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71.
Yuichiro Higuchi Kenji Kawai Masahumi Yamamoto Miyuki Kuronuma Yasuhiko Ando Ikumi Katano Masato Nakamura Hiroshi Suemizu 《Experimental Animals》2014,63(1):55-62
The interaction between transplanted cells and host tissues is important for the growthand maintenance of transplanted cells. To analyze the mechanisms of these interactions, asystemic fluorescent protein-expressing mouse is a useful recipient. In this study, wegenerated a novel NOG strain, which strongly expresses enhanced green fluorescent protein(EGFP; PgkEGFP-NOG), especially in the liver, kidney, gastrointestinal tract, and testis.Because the host tissues expressed EGFP, xenotransplanted human cancer cells were clearlyidentified as EGFP-negative colonies in PgkEGFP-NOG mice. Immunohistochemical analysisrevealed that EGFP-expressing stromal tissues formed a complicated tumor microenvironmentwithin xenograft tissues. Moreover, a similar microenvironment was observed in human iPScell-derived teratomas. Collectively, these results indicated that a suitablemicroenvironment is essential for the growth and maintenance of xenotransplanted cells andthat PgkEGFP-NOG mice represent a useful animal model for analyzing the mechanisms ofmicroenvironment formation. 相似文献
72.
Abscisic acid (ABA) is not a plant-specific compound but one found in organisms across kingdoms from bacteria to animals,
suggesting that it is a ubiquitous and versatile substance that can modulate physiological functions of various organisms.
Recent studies have shown that plants developed an elegant system for ABA sensing and early signal transduction mechanisms
to modulate responses to environmental stresses for survival in terrestrial conditions. ABA-induced increase in stress tolerance
has been reported not only in vascular plants but also in non-vascular bryophytes. Since bryophytes are the key group of organisms
in the context of plant evolution, clarification of their ABA-dependent processes is important for understanding evolutionary
adaptation of land plants. Molecular approaches using Physcomitrella patens have revealed that ABA plays a role in dehydration stress tolerance in mosses, which comprise a major group of bryophytes.
Furthermore, we recently reported that signaling machinery for ABA responses is also conserved in liverworts, representing
the most basal members of extant land plant lineage. Conservation of the mechanism for ABA sensing and responses in angiosperms
and basal land plants suggests that acquisition of this mechanism for stress tolerance in vegetative tissues was one of the
critical evolutionary events for adaptation to the land. This review describes the role of ABA in basal land plants as well
as non-land plant organisms and further elaborates on recent progress in molecular studies of model bryophytes by comparative
and functional genomic approaches. 相似文献
73.
Fmoc-protected Phe-Gly-type (Z)-alkene dipeptide isostere (ADI) and (E)-fluoroalkene dipeptide isostere (FADI) were synthesized and applied to Fmoc-based solid-phase peptide synthesis (SPPS). These cis-peptide bond mimetics were introduced into a bioactive pentapeptide [H-Amb-Phe-Gly-Leu-Arg-Trp-NH(2); Amb = 4-(aminomethyl) benzoic acid], which has potent GPR54 agonistic activity. The resulting pentapeptide derivatives showed low GPR54 agonistic activity, as compared with the parent peptide and (E)-ADI-containing derivative. This suggests that the trans-amide conformer of Phe-Gly peptide bond of the parent peptide would be significantly important for bioactivity. Contrary to our expectations, a (Z)-FADI-containing derivative exhibited essentially no activity, revealing the necessity of critical validation of FADI-bioisosterism. 相似文献
74.
Tashiro Y Kaneko W Sun Y Shibata K Inokuma K Zendo T Sonomoto K 《Applied microbiology and biotechnology》2011,89(6):1741-1750
We isolated and characterized a d-lactic acid-producing lactic acid bacterium (d-LAB), identified as Lactobacillus delbrueckii subsp. lactis QU 41. When compared to Lactobacillus coryniformis subsp. torquens JCM 1166 T and L. delbrueckii subsp. lactis JCM 1248 T, which are also known as d-LAB, the QU 41 strain exhibited a high thermotolerance and produced d-lactic acid at temperatures of 50 °C and higher. In order to optimize the culture conditions of the QU 41 strain, we examined
the effects of pH control, temperature, neutralizing reagent, and initial glucose concentration on d-lactic acid production in batch cultures. It was found that the optimal production of 20.1 g/l d-lactic acid was acquired with high optical purity (>99.9% of d-lactic acid) in a pH 6.0-controlled batch culture, by adding ammonium hydroxide as a neutralizing reagent, at 43 °C in MRS
medium containing 20 g/l glucose. As a result of product inhibition and low cell density, continuous cultures were investigated
using a microfiltration membrane module to recycle flow-through cells in order to improve d-lactic acid productivity. At a dilution rate of 0.87 h−1, the high cell density continuous culture exhibited the highest d-lactic acid productivity of 18.0 g/l/h with a high yield (ca. 1.0 g/g consumed glucose) and a low residual glucose (<0.1 g/l)
in comparison with systems published to date. 相似文献
75.
