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291.
Cytoplasmic localization of Wis1 MAPKK by nuclear export signal is important for nuclear targeting of Spc1/Sty1 MAPK in fission yeast
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Nguyen AN Ikner AD Shiozaki M Warren SM Shiozaki K 《Molecular biology of the cell》2002,13(8):2651-2663
Mitogen-activated protein kinase (MAPK) cascade is a ubiquitous signaling module that transmits extracellular stimuli through the cytoplasm to the nucleus; in response to activating stimuli, MAPKs translocate into the nucleus. Mammalian MEK MAPK kinases (MAPKKs) have in their N termini an MAPK-docking site and a nuclear export signal (NES) sequence, which are known to play critical roles in maintaining ERK MAPKs in the cytoplasm of unstimulated cells. Herein, we show that the Wis1 MAPKK of the stress-activated Spc1 MAPK cascade in fission yeast also has a MAPK-docking site and an NES sequence in its N-terminal domain. Unexpectedly, an inactivating mutation to the NES of chromosomal wis1(+) does not affect the subcellular localization of Spc1 MAPK, whereas this NES mutation disturbs the cytoplasmic localization of Wis1. However, when Wis1 is targeted to the nucleus by fusing to a nuclear localization signal sequence, stress-induced nuclear translocation of Spc1 is abrogated, indicating that cytoplasmic Wis1 is required for nuclear transport of Spc1 upon stress. Moreover, we have observed that a fraction of Wis1 translocates into the nucleus in response to stress. These results suggest that cytoplasmic localization of Wis1 MAPKK by its NES is important for stress signaling to the nucleus. 相似文献
292.
Erika Hiltbrunner Rien Aerts Tobias Bühlmann Kerstin Huss-Danell Borgthor Magnusson David D. Myrold Sasha C. Reed Bjarni D. Sigurdsson Christian Körner 《Oecologia》2014,176(1):11-24
Research in warm-climate biomes has shown that invasion by symbiotic dinitrogen (N2)-fixing plants can transform ecosystems in ways analogous to the transformations observed as a consequence of anthropogenic, atmospheric nitrogen (N) deposition: declines in biodiversity, soil acidification, and alterations to carbon and nutrient cycling, including increased N losses through nitrate leaching and emissions of the powerful greenhouse gas nitrous oxide (N2O). Here, we used literature review and case study approaches to assess the evidence for similar transformations in cold-climate ecosystems of the boreal, subarctic and upper montane-temperate life zones. Our assessment focuses on the plant genera Lupinus and Alnus, which have become invasive largely as a consequence of deliberate introductions and/or reduced land management. These cold biomes are commonly located in remote areas with low anthropogenic N inputs, and the environmental impacts of N2-fixer invasion appear to be as severe as those from anthropogenic N deposition in highly N polluted areas. Hence, inputs of N from N2 fixation can affect ecosystems as dramatically or even more strongly than N inputs from atmospheric deposition, and biomes in cold climates represent no exception with regard to the risk of being invaded by N2-fixing species. In particular, the cold biomes studied here show both a strong potential to be transformed by N2-fixing plants and a rapid subsequent saturation in the ecosystem’s capacity to retain N. Therefore, analogous to increases in N deposition, N2-fixing plant invasions must be deemed significant threats to biodiversity and to environmental quality. 相似文献
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Sasha C. Marine Sivaranjani Pagadala Fei Wang Donna M. Pahl Meredith V. Melendez Wesley L. Kline Ruth A. Oni Christopher S. Walsh Kathryne L. Everts Robert L. Buchanan Shirley A. Micallef 《Applied and environmental microbiology》2015,81(7):2395-2407
Small- and medium-size farms in the mid-Atlantic region of the United States use varied agricultural practices to produce leafy greens during spring and fall, but the impact of preharvest practices on food safety risk remains unclear. To assess farm-level risk factors, bacterial indicators, Salmonella enterica, and Shiga toxin-producing Escherichia coli (STEC) from 32 organic and conventional farms were analyzed. A total of 577 leafy greens, irrigation water, compost, field soil, and pond sediment samples were collected. Salmonella was recovered from 2.2% of leafy greens (n = 369) and 7.7% of sediment (n = 13) samples. There was an association between Salmonella recovery and growing season (fall versus spring) (P = 0.006) but not farming system (organic or conventional) (P = 0.920) or region (P = 0.991). No STEC was isolated. In all, 10% of samples were positive for E. coli: 6% of leafy greens, 18% of irrigation water, 10% of soil, 38% of sediment, and 27% of compost samples. Farming system was not a significant factor for levels of E. coli or aerobic mesophiles on leafy greens but was a significant factor for total coliforms (TC) (P < 0.001), with higher counts from organic farm samples. Growing season was a factor for aerobic mesophiles on leafy greens (P = 0.004), with higher levels in fall than in spring. Water source was a factor for all indicator bacteria (P < 0.001), and end-of-line groundwater had marginally higher TC counts than source samples (P = 0.059). Overall, the data suggest that seasonal events, weather conditions, and proximity of compost piles might be important factors contributing to microbial contamination on farms growing leafy greens. 相似文献
