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91.
Nanako Morimoto Wakao Fukuda Nanami Nakajima Takeaki Masuda Yusuke Terui Tamotsu Kanai Tairo Oshima Tadayuki Imanaka Shinsuke Fujiwara 《Journal of bacteriology》2010,192(19):4991-5001
Long-chain and/or branched-chain polyamines are unique polycations found in thermophiles. Cytoplasmic polyamines were analyzed for cells cultivated at various growth temperatures in the hyperthermophilic archaeon Thermococcus kodakarensis. Spermidine [34] and N4-aminopropylspermine [3(3)43] were identified as major polyamines at 60°C, and the amounts of N4-aminopropylspermine [3(3)43] increased as the growth temperature rose. To identify genes involved in polyamine biosynthesis, a gene disruption study was performed. The open reading frames (ORFs) TK0240, TK0474, and TK0882, annotated as agmatine ureohydrolase genes, were disrupted. Only the TK0882 gene disruptant showed a growth defect at 85°C and 93°C, and the growth was partially retrieved by the addition of spermidine. In the TK0882 gene disruptant, agmatine and N1-aminopropylagmatine accumulated in the cytoplasm. Recombinant TK0882 was purified to homogeneity, and its ureohydrolase characteristics were examined. It possessed a 43-fold-higher kcat/Km value for N1-aminopropylagmatine than for agmatine, suggesting that TK0882 functions mainly as N1-aminopropylagmatine ureohydrolase to produce spermidine. TK0147, annotated as spermidine/spermine synthase, was also studied. The TK0147 gene disruptant showed a remarkable growth defect at 85°C and 93°C. Moreover, large amounts of agmatine but smaller amounts of putrescine accumulated in the disruptant. Purified recombinant TK0147 possessed a 78-fold-higher kcat/Km value for agmatine than for putrescine, suggesting that TK0147 functions primarily as an aminopropyl transferase to produce N1-aminopropylagmatine. In T. kodakarensis, spermidine is produced mainly from agmatine via N1-aminopropylagmatine. Furthermore, spermine and N4-aminopropylspermine were detected in the TK0147 disruptant, indicating that TK0147 does not function to produce spermine and long-chain polyamines.Polyamines are positively charged aliphatic compounds. Putrescine [4], spermidine [34], and spermine [343] are common polyamines observed in various living organisms, from viruses to humans (16). Polyamines, which play important roles in cell proliferation and cell differentiation (19, 34), are thought to contribute to adaptation against various stresses (9, 26). In thermophilic microorganisms, polyamines contribute to growth under high-temperature conditions. Indeed, in the thermophilic bacterium Thermus thermophilus, a mutant strain lacking the enzyme related to polyamine biosynthesis shows defective growth at high temperatures (23). Furthermore, thermophilic archaea and bacteria possess long-chain and branched-chain polyamines such as N4-aminopropylspermidine [3(3)4], N4-aminopropylspermine [3(3)43], and N4-bis(aminopropyl)spermidine [3(3)(3)4], in addition to common polyamines (11, 13, 14). N4-aminopropylspermine was detected in the cells of thermophiles, such as Saccharococcus thermophilus, thermophilic Bacillus and Geobacillus spp. (Bacillus caldolyticus, B. caldotenax, B. smithii, Geobacillus stearothermophilus, and G. thermocatenulatus), Caldicellulosiruptor spp. (C. kristjanssonii and C. owensensis) and Calditerricola spp. (C. satsumensis and C. yamamurae) (10, 12, 22), but it was not detected in archaea. These unique polyamines are thought to support the growth of thermophilic microorganisms under high-temperature conditions. An in vitro study indicated that long-chain and branched-chain polyamines effectively stabilized DNA and RNA, respectively (32).Polyamines are synthesized from amino acids such as arginine, ornithine, and methionine (26). In most eukaryotes, putrescine is synthesized directly from ornithine by ornithine decarboxylase (34). Plants and some bacteria possess additional or alternative putrescine biosynthesis pathways in which putrescine is synthesized from arginine via agmatine (18, 31, 35). In this pathway, agmatine is synthesized by arginine decarboxylase, and agmatine is converted to putrescine by agmatine ureohydrolase or a combination of agmatine iminohydrolase and N-carbamoylputrescine amidohydrolase. Longer polyamines are then produced by the addition of the aminopropyl group from decarboxylated S-adenosylmethionine. This pathway is shown on the left in Fig. Fig.11 (pathway I). On the other hand, the thermophilic bacterium T. thermophilus possesses a unique polyamine-biosynthetic pathway (23) in which spermidine is synthesized from agmatine via N1-aminopropylagmatine by aminopropyl transferase followed by ureohydrolase, as shown on the right in Fig. Fig.11 (pathway II).Open in a separate windowFIG. 