NADH + NADP+↔H+in + NAD+ + NADPH, where “out” and “in” denote the cytosol and the matrix of the mitochondria, or the periplasmic space and the cytosol of bacteria, respectively.PNT has been identified in several protozoan parasites, including Entamoeba histolytica (8, 51), Eimeria tenella (17, 47), Mastigamoeba balamuthi (11) Plasmodium falciparum (10), Plasmodium yoelii (6), and Plasmodium berghei (12). In general, PNT contains conserved structural units consisting of three domains, the NAD(H)-binding domain (domain I [dI]) and the NADP(H)-binding domain (domain III [dIII]), both of which face the matrix side of the eukaryotic mitochondria or the cytoplasmic side in bacteria, and the hydrophobic domain (domain II [dII]), containing 11 to 13 transmembrane regions. PNT from E. tenella and E. histolytica exists as a single polypeptide in an unusual configuration consisting of dIIb-dIII-dI-dIIa, with a 38-amino-acid-long linker region between dIII and dI (48).E. histolytica, previously considered an “amitochondriate” protist, is currently considered to possess a mitochondrion-related organelle with reduced and divergent functions, the mitosome (1, 21, 23a, 26, 42). Our recent proteomic study of isolated mitosomes identified about 20 new constituents (26), together with four proteins previously demonstrated in E. histolytica mitosomes: Cpn60 (8, 19, 21, 42), Cpn10 (46), mitochondrial Hsp70 (2, 44), and mitochondrion carrier family (MCF) (ADP/ATP transporter) (7). Despite the early presumption of PNT being localized in mitosomes (8), based on the amino-terminal region rich in hydroxylated (five serines and threonines) and acidic (three glutamates) amino acids, which slightly resembles known mitochondrion- and hydrogenosome-targeting sequences (8, 35), PNT was not discovered in the mitosome proteome. We also doubted this premise because PNT was one of the major proteins identified in isolated phagosomes (32, 33). Thus, the intracellular localization and trafficking of PNT remain unknown.In this report, we showed that E. histolytica PNT (EhPNT) is localized to various vesicles and vacuoles, including lysosomes and phagosomes, using wild-type amoebae and antiserum raised against recombinant EhPNT and an E. histolytica line expressing EhPNT with a carboxyl-terminal hemagglutinin (HA) epitope tag and anti-HA antibody. We also showed that all domains of EhPNT are required for its trafficking to the acidic compartment by using amoeba transformants expressing the HA tag or green fluorescent protein (GFP) fused with a region containing various domains of EhPNT. 相似文献
78.
Koshiyama A Hamada FN Namekawa SH Iwabata K Sugawara H Sakamoto A Ishizaki T Sakaguchi K 《The FEBS journal》2006,273(17):4003-4012
Sumoylation is a post-translational modification system that covalently attaches the small ubiquitin-related modifier (SUMO) to target proteins. Ubc9 is required as the E2-type enzyme for SUMO-1 conjugation to targets. Here, we show that Ubc9 interacts with the meiosis-specific RecA homolog, Lim15/Dmc1 in the basidiomycete Coprinus cinereus (CcLim15), and mediates sumoylation of CcLim15 during meiosis. In vitro protein-protein interaction assays revealed that CcUbc9 interacts with CcLim15 and binds to the C-terminus (amino acids 105-347) of CcLim15, which includes the ATPase domain. Immunocytochemistry demonstrates that CcUbc9 and CcLim15 colocalize in the nuclei from the leptotene stage to the early pachytene stage during meiotic prophase I. Coimmunoprecipitation experiments indicate that CcUbc9 interacts with CcLim15 in vivo during meiotic prophase I. Furthermore, we show that CcLim15 is a target protein of sumoylation both in vivo and in vitro, and identify the C-terminus (amino acids 105-347) of CcLim15 as the site of sumoylation in vitro. These results suggest that sumoylation is a candidate modulator of meiotic recombination via interaction between Ubc9 and Lim15/Dmc1. 相似文献
79.
Fumika Hamada Satoshi Namekawa Nobuyuki Kasai Takayuki Nara Seisuke Kimura Fumio Sugawara Kengo Sakaguchi 《European journal of biochemistry》2002,269(1):164-174
The primary purpose of the present study was to investigate whether DNA replication at meiotic prophase also requires replication factors, especially proliferating cell nuclear antigen (PCNA). We cloned PCNA cDNAs (CoPCNA) from a cDNA library made from basidia of the basidiomycete, Coprinus cinereus. Interestingly, although CoPCNA is a single-copy gene in the genome, two different PCNA cDNA species were isolated using degenerate primers and a meiotic cDNA library, and were designated as CoPCNA-alpha and CoPCNA-beta. CoPCNA-beta was made by truncating at specific sites in CoPCNA-alpha mRNA, 5'-AAGAAGGAGAAG-3' and 5'-GAAGAGGAAGAA-3'. Both of these sequences were present in exon IV in the genomic sequence, and interestingly the former was the same as the inverse sequence of the latter. CoPCNA-alpha was 107 amino acids larger than human PCNA, and so the 107 amino-acid sequence was inserted in a loop, the so-called D2E2 loop, in human PCNA. Northern blotting analysis indicated that CoPCNA was expressed not only at premeiotic S but also at the meiotic prophase stages such as leptotene and early zygotene, just before and when karyogamy occurs and the homologous chromosomes pair. Western blotting analysis using anti-(CoPCNA-alpha) Ig revealed that at least two CoPCNA mRNAs before and after truncation were translated at the meiotic prophase as CoPCNA-alpha and CoPCNA-beta. 相似文献
80.
Leucine aminopeptidase during meiotic development. 总被引:1,自引:0,他引:1
Takashi Ishizaki Aki Tosaka Takayuki Nara Narumichi Aoshima Satoshi Namekawa Kei Watanabe Fumika Hamada Akira Omori Kengo Sakaguchi 《European journal of biochemistry》2002,269(3):826-832
We found a leucine aminopeptidase (LAP; EC 3.4.11.1) to be abundant in meiotic prophase tissue of a basidiomycete, Coprinus cinereus. After direct purification of the aminopeptidase component from meiocytes, we cloned the gene by degenerate PCR using partial amino-acid sequences of the purified enzyme and 5' and 3' RACE. It was homologous to the eukaryotic leucine aminopeptidase gene. The recombinant protein possesses the characteristic activities of a Coprinus leucine aminopeptidase (CoLAP) with a molecular mass of 52.4 kDa, and forms a homohexamer. Northern blot and spatial distribution analysis by immunohistochemical staining indicated CoLAP to be abundant in meiotic prophase cells and the supporting cells around meiocytes, but scarce in mycelium cells. Interestingly, from zygotene to pachytene, CoLAP was mostly present in supporting cells around meiocytes, but from diplotene onwards, it was plentiful in meiocytes themselves, suggesting that its expression is required to control some of the biochemical events at meiotic prophase. Moreover, the strong expression of CoLAP mRNA immediately after treatment with methyl methanesulfonate in mycelium implies that CoLAP has a role in somatic DNA repair. 相似文献