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Sasha A. Singh Allison B. Andraski Brett Pieper Wilson Goh Carlos O. Mendivil Frank M. Sacks Masanori Aikawa 《Journal of lipid research》2016,57(4):714-728
Endogenous labeling with stable isotopes is used to study the metabolism of proteins in vivo. However, traditional detection methods such as GC/MS cannot measure tracer enrichment in multiple proteins simultaneously, and multiple reaction monitoring MS cannot measure precisely the low tracer enrichment in slowly turning-over proteins as in HDL. We exploited the versatility of the high-resolution/accurate mass (HR/AM) quadrupole Orbitrap for proteomic analysis of five HDL sizes. We identified 58 proteins in HDL that were shared among three humans and that were organized into five subproteomes according to HDL size. For seven of these proteins, apoA-I, apoA-II, apoA-IV, apoC-III, apoD, apoE, and apoM, we performed parallel reaction monitoring (PRM) to measure trideuterated leucine tracer enrichment between 0.03 to 1.0% in vivo, as required to study their metabolism. The results were suitable for multicompartmental modeling in all except apoD. These apolipoproteins in each HDL size mainly originated directly from the source compartment, presumably the liver and intestine. Flux of apolipoproteins from smaller to larger HDL or the reverse contributed only slightly to apolipoprotein metabolism. These novel findings on HDL apolipoprotein metabolism demonstrate the analytical breadth and scope of the HR/AM-PRM technology to perform metabolic research. 相似文献
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Sasha Newell 《The journal of the Royal Anthropological Institute》2013,19(1):138-154
Rethinking Simmel's comparison of secrecy and adornment, I consider the ways in which brands function much like masking practices, concealing even as they reveal, using the visible to hide/signify the invisible. The classic masking scenario is one in which men wear masks and claim to be powerful ancestral spirits, keeping the fact of their performance a secret from women and uninitiated boys. However, the secrecy is ambiguous, for women give signs of knowing and men seem to believe in the spirits they pretend to be only pretending to be. In Côte d'Ivoire, where masks are a symbol of national identity, consumption focuses around displaying supposedly authentic name brand labels. Urban Ivoirians call this display of wealth and consumption ‘bluffing’, exposing the artifice of their supposed affluence. Still, the success of their performance depends on the authenticity of expensive European and American brands, in a market where most of what is available is counterfeit. Underneath the public secret of their performative display lies the deeper secret that they remain uncertain of the legitimacy of their purchases. Masks and brands both metaphorically delineate a metonymic though invisible connection to authentic power, but the secrecy of what lies beneath the masked performance provides an unstable ambiguity in which it is always possible that the surface is that which it represents. Brands always contain this instability between appearance and the genuine, for all are ultimately copies whose uncertain authenticity we cover up with public secrecy. 相似文献
300.
Hydroxylation of 6-N-trimethyl-l-lysine(lys(Me3)) to 3-hydroxy-6-N-trimethyl-l-lysine(3-HO-lys(Me3)) by several rat tissues has been examined and compared. The kidney enzyme, which previously was shown to require molecular oxygen and α-ketoglutarate as cosubstrates, ferrous iron and ascorbate as cofactors, and to be stimulated by catalase, has a broad pH optimum ranging between 6.5 to 7.5 at 37 °C. As determined with crude tissue extracts from kidney, liver, heart, and skeletal muscle, similar apparent Km values were obtained for substrate, cosubstrates, and cofactors. In view of similar kinetic parameters among the several lys(Me3) hydroxylases examined in rat tissues, and the fact that the level of skeletal muscle lys(Me3) hydroxylase activity is comparable to that of heart, liver, and kidney, because of its large total mass, skeletal muscle may contribute significantly to the biosynthesis of l-carnitine from lys(Me3). The most effective inhibitors found, competitive with lys(Me3), were 2-N-acetyl-6-N-trimethyl-l-lysine, 6-N-monomethyl-l-lysine, and 6-N-dimethyl-l-lysine. l-2-Amino-6-N-trimethylammonium-4-hexynoate, d-2-amino-6-N-trimethylammonium-4-hexynoate, and dl2-amino-6-N-trimethylammonium-cis-4-hexenoate, also inhibited hydroxylase activity but by a yet undetermined mechanism. Oxalacetate, succinate, and citrate inhibited the hydroxylation reaction by competing with α-ketoglutarate. The binding of ferrous iron to the enzyme was competitively inhibited by ions of “soft metals” (e.g., Cd2+, Zn2+) but not by those of “hard metals” (e.g., Ca2+, Mg2+). Preincubation of the crude kidney enzyme for 15 min at 37 °C with mercuriphenylsulfonate, N-ethylmaleimide, iodoacetate, or iodoacetamide resulted in considerable inhibition of 3-HO-lys(Me3) formation. The degree of inhibition by N-ethylmaleimide could be reduced by including Zn (II) during preincubation of the enzyme. The effects of “soft” metals and sulfhydryl reagents on the enzyme suggest that sulfhydryl groups are required for ferrous iron binding in the active site. 相似文献