1.Predicted biosynthetic pathway of polyamines in T. kodakarensis. (A) Predicted biosynthetic pathway. Pyruvoyl-dependent arginine decarboxylase proenzyme (TK0149), arginine/agmatine ureohydrolases (TK0240/TK0474/TK0882), aminopropyl transferase (TK0147), and pyruvoyl-dependent S-adenosylmethionine decarboxylase proenzyme (TK1592) are shown based on the genome analysis. (B) Structures of unique polyamines.A sulfur-reducing hyperthermophilic archaeon, Thermococcus kodakarensis KOD1, was isolated from Kodakara Island, Kagoshima, Japan (1, 21). This archaeon grows at temperatures between 60°C and 100°C but optimally at 85°C. Under low- or high-temperature-stressed conditions, T. kodakarensis produces cold- or heat-inducible chaperones to adapt to unfavorable growth environments (4, 5, 30). The lipid composition of the membrane also changes depending on the growth shift (20). In addition to acting as such tolerance factors, polyamines have been suggested to play an important role in maintaining nucleosomes in high-temperature environments (15). A complete genome analysis of T. kodakarensis has been performed, and the pathway of polyamine biosynthesis has been predicted (Fig. (Fig.1)1) (6, 7). It has been speculated that putrescine is synthesized from arginine via agmatine by arginine decarboxylase (PdaDTk) and agmatine ureohydrolase. Long- and/or branched-chain polyamines are then produced by the addition of the aminopropyl group derived from decarboxylated S-adenosylmethionine. Previously, we revealed that PdaDTk catalyzed the first step of polyamine biosynthesis and was essential for cell growth (6). The strain DAD, which lacks the gene pdaDTk, does not grow in medium without agmatine. Archaeal cells are known to use agmatine to synthesize agmatidine, which is an agmatine-conjugated cytidine found at the anticodon wobble position of archaeal tRNAIle (17). Agmatine is important for agmatidine synthesis as well as long-chain polyamine. In the present study, we focused on the subsequent steps in polyamine biosynthesis, especially from agmatine to spermidine. T. kodakarensis possesses three agmatine ureohydrolase homologues (TK0240, TK0474, and TK0882); however, it is unclear which one is dominantly functional in T. kodakarensis cells. In a closely related genus, Pyrococcus, TK0474 and TK0882 orthologues have been identified, but the TK0240 orthologue is missing in Pyrococcus genomes. In Pyrococcus horikoshii, PH0083, which is an orthologue of TK0882, was shown to possess agmatine ureohydrolase activity (8). TK0882, hence, appears to possess agmatine ureohydrolase activity as well. It is unclear whether other agmatine ureohydrolase homologues (TK0240 and TK0474) are involved in polyamine synthesis and cell growth in T. kodakarensis. In addition to agmatine ureohydrolase, aminopropyl transferase plays a crucial role in the synthesis of polyamines. TK0147 was annotated first as spermidine synthase and shares sequence identity with aminopropyl transferase (PF0127) from Pyrococcus furiosus (3). It is therefore expected to harbor the function of aminopropyl transferase for long-chain-polyamine synthesis. Recombinant PF0127 showed broad amine acceptor specificity for agmatine, 1,3-diaminopropane (3), putrescine, cadaverine (5), sym-nor-spermidine (33), and spermidine. While maximal catalytic activity was observed with cadaverine, agmatine was most often preferred on the basis of the kcat/Km value (3), suggesting that pathway II is a dominant route for polyamine synthesis in P. furiosus. In the present study, various disruptants lacking genes for polyamine biosynthesis were constructed in order to understand the physiological roles of these enzymes in T. kodakarensis. The cell growth profiles and cytoplasmic polyamines of the wild type and the disruptants were analyzed and compared. Recombinant enzymes were also purified and characterized. The obtained results are expected to provide useful information regarding the specific roles of polyamines in thermophiles. 相似文献
92.
93.
94.
