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排序方式: 共有192条查询结果,搜索用时 31 毫秒
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Ellen Cocquyt Gillian H Gile Frederik Leliaert Heroen Verbruggen Patrick J Keeling Olivier De Clerck 《BMC evolutionary biology》2010,10(1):327
Background
A non-canonical nuclear genetic code, in which TAG and TAA have been reassigned from stop codons to glutamine, has evolved independently in several eukaryotic lineages, including the ulvophycean green algal orders Dasycladales and Cladophorales. To study the phylogenetic distribution of the standard and non-canonical genetic codes, we generated sequence data of a representative set of ulvophycean green algae and used a robust green algal phylogeny to evaluate different evolutionary scenarios that may account for the origin of the non-canonical code. 相似文献3.
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Altered Mechanical Environment of Bone Cells in an Animal Model of Short- and Long-Term Osteoporosis
Stefaan?W. Verbruggen Myles?J. Mc Garrigle Matthew?G. Haugh Muriel?C. Voisin Laoise?M. McNamara 《Biophysical journal》2015,108(7):1587-1598
Alterations in bone tissue composition during osteoporosis likely disrupt the mechanical environment of bone cells and may thereby initiate a mechanobiological response. It has proved challenging to characterize the mechanical environment of bone cells in vivo, and the mechanical environment of osteoporotic bone cells is not known. The objective of this research is to characterize the local mechanical environment of osteocytes and osteoblasts from healthy and osteoporotic bone in a rat model of osteoporosis. Using a custom-designed micromechanical loading device, we apply strains representative of a range of physical activity (up to 3000 με) to fluorescently stained femur samples from normal and ovariectomized rats. Confocal imaging was simultaneously performed, and digital image correlation techniques were applied to characterize cellular strains. In healthy bone tissue, osteocytes experience higher maximum strains (31,028 ± 4213 με) than osteoblasts (24,921 ± 3,832 με), whereas a larger proportion of the osteoblast experiences strains >10,000 με. Most interestingly, we show that osteoporotic bone cells experience similar or higher maximum strains than healthy bone cells after short durations of estrogen deficiency (5 weeks), and exceeded the osteogenic strain threshold (10,000 με) in a similar or significantly larger proportion of the cell (osteoblast, 12.68% vs. 13.68%; osteocyte, 15.74% vs. 5.37%). However, in long-term estrogen deficiency (34 weeks), there was no significant difference between bone cells in healthy and osteoporotic bone. These results suggest that the mechanical environment of bone cells is altered during early-stage osteoporosis, and that mechanobiological responses act to restore the mechanical environment of the bone tissue after it has been perturbed by ovariectomy. 相似文献
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We present the 174,935 nt long plastid genome of the red alga Laurencia sp. JFC0032. It is the third plastid genome characterized for the largest order of red algae (Ceramiales). The circular‐mapping plastid genome is small compared to most florideophyte red algae, and our comparisons show a trend toward smaller plastid genome sizes in the family Rhodomelaceae, independent from a similar trend in Cyanidiophyceae. The Laurencia genome is densely packed with 200 annotated protein‐coding genes (188 widely conserved, 3 open reading frames shared with other red algae and 9 hypothetical coding regions). It has 29 tRNAs, a single‐copy ribosomal RNA cistron, a tmRNA, and the RNase P RNA. 相似文献
6.
