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221.
Helena
stergaard Rasmussen Daniel E. Otzen Jan Skov Pedersen 《The Journal of biological chemistry》2022,298(2)
Amyloid proteins are widespread in nature both as pathological species involved in several diseases and as functional entities that can provide protection and storage for the organism. Lipids have been found in amyloid deposits from various amyloid diseases and have been shown to strongly affect the formation and structure of both pathological and functional amyloid proteins. Here, we investigate how fibrillation of the functional amyloid FapC from Pseudomonas is affected by two lysolipids, the zwitterionic lipid 1-myristoyl-2-hydroxy-sn-glycero-3-phosphocholine and the anionic lipid 1-myristoyl-2-hydroxy-sn-glycero-3-phospho-(1′-rac-glycerol) (LPG). Small-angle X-ray scattering, circular dichroism, dynamic light scattering, and thioflavin T fluorescence measurements were performed simultaneously on the same sample to ensure reproducibility and allow a multimethod integrated analysis. We found that LPG strongly induces fibrillation around its critical micelle concentration (cmc) by promoting formation of large structures, which mature via accumulation of intermediate fibril structures with a large cross section. At concentrations above its cmc, LPG strongly inhibits fibrillation by locking FapC in a core–shell complex. In contrast, lipid 1-myristoyl-2-hydroxy-sn-glycero-3-phosphocholine induces fibrillation at concentrations above its cmc, not via strong interactions with FapC but by being incorporated during fibrillation and likely stabilizing the fibrillation nucleus to reduce the lag phase. Finally, we show that LPG is not incorporated into the fibril during assembly but rather can coat the final fibril. We conclude that lipids affect both the mechanism and outcome of fibrillation of functional amyloid, highlighting a role for lipid concentration and composition in the onset and mechanism of fibrillation in vivo. 相似文献
222.
223.
Rogert Bauer Moira Behan David Clarke Steen Hansen Gareth Jones Kell Mortensen Jan Skov Pedersen 《European biophysics journal : EBJ》1992,21(2):129-136
Structural information on clathrin coated vesicles has been obtained by small angle neutron scattering using contrast variation. A characteristic peak in the neutron scattering profile, which is apparent in 75 % D2O, as well as in H2O, disappears when contrast matching the protein component of the coated vesicles in 42% D2O. Neutron, as well as dynamic, light scattering give a coated vesicle size of about 900 Å in H2O and D2O, but for neutron scattering the diameter decreases when matching out the protein coat of the clathrin coated vesicles. From the match point for the clathrin coated vesicles it is demonstrated that the clathrin cages do contain internal membrane. The mass of 34 MD and composition of 75% protein and 25% lipid found from the analysis of the small-angle scattering data are both in good agreement with the values reported in the literature. Electron microscopy gives an average outer diameter of 880 Å for the coated vesicles and an average diameter of 460 Å for the vesicle itself.
Offprint requests to: Correspondence to: R. Bauer 相似文献
224.
Christer Brönmark Jakob Brodersen Ben B. Chapman Alice Nicolle P. Anders Nilsson Christian Skov Lars-Anders Hansson 《Hydrobiologia》2010,646(1):91-100
Shallow eutrophic lakes commonly exist in two alternative stable states: a clear-water state and a turbid water state. A number
of mechanisms, including both abiotic and biotic processes, buffer the respective states against changes, whereas other mechanisms
likely drive transitions between states. Our earlier research shows that a large proportion of zooplanktivorous fish populations
in shallow lakes undertake seasonal migrations where they leave the lake during winter and migrate back to the lake in spring.