Yamaji Y Valdez DM Seki S Yazawa K Urakawa C Jin B Kasai M Kleinhans FW Edashige K 《Cryobiology》2006,53(2):258-267
It has been shown that aquaporin-3, a water channel, is expressed in mouse embryos. This type of aquaporin transports not only water but also neutral solutes, including cell-permeating cryoprotectants. Therefore, the expression of this channel may have significant influence on the survival of cryopreserved embryos. However, permeability coefficients of aquaporin-3 to cryoprotectants have not been determined except for glycerol. In addition, permeability coefficients under concentration gradients are important for developing and improving cryopreservation protocols. In this study, we examined the permeability of aquaporin-3 to various cryoprotectants using Xenopus oocytes. The permeability of aquaporin-3 to cryoprotectants was measured by the volume change of aquaporin-3 cRNA-injected oocytes in modified Barth's solution containing either 10% glycerol, 8% ethylene glycol, 10% propylene glycol, 1.5 M acetamide, or 9.5% DMSO (1.51-1.83 Osm/kg) at 25 degrees C. Permeability coefficients of aquaporin-3 for ethylene glycol and propylene glycol were 33.50 and 31.45 x 10(-3) cm/min, respectively, which were as high as the value for glycerol (36.13 x 10(-3) cm/min). These values were much higher than those for water-injected control oocytes (0.04-0.11 x 10(-3) cm/min). On the other hand, the coefficients for acetamide and DMSO were not well determined because the volume data were poorly fitted by the two parameter model, possibly because of membrane damage. To avoid this, the permeability for these cryoprotectants was measured under a low concentration gradient by suspending oocytes in aqueous solutions containing low concentrations of acetamide or DMSO dissolved in water (0.20 Osm/kg). The coefficient for acetamide (24.60 x 10(-3) cm/min) was as high as the coefficients for glycerol, ethylene glycol, and propylene glycol, and was significantly higher than the value for control (6.50 x 10(-3) cm/min). The value for DMSO (6.33 x 10(-3) cm/min) was relatively low, although higher than the value for control (0.79 x 10(-3) cm/min). This is the first reported observation of DMSO transport by aquaporin-3. 相似文献
95.
Haito-Sugino S Ito M Ohi A Shiozaki Y Kangawa N Nishiyama T Aranami F Sasaki S Mori A Kido S Tatsumi S Segawa H Miyamoto K 《American journal of physiology. Cell physiology》2012,302(9):C1316-C1330
Mutations in the apically located Na(+)-dependent phosphate (NaPi) cotransporter, SLC34A3 (NaPi-IIc), are a cause of hereditary hypophosphatemic rickets with hypercalciuria (HHRH). We have characterized the impact of several HHRH mutations on the processing and stability of human NaPi-IIc. Mutations S138F, G196R, R468W, R564C, and c.228delC in human NaPi-IIc significantly decreased the levels of NaPi cotransport activities in Xenopus oocytes. In S138F and R564C mutant proteins, this reduction is a result of a decrease in the V(max) for P(i), but not the K(m). G196R, R468W, and c.228delC mutants were not localized to oocyte membranes. In opossum kidney (OK) cells, cell surface labeling, microscopic confocal imaging, and pulse-chase experiments showed that G196R and R468W mutations resulted in an absence of cell surface expression owing to endoplasmic reticulum (ER) retention. G196R and R468W mutants could be partially stabilized by low temperature. In blue native-polyacrylamide gel electrophoresis analysis, G196R and R468W mutants were either denatured or present in an aggregation complex. In contrast, S138F and R564C mutants were trafficked to the cell surface, but more rapidly degraded than WT protein. The c.228delC mutant did not affect endogenous NaPi uptake in OK cells. Thus, G196R and R468W mutations cause ER retention, while S138F and R564C mutations stimulate degradation of human NaPi-IIc in renal epithelial cells. Together, these data suggest that the NaPi-IIc mutants in HHRH show defective processing and stability. 相似文献
96.
Suzuki S Harasawa N Ueno K Gardner JL Ichinohe N Haruno M Cheng K Nakahara H 《Neuron》2012,74(6):1125-1137
A fundamental challenge in social cognition is how humans learn another person's values to predict their decision-making behavior. This form of learning is often assumed to require simulation of the other by direct recruitment of one's own valuation process to model the other's process. However, the cognitive and neural mechanism of simulation learning is not known. Using behavior, modeling, and fMRI, we show that simulation involves two learning signals in a hierarchical arrangement. A simulated-other's reward prediction error processed in ventromedial prefrontal cortex mediated simulation by direct recruitment, being identical for valuation of the self and simulated-other. However, direct recruitment was insufficient for learning, and also required observation of the other's choices to generate?a simulated-other's action prediction error encoded in dorsomedial/dorsolateral prefrontal cortex. These findings show that simulation uses a core prefrontal circuit for modeling the other's valuation to generate prediction and an adjunct circuit for tracking behavioral variation to refine prediction. 相似文献
97.
