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101.
102.
Cell Surface Galactosylation Is Essential for Nonsexual Flocculation in Schizosaccharomyces pombe
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Naotaka Tanaka Atsuro Awai M. Shah Alam Bhuiyan Kiyotaka Fujita Hiroshi Fukui Kaoru Takegawa 《Journal of bacteriology》1999,181(4):1356-1359
We have isolated fission yeast mutants that constitutively flocculate upon growth in liquid media. One of these mutants, the gsf1 mutant, was found to cause dominant, nonsexual, and calcium-dependent aggregation of cells into flocs. Its flocculation was inhibited by the addition of galactose but was not affected by the addition of mannose or glucose, unlike Saccharomyces cerevisiae FLO mutants. The gsf1 mutant coflocculated with Schizosaccharomyces pombe wild-type cells, while no coflocculation was found with galactose-deficient (gms1Δ) cells. Moreover, flocculation of the gsf1 mutant was also inhibited by addition of cell wall galactomannan from wild-type cells but not from gms1Δ cells. These results suggested that galactose residues in the cell wall glycoproteins may be receptors of gsf1-mediated flocculation, and therefore cell surface galactosylation is required for nonsexual flocculation in S. pombe. 相似文献
103.
Cryptophyte vestiges showing selective digestion of nuclei were found in the gonyaulacalean dinoflagellates Amylax buxus (Balech) Dodge and Amylax triacantha (Jörgensen) Sournia. They emitted bright yellow‐orange fluorescence (590‐nm emission) under epifluorescent microscopy and possessed U‐shaped plastids, suggesting the vestiges were active in photosynthesis. Under transmission electron microscopy, the plastid was characterized by a loose arrangement of two to three thylakoid stacks and included a stalked pyrenoid, as in the cryptophyte genus Teleaulax. Indeed, molecular data based on the plastid small‐subunit rRNA gene demonstrated that the vestiges in Amylax originated from Teleaulax amphioxeia. The stolen plastid (kleptoplastids) in Dinophysis is also derived from this cryptophyte species. However, in sharp contrast to Dinophysis, the plastid of the vestige in Amylax was surrounded by a double layer of plastid endoplasmic reticulum, and within the periplastidal area, a nucleomorph was retained. The vestiges also possessed mitochondria with characteristic plate‐like cristae, but lost the cell‐surface structure. The phagocytotic membrane of the dinoflagellates seemed to surround the cryptophytes right after the incorporation, but the membrane itself would probably be digested eventually. Remarkably, only one cryptophyte cell among 14 vestiges in a cell of A. buxus had a nucleus. This is the first recording of possible kleptoplastidy in gonyaulacalean dinoflagellates, and documents the strategy of a dinoflagellate involving the selective elimination of the cryptophyte nucleus. 相似文献
104.
Motif-programming is a method for creating artificial proteins by combining functional peptide motifs in a combinatorial manner. This method is particularly well suited for developing liaison molecules that interface between cells and inorganic materials. Here we describe our creation of artificial proteins through the programming of two motifs, a natural cell attachment motif (RGD) and an artificial Ti-binding motif (minTBP-1). The created proteins were found to reversibly bind Ti and to bind MC3T3-E1 osteoblast-like cells. Moreover, although the interaction with Ti was not covalent, the proteins recapitulated several functions of fibronectin, and thus, could serve as an artificial ECM on Ti materials. Because this motif-programming system could be easily extended to create artificial proteins having other biological functions and material specificities, it should be highly useful for application to tissue engineering and regenerative medicine. 相似文献
105.
Atsuko Fukazawa Carmen Alonso Kiyotaka Kurachi Sonal Gupta Cammie F. Lesser Beth Ann McCormick Hans-Christian Reinecker 《PLoS pathogens》2008,4(11)
Shigella flexneri has evolved the ability to modify host cell function with intracellular active effectors to overcome the intestinal barrier. The detection of these microbial effectors and the initiation of innate immune responses are critical for rapid mucosal defense activation. The guanine nucleotide exchange factor H1 (GEF-H1) mediates RhoA activation required for cell invasion by the enteroinvasive pathogen Shigella flexneri. Surprisingly, GEF-H1 is requisite for NF-κB activation in response to Shigella infection. GEF-H1 interacts with NOD1 and is required for RIP2 dependent NF-κB activation by H-Ala-D-γGlu-DAP (γTriDAP). GEF-H1 is essential for NF-κB activation by the Shigella effectors IpgB2 and OspB, which were found to signal in a NOD1 and RhoA Kinase (ROCK) dependent manner. Our results demonstrate that GEF-H1 is a critical component of cellular defenses forming an intracellular sensing system with NOD1 for the detection of microbial effectors during cell invasion by pathogens. 相似文献
106.