Based on our past research, we propose a number of scenarios of how feedback processes between the individual and ecosystem
levels may affect stability of alternative stable states in shallow lakes when mediated by fish migration. Migration effects
on shallow lakes result from processes at different scales, from the individual to the ecosystem. Our earlier research has
shown that ecosystem properties, including piscivore abundance and zooplankton productivity, affect the individual state of
zooplanktivorous fish, such as growth rate or condition. Individual state, in turn, affects the relative proportion and timing
of migrating zooplanktivorous fish. This change, in turn, may stabilize states or cause runaway processes that eventually
lead to state shifts. Consequently, such knowledge of processes coupled to seasonal migration of planktivorous fish should
increase our understanding of shallow lake dynamics. 相似文献
225.
226.
Lene Jacobsen Søren Berg Mads Broberg Niels Jepsen Christian Skov 《Freshwater Biology》2002,47(12):2370-2379
SUMMARY 1. Radio transmitters were implanted in large perch (27–37 cm) in a shallow lake in Denmark. Between 6 and 13 perch were tracked every 3 h for 24‐h periods twice (summer) or once a month (winter) from August 1997 to July 1998. Activity levels were recorded as minimum distance moved per hour. 2. No significant differences in activity levels of individual fish were observed. 3. Highest activities were observed at daytime with peaks at dawn and dusk or midday. This diel pattern was most pronounced from October to April, whereas diel variations were less in the summer months, with no peaks occurring in midsummer. The general lack of activity at night supports the idea that perch is a visually oriented forager. 4. There was no significant relationship between daytime activity during the year and temperature or day length, but nighttime activity was correlated with temperature. In contrast with previous findings, activity levels varied little seasonally, except for high activity levels that occurred concomitantly with high temperatures in August. Instead, we found a significant relationship between the total distances moved per day and temperature, indicating that perch moved at the same average speed in the wintertime, but did so for shorter periods than in summer because of shorter day lengths. 5. Diet of the tagged perch shifted from fish dominance between August and January to invertebrates from February to June. There was no correlation between the diet shift and activity levels, indicating that feeding on invertebrate requires similar activity levels as predation on fish. 6. The results of this telemetry study throughout a year suggest that perch are more active during the winter than previously inferred from gill‐net catches. This observation underscores the importance of perch as a predator of 0+ planktivorous fish in lakes and has potential implications for pelagic food web structure and lake management by biomanipulation. 相似文献
227.
Skov LK Mirza O Henriksen A De Montalk GP Remaud-Simeon M Sarçabal P Willemot RM Monsan P Gajhede M 《The Journal of biological chemistry》2001,276(27):25273-25278
Amylosucrase (E.C. 2.4.1.4) is a member of Family 13 of the glycoside hydrolases (the alpha-amylases), although its biological function is the synthesis of amylose-like polymers from sucrose. The structure of amylosucrase from Neisseria polysaccharea is divided into five domains: an all helical N-terminal domain that is not similar to any known fold, a (beta/alpha)(8)-barrel A-domain, B- and B'-domains displaying alpha/beta-structure, and a C-terminal eight-stranded beta-sheet domain. In contrast to other Family 13 hydrolases that have the active site in the bottom of a large cleft, the active site of amylosucrase is at the bottom of a pocket at the molecular surface. A substrate binding site resembling the amylase 2 subsite is not found in amylosucrase. The site is blocked by a salt bridge between residues in the second and eight loops of the (beta/alpha)(8)-barrel. The result is an exo-acting enzyme. Loop 7 in the amylosucrase barrel is prolonged compared with the loop structure found in other hydrolases, and this insertion (forming domain B') is suggested to be important for the polymer synthase activity of the enzyme. The topology of the B'-domain creates an active site entrance with several ravines in the molecular surface that could be used specifically by the substrates/products (sucrose, glucan polymer, and fructose) that have to get in and out of the active site pocket. 相似文献
228.