98.
M Morimoto T Nakajima M Ishikura Y Shigemasa S Ifuku H Saimoto 《Carbohydrate polymers》2012,90(3):1259-1264
A one-pot synthesis was used to produce chitosan derivatives with polyphenolic side chains via a regioselective phenolic coupling reaction. Under Mannich reaction conditions, treatment of chitosan with formaldehyde and methyl 2,4-dihydroxybenzoate gave N-(2,6-dihydroxy-3-methoxycarbonylphenyl)methylated chitosan in good yield (87%). Formation of a CC bond occurred regioselectively at the C(3) position of methyl 2,4-dihydroxybenzoate. Chitosan derivatives having various phenolic compounds as a side chain were easily synthesized in a similar manner. The chitosan derivatives showed good biodegradability and improved their solubility in methanol (9.8mgmL(-1)) and 2-methoxyethanol (> 10mgmL(-1)). The UV protection provided by the derivatives with phenolic benzophenone side chain was evaluated using UV spectra of polyethylene terephthalate and poly(vinyl butyral-co-vinyl alcohol-co-vinyl acetate) films coated with the derivatives and the derivatives absorbed effectively in the UV-A region (<60%). Self-aggregation of the chitosan derivatives with the phenolic side chain was observed by using a fluorescent probe in aqueous solution. 相似文献
99.
The majority of forests in urban areas are small and isolated. Improving habitat quality of small forests instead of increasing
habitat size and connectivity could be an effective means of conserving the biodiversity of such highly fragmented landscapes.
In this study, we investigated the relative importance of habitat quantity, quality and isolation on butterfly assemblages
in urban fragmented forests in Tokyo, Japan. We used four habitat geographic parameters: (1) fragment size, (2) shape index,
(3) isolation (distance to the mainland), and (4) connectivity; and three habitat quality parameters: (1) herbaceous nectar
plant abundance, (2) herbaceous nectar plant diversity, and (3) larval host plant diversity. We surveyed butterfly assemblages
along transects in 20 forest fragments that ranged in size from 1 to 122 ha. We used generalized linear models to relate the
number of species in a fragment to four habitat geographic parameters and three habitat quality parameters. The averaged models
based on AICc showed that fragment size had a strong positive effect on butterfly species richness. There was also a positive effect of
herbaceous nectar plant abundance on species diversity. These findings suggest that improving the habitat quality of small
and isolated forests in highly fragmented landscapes may be capable of maintaining levels of butterfly diversity comparable
to those of large fragments. 相似文献
100.
Eutrophication of mountain lakes in Japan due to increasing deposition of anthropogenically produced dust 总被引:2,自引:0,他引:2
Narumi K. Tsugeki Tetsuro Agusa Shingo Ueda Michinobu Kuwae Hirotaka Oda Shinsuke Tanabe Yukinori Tani Kazuhiro Toyoda Wan-lin Wang Jotaro Urabe 《Ecological Research》2012,27(6):1041-1052
Atmospheric dust has wide-reaching effects, not only influencing climate conditions, but also ecosystems. The eastern region of the Asian continent is one of the largest emitters of dust in the world, and recent economic growth in the region has been accompanied by an increase in anthropogenic emissions. However, the effects of increased Asian dusts on aquatic ecosystems are not well understood. We examined fossil pigments and zooplankton remains from 210Pb-dated sediments taken from high mountain lakes of Hourai-Numa and Hachiman-Numa, located in the Towada-Hachimantai National Park of Japan Islands, to uncover historical changes in the phyto- and zooplankton community over the past 100?years. Simultaneously, we measured the geochemical variables of TOC, TN, TP, ??13C, ??15N, and lead isotopes (207Pb/206Pb, 208Pb/206Pb) in the sediments to identify environmental factors causing such changes. As a result, despite few anthropogenic activities in the watersheds, alpine lakes in Japan had increased algal and herbivore plankton biomasses by 3?C6 fold for recent years depending on the surrounding terrestrial vegetation and landscape conditions. Biological and biogeochemical proxies recorded from the lake sediments showed that this eutrophication occurred after the 1990s when P deposition increased as a result of atmospheric loading of dust transported from the Asian continent. The continued increase of anthropogenically produced dust may therefore impart damaging impacts on mountain ecosystems even if they are protected from direct anthropogenic disturbances. 相似文献