Yoshizawa K Mishima Y Park SY Heddle JG Tame JR Iwahori K Kobayashi M Yamashita I 《Journal of biochemistry》2007,142(6):707-713
The denaturation of recombinant horse L-chain apoferritin (rLF), which is composed of 24 L-chain subunits, in acidic solution was studied. Using two rLF mutants, lacking four (Fer4) or eight (Fer8) N-terminal amino acid residues, the effect of N-terminal residues on the protein's stability was investigated. Of the two mutants and wild-type rLF, the tertiary and secondary structures of Fer8 were found to be most sensitive to an acidic environment. The Fer8 protein dissociated easily into subunit dimers at or below pH 2.0. Comparing the crystal structures of the mutant proteins, deletion of the N-terminal residues was found to result in fewer inter- and intra-subunit hydrogen bonds. The loss of these bonds is assumed to be responsible for lower endurance against acidic denaturation in N-terminus-deleted mutants. These results indicated that the inter- and intra-subunit hydrogen bonds of N-terminal residues affect the denaturation, especially oligomer formation of apoferritin subunits and will be of use in designing ferritin-based nanodevices. 相似文献
76.
Characterization of functional microbial community in a membrane-aerated biofilm reactor operated for completely autotrophic nitrogen removal 总被引:12,自引:0,他引:12
The 16S rDNA-based molecular technique was applied to investigate the functional microbial community of a membrane-aerated biofilm (MAB) that was used for completely autotrophic nitrogen removal over nitrite (CANON). The relationships among two kinds of key bacteria responsible for CANON: aerobic ammonia-oxidizing bacteria (AOB) and Anammox bacteria, and their possible distributions in the MAB were discussed based on the microbial community analysis. FISH analysis showed the existence of two visible active layers in experimental MAB. One is the partial nitrifying layer located in the region of oxygen-rich membrane-biofilm interface, dominated by NSO190-positive AOB. The other is the Anammox active layer located in the region of anoxic liquid-biofilm interface, dominated by PLA46 and AMX820-positive Anammox microorganisms. As a result of this study, the AOB as well as Anammox bacteria were present and active in experimental MABR, and the cooperation between AOB and Anammox bacteria was considered to be responsible for CANON. 相似文献
77.
Ando J Sugimoto K Tamayose K Sasaki M Ando M Oshimi K 《Biochemical and biophysical research communications》2008,365(4):691-697
The mitotic spindle checkpoint prevents the onset of anaphase and subsequent cell division until chromosomes are properly aligned on a bipolar spindle. Thus, it regulates the cell division cycle by keeping cells with defective spindles from leaving mitosis. The budding uninhibited by benzimidazole (Bub1) is a key component of mitotic checkpoint. Bub1 encodes a serine/threonine kinase required for mitotic spindle checkpoint function. The regulation of cell morphology in eukaryotic cells is a complex process involving major components of the cytoskeleton including actin microfilaments, microtubules, and intermediate filaments (IFs). Here we show that Bub1 directly affects the structural integrity of IFs. Constitutive expression of Bub1 caused disappearance of filamentous vimentin, a type III IF, and consequently changed cell morphology. Expression of kinase domain—deleted Bub1 induced neither morphological change nor disappearance of vimentin. These observations suggest that Bub1 not only regulates the cell cycle, but also may be involved in the cytoskeletal control in interphase cells. 相似文献
78.
79.
Ueda S Terauchi H Suzuki K Yano A Matsumoto M Kubo T Minato H Arai Y Tsuji J Watanabe N 《Bioorganic & medicinal chemistry letters》2005,15(5):1361-1366
We have previously reported that (4R,5R)-5-ethyl-2-imino-4-methylthiazolidine (3) strongly inhibits inducible nitric oxide synthase (iNOS). In a successive search for strong and selective iNOS inhibitors, we, herein, describe the synthesis of the selenium analogue of 3 (4: ES-2133) and its related optically active compounds and examine their in vitro and in vivo inhibitory activity against iNOS. In addition, an alternative synthetic method to the selected compound 4 and its pharmacokinetic profile is also reported. 相似文献
80.
Murakami K Yumoto F Ohki SY Yasunaga T Tanokura M Wakabayashi T 《Journal of molecular biology》2005,352(1):178-201
Troponin and tropomyosin on actin filaments constitute a Ca2+-sensitive switch that regulates the contraction of vertebrate striated muscle through a series of conformational changes within the actin-based thin filament. Troponin consists of three subunits: an inhibitory subunit (TnI), a Ca2+-binding subunit (TnC), and a tropomyosin-binding subunit (TnT). Ca2+-binding to TnC is believed to weaken interactions between troponin and actin, and triggers a large conformational change of the troponin complex. However, the atomic details of the actin-binding sites of troponin have not been determined. Ternary troponin complexes have been reconstituted from recombinant chicken skeletal TnI, TnC, and TnT2 (the C-terminal region of TnT), among which only TnI was uniformly labelled with 15N and/or 13C. By applying NMR spectroscopy, the solution structures of a "mobile" actin-binding domain (approximately 6.1 kDa) in the troponin ternary complex (approximately 52 kDa) were determined. The mobile domain appears to tumble independently of the core domain of troponin. Ca2+-induced changes in the chemical shift and line shape suggested that its tumbling was more restricted at high Ca2+ concentrations. The atomic details of interactions between actin and the mobile domain of troponin were defined by docking the mobile domain into the cryo-electron microscopy (cryo-EM) density map of thin filament at low [Ca2+]. This allowed the determination of the 3D position of residue 133 of TnI, which has been an important landmark to incorporate the available information. This enabled unique docking of the entire globular head region of troponin into the thin filament cryo-EM map at a low Ca2+ concentration. The resultant atomic model suggests that troponin interacted electrostatically with actin and caused the shift of tropomyosin to achieve muscle relaxation. An important feature is that the coiled-coil region of troponin pushed tropomyosin at a low Ca2+ concentration. Moreover, the relationship between myosin and the mobile domain on actin filaments suggests that the latter works as a fail-safe latch. 相似文献