Vohlander Rasmussen LC Oliveira CL Pedersen JS Sperling-Petersen HU Mortensen KK 《Biochemistry》2011,50(45):9779-9787
Three protein factors ensure rapid and accurate initiation of translation in bacteria. Translation initiation factor IF2 is a ribosome-dependent GTPase, which is important for correct positioning of initiator tRNA on the 30S subunit as well as ribosomal subunit joining. The solution structure of the free C-terminal part of IF2 (IF2C, comprising domains IV to VI-2) was previously determined by small-angle X-ray scattering (SAXS) [Rasmussen, L. C., et al. (2008) Biochemistry 47, 5590-5598]. In this study, adding GDP or nonhydrolyzable GTP analogue GDPNP to the protein in solution caused structural changes in the protein, in agreement with recent data determined via isothermal titration calorimetry [Hauryliuk, V., et al. (2009) J. Mol. Biol. 394, 621-626]. The p(r) function indicated an elongated conformation supported by radii of gyration of 40.1 and 44.9 ? and maximum dimensions of ~125 and ~150 ? for IF2C with GDPNP and GDP, respectively. The SAXS data were used to model the structure of IF2C bound to either GDPNP or GDP. The structural transitions of IF2C upon GDPNP binding and following nucleotide hydrolysis support the concept of cofactor-dependent conformational switching rather than the classical model for GTPase activity. 相似文献
229.
Normand S Ricklefs RE Skov F Bladt J Tackenberg O Svenning JC 《Proceedings. Biological sciences / The Royal Society》2011,278(1725):3644-3653
The influence of dispersal limitation on species ranges remains controversial. Considering the dramatic impacts of the last glaciation in Europe, species might not have tracked climate changes through time and, as a consequence, their present-day ranges might be in disequilibrium with current climate. For 1016 European plant species, we assessed the relative importance of current climate and limited postglacial migration in determining species ranges using regression modelling and explanatory variables representing climate, and a novel species-specific hind-casting-based measure of accessibility to postglacial colonization. Climate was important for all species, while postglacial colonization also constrained the ranges of more than 50 per cent of the species. On average, climate explained five times more variation in species ranges than accessibility, but accessibility was the strongest determinant for one-sixth of the species. Accessibility was particularly important for species with limited long-distance dispersal ability, with southern glacial ranges, seed plants compared with ferns, and small-range species in southern Europe. In addition, accessibility explained one-third of the variation in species' disequilibrium with climate as measured by the realized/potential range size ratio computed with niche modelling. In conclusion, we show that although climate is the dominant broad-scale determinant of European plant species ranges, constrained dispersal plays an important supplementary role. 相似文献
230.
Lunøe K Gabel-Jensen C Stürup S Andresen L Skov S Gammelgaard B 《Metallomics : integrated biometal science》2011,3(2):162-168
The aim of this work was to compare different selenium species for their ability to induce cell death in different cancer cell lines, while investigating the underlying chemistry by speciation analysis. A prostate cancer cell line (PC-3), a colon cancer cell line (HT-29) and a leukaemia cell line (Jurkat E6-1) were incubated with five selenium compounds representing inorganic as well as organic Se compounds in different oxidation states. Selenomethionine (SeMet), Se-methylselenocysteine (MeSeCys), methylseleninic acid (MeSeA), selenite and selenate in the concentration range 5-100 μM were incubated with cells for 24 h and the induction of cell death was measured using flow cytometry. The amounts of total selenium in cell medium, cell lysate and the insoluble fractions was determined by ICP-MS. Speciation analysis of cellular fractions was performed by reversed phase, anion exchange and size exclusion chromatography and ICP-MS detection. The selenium compounds exhibited large differences in their ability to induce cell death in the three cell lines and the susceptibilities of the cell lines were different. Full recovery of selenium in the cellular fractions was observed for all Se compounds except MeSeA. Speciation analysis showed that MeSeA was completely transformed during the incubations, while metabolic conversion of the other Se compounds was limited. Production of volatile dimethyl diselenide was observed for MeSeA and MeSeCys. MeSeA, MeSeCys and selenite showed noticeable protein binding. Correlations between cell death induction and the Se compounds transformations could not be demonstrated. 相似文献