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961.
Mathieu Ferron Julie Lacombe Amélie Germain Franck Oury Gérard Karsenty 《The Journal of cell biology》2015,208(6):761-776
Osteocalcin (OCN) is an osteoblast-derived hormone favoring glucose homeostasis, energy expenditure, male fertility, brain development, and cognition. Before being secreted by osteoblasts in the bone extracellular matrix, OCN is γ-carboxylated by the γ-carboxylase (GGCX) on three glutamic acid residues, a cellular process requiring reduction of vitamin K (VK) by a second enzyme, a reductase called VKORC1. Although circumstantial evidence suggests that γ-carboxylation may inhibit OCN endocrine functions, genetic evidence that it is the case is still lacking. Here we show using cell-specific gene inactivation models that γ-carboxylation of OCN by GGCX inhibits its endocrine function. We further show that VKORC1 is required for OCN γ-carboxylation in osteoblasts, whereas its paralogue, VKORC1L1, is dispensable for this function and cannot compensate for the absence of VKORC1 in osteoblasts. This study genetically and biochemically delineates the functions of the enzymes required for OCN modification and demonstrates that it is the uncarboxylated form of OCN that acts as a hormone. 相似文献
962.
Claire Mérot Brigitte Frérot Ene Leppik Mathieu Joron 《Evolution; international journal of organic evolution》2015,69(11):2891-2904
Species coexistence involves the evolution of reproductive barriers opposing gene flow. Heliconius butterflies display colorful patterns affecting mate choice and survival through warning signaling and mimicry. These patterns are called “magic traits” for speciation because divergent natural selection may promote mimicry shifts in pattern whose role as mating cue facilitates reproductive isolation. By contrast, between comimetic species, natural selection promotes pattern convergence. We addressed whether visual convergence interferes with reproductive isolation by testing for sexual isolation between two closely related species with similar patterns, H. timareta thelxinoe and H. melpomene amaryllis. Experiments with models confirmed visual attraction based on wing phenotype, leading to indiscriminate approach. Nevertheless, mate choice experiments showed assortative mating. Monitoring male behavior toward live females revealed asymmetry in male preference, H. melpomene males courting both species equally while H. timareta males strongly preferred conspecifics. Experiments with hybrid males suggested an important genetic component for such asymmetry. Behavioral observations support a key role for short‐distance cues in determining male choice in H. timareta. Scents extracts from wings and genitalia revealed interspecific divergence in chemical signatures, and hybrid female scent composition was significantly associated with courtship intensity by H. timareta males, providing candidate chemical mating cues involved in sexual isolation. 相似文献
963.
Lise Dupont Ysoline Grésille Benoît Richard Thibaud Decaëns Jérôme Mathieu 《Biological journal of the Linnean Society. Linnean Society of London》2015,114(2):335-347
The limited dispersal ability of earthworms is expected to result in marked genetic isolation by distance and remarkable spatial patterns of genetic variation. To test this hypothesis, we investigated, using microsatellite loci, the spatial genetic structure of two earthworm species, Allolobophora chlorotica and Aporrectodea icterica, in two plots of less than 1 ha where a total of 282 individuals were collected. We used spatial autocorrelation statistics, partial Mantel tests of isolation‐by‐distance (IBD) and isolation‐by‐resistance (IBR), and Bayesian test of clustering to explore recent patterns involved in the observed genetic structure. For A. icterica, a low signal of genetic structure was detected, which may be explained by an important dispersal capacity and/or by the low polymorphism of the microsatellite loci. For A. chlorotica, a weak, but significant, pattern of IBD associated with positive autocorrelation was observed in one of the plots. In the other plot, which had been recently ploughed, two genetically differentiated clusters were identified. These results suggest a spatial neighbourhood structure in A. chlorotica, with neighbour individuals that tend to be more genetically similar to one another, and also highlight that habitat perturbation as a result of human activities may deeply alter the genetic structure of earthworm species, even at a very small scale. © 2015 The Linnean Society of London, Biological Journal of the Linnean Society, 2015, 114 , 335–347. 相似文献
964.
965.
Functional dissimilarity across trophic levels as a driver of soil processes in a Mediterranean decomposer system exposed to two moisture levels
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Mathieu Coulis Nathalie Fromin Jean‐François David Jordane Gavinet Alexandre Clet Sébastien Devidal Jacques Roy Stephan Hättenschwiler 《Oikos》2015,124(10):1304-1316
The role of biodiversity for soil processes remains poorly understood. Existing evidence suggests that functional diversity rather than species richness is relevant for soil functioning. However, the importance of functional diversity has rarely been assessed simultaneously at more than one trophic level, critically limiting the prediction of consequences of