Xiao G Miyazato A Inden K Nakamura K Shiratori K Nakagawa K Miyazawa T Suzuki K Kaku M Kawakami K 《Microbiology and immunology》2008,52(3):171-179
Cryptococcus neoformans is eradicated by macrophages via production of NO. Unmethylated CpG-ODN protect mice from infection with this fungal pathogen by inducing IFN-gamma. The present study was designed to elucidate the effect of C. neoformans on the synthesis of NO by alveolar macrophages. For this purpose, MH-S, an alveolar macrophage cell line, was stimulated with CpG-ODN in the presence of IFN-gamma. A highly virulent strain of C. neoformans with thick capsule suppressed the production of NO. Capsular polysaccharides were not essential for this suppression, because there was no difference between acapsular mutant (Cap67) and its parent strain. Physical or close interaction of Cap67 with MH-S was necessary, as shown by the loss of such effect when direct contact was interfered by nitrocellulose membrane. Similar effects were observed by disrupted as well as intact Cap67. Whereas the inhibitory effect of intact Cap67 was completely abrogated by heat treatment, disrupted Cap67 did not receive such influence. Finally, disrupted Cap67 did not show any inhibitory effect on the TLR9-mediated activation of NF-kappaB in a luciferase reporter assay with HEK293T cells, although the TLR4-mediated activation was suppressed. These results revealed that C. neoformans suppressed the synthesis of NO by CpG-ODN and IFN-gamma-stimulated macrophages in a fashion independent of capsular polysaccharides, although the precise mechanism remains to be elucidated. 相似文献
107.
Takashi Hattori Takashi Mine Nobukazu Komatsu Akira Yamada Kyogo Itoh Hitoshi Shiozaki Kiyotaka Okuno 《Cancer immunology, immunotherapy : CII》2009,58(11):1843-1852
To investigate the safety and immunological responses of personalized peptide vaccination in combination with oral administration
of UFT and UZEL for metastatic colorectal carcinoma (mCRC), fourteen patients were enrolled in the present study. Peptides
were determined based on the presence of peptide-specific cytotoxic T lymphocyte precursors and IgG in each patient. A maximum
of four peptides were subcutaneously administered weekly with UFT (300 mg/m2 day−1) and UZEL (75 mg/day) for 4 weeks, followed by 1 week of rest. This therapy was well-tolerated although there was a grade-3
skin reaction at the vaccination site in one patient. An increase in peptide-specific interferon-γ production or peptide-specific
IgG after the tenth vaccination was observed in nine of ten or eight of ten patients tested, respectively. IgG responses were
well correlated with overall survival (P = 0.0215). The safety and immunological responsiveness of the present therapy suggest that this combination would be of clinical
benefit for mCRC patients, and further trials are merited.
T. Hattori and T. Mine equally contributed to this work. 相似文献
108.
Although lateral gene transfer (LGT) events have been frequently documented in the evolution of glyceraldehyde-3-phosphate dehydrogenase (GAPDH), no eukaryote-to-prokaryote transfer has been reported so far. Here we describe the first case of the GAPDH gene transfer from a eukaryote to a subset of Clostridium species (Bacteria, Firmicutes). A series of phylogenetic analyses of GAPDH homologues revealed that Clostridium thermocellum and Clostridium cellulolyticum homologues have the evolutionary affinity to the eukaryotic homologues, rather than to those of bacterial species closely related to the two Clostridium species in the organismal phylogeny. These results suggest that the GAPDH genes in the two Clostridium species are of eukaryotic origin, which is the first reported case of eukaryote-to-bacterium GAPDH gene transfer. Since a previously published 16S ribosomal DNA phylogeny and our GAPDH phylogeny commonly suggest an intimate evolutionary relationship between C. thermocellum and C. cellulolyticum, a common ancestor of the two species likely acquired the eukaryotic GAPDH gene. In the C. cellulolyticum genome, the exogenous GAPDH gene was physically separated from other glycolytic genes, suggesting that this gene organization was likely achieved by a random insertion of the laterally transferred gene. On the other hand, in the C. thermocellum genome, the laterally transferred GAPDH gene clusters with other bacterial glycolytic genes. We discuss possible scenarios for the evolutionarily chimeric glycolytic gene cluster in the C. thermocellum genome. 相似文献
109.
A large number of substrate proteins for tissue transglutaminase (TGase 2) have been identified in vivo and in vitro. Preference
in primary sequence or secondary structure around the reactive glutamine residues in the substrate governs the reactivity
for TGase 2. We established a screening system to identify preferable sequence as a glutamine-donor substrate using a phage-displayed
peptide library. The results showed that several peptide sequences have higher reactivity and specificity to TGase 2 than
those of preferable sequences previously reported. By analysis of the most reactive 12-amino acid sequence, T26 (HQSYVDPWMLDH),
residues crucial to the enzymatic reaction were investigated. The following review summarizes the screening system and also
the preference in substrate sequences that were obtained by this method and those previously reported. 相似文献
110.
Adenosine 5'-triphosphate (ATP) generation is an essential biological reaction for all living cells. Recently, we developed a Permeable Cell Assay for high-throughput measurement of cellular ATP synthetic activity, mainly resulting from glycolysis [Hara, K.Y., Mori, H., 2006. An efficient method for quantitative determination of cellular ATP synthetic activity. J. Biomol. Screen. 11, 310-317]. By using this method, we determined the cellular ATP synthetic activity in the stationary phase of a complete set of single-gene deletion strains of Escherichia coli. Their activities ranged from a minimum of 2% to a maximum of 445%, relative to parental strains. Deletions of metabolism-related genes frequently caused an increase in the rate of ATP synthetic activity, while activity was reduced by deletions of a variety of functional genes, including many poorly characterized genes. We also demonstrated that the deletion of the ptsG gene doubled ATP-driven glutathione synthesis and increased cellular ATP synthetic activity. Our study also indicated that it should be easy to obtain active strains for ATP synthesis from deletion strains. Overall, the data set of this study may be useful to improve E. coli strains for ATP-dependent industrial processes and, therefore, may be important for the design of so-called cell factories. 相似文献