Mechanisms to cope with arsenic or cadmium excess in plants 总被引:5,自引:0,他引:5
Nathalie Verbruggen Christian Hermans Henk Schat 《Current opinion in plant biology》2009,12(3):364-372
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Heroen Verbruggen † Lennert Tyberghein † Klaas Pauly † Caroline Vlaeminck Katrien Van Nieuwenhuyze Wiebe H.C.F. Kooistra Frederik Leliaert Olivier De Clerck 《Global Ecology and Biogeography》2009,18(4):393-405
Aim Because of their broad distribution in geographical and ecological dimensions, seaweeds (marine macroalgae) offer great potential as models for marine biogeographical inquiry and exploration of the interface between macroecology and macroevolution. This study aims to characterize evolutionary niche dynamics in the common green seaweed genus Halimeda, use the observed insights to gain understanding of the biogeographical history of the genus and predict habitats that can be targeted for the discovery of species of special biogeographical interest. Location Tropical and subtropical coastal waters. Methods The evolutionary history of the genus is characterized using molecular phylogenetics and relaxed molecular clock analysis. Niche modelling is carried out with maximum entropy techniques and uses macroecological data derived from global satellite imagery. Evolutionary niche dynamics are inferred through application of ancestral character state estimation. Results A nearly comprehensive molecular phylogeny of the genus was inferred from a six‐locus dataset. Macroecological niche models showed that species distribution ranges are considerably smaller than their potential ranges. We show strong phylogenetic signal in various macroecological niche features. Main conclusions The evolution of Halimeda is characterized by conservatism for tropical, nutrient‐depleted habitats, yet one section of the genus managed to invade colder habitats multiple times independently. Niche models indicate that the restricted geographical ranges of Halimeda species are not due to habitat unsuitability, strengthening the case for dispersal limitation. Niche models identified hotspots of habitat suitability of Caribbean species in the eastern Pacific Ocean. We propose that these hotspots be targeted for discovery of new species separated from their Caribbean siblings since the Pliocene rise of the Central American Isthmus. 相似文献
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Sofie Celen Jan Cleynhens Christophe Deroose Tjibbe de Groot Abdelilah Ibrahimi Rik Gijsbers Zeger Debyser Luc Mortelmans Alfons Verbruggen Guy Bormans 《Bioorganic & medicinal chemistry》2009,17(14):5117-5125
In our aim to develop LacZ reporter probes with a good retention in LacZ expressing cells, we report the synthesis and preliminary evaluation of two carbon-11 labeled β-galactosyl triazoles 1-(β-d-galactopyranosyl)-4-(p-[11C]methoxyphenyl)-1,2,3-triazole ([11C]-6) and 1-(β-d-galactopyranosyl)-4-(6-[11C]methoxynaphthyl)-1,2,3-triazole ([11C]-13). The precursors for the radiolabeling and the non-radioactive analogues (6 and 13) were synthesized using straightforward ‘click’ chemistry. In vitro incubation experiments of 6 with β-galactosidase in the presence of o-nitrophenyl β-d-galactopyranoside (ONPG) showed that the triazolic compound was an inhibitor of β-galactosidase activity. Radiolabeling of both precursors was performed using [11C]methyl iodide as alkylating agent at 70 °C in DMF in the presence of a small amount of base. The log P values were ?0.1 and 1.4, respectively, for [11C]-6 and [11C]-13, the latter therefore being a good candidate for increased cellular uptake via passive diffusion. Biodistribution studies in normal mice showed a good clearance from blood for both tracers. [11C]-6 was mainly cleared via the renal pathway, while the more lipophilic [11C]-13 was excreted almost exclusively via the hepatobiliary system. Despite the lipophilicity of [11C]-13, no brain uptake was observed. Reversed phase HPLC analysis of murine plasma and urine revealed high in vivo stability for both tracers. In vitro evaluation in HEK-293T cells showed an increased cell uptake for the more lipophilic [11C]-13, however, there was no statistically higher uptake in LacZ expressing cells compared to control cells. 相似文献
9.
Eiko E. Kuramae Erik Verbruggen Remy Hillekens Mattias de Hollander Wilfred F. M. R?ling Marcel G. A. van der Heijden George A. Kowalchuk 《PloS one》2013,8(7)
We assessed soil fungal diversity and community structure at two sampling times (t1 = 47 days and t2 = 104 days of plant age) in pots associated with four maize cultivars, including two genetically modified (GM) cultivars by high-throughput pyrosequencing of the 18S rRNA gene using DNA and RNA templates. We detected no significant differences in soil fungal diversity and community structure associated with different plant cultivars. However, DNA-based analyses yielded lower fungal OTU richness as compared to RNA-based analyses. Clear differences in fungal community structure were also observed in relation to sampling time and the nucleic acid pool targeted (DNA versus RNA). The most abundant soil fungi, as recovered by DNA-based methods, did not necessary represent the most “active” fungi (as recovered via RNA). Interestingly, RNA-derived community compositions at t1 were highly similar to DNA-derived communities at t2, based on presence/absence measures of OTUs. We recovered large proportions of fungal sequences belonging to arbuscular mycorrhizal fungi and Basidiomycota, especially at the RNA level, suggesting that these important and potentially beneficial fungi are not affected by the plant cultivars nor by GM traits (Bt toxin production). Our results suggest that even though DNA- and RNA-derived soil fungal communities can be very different at a given time, RNA composition may have a predictive power of fungal community development through time. 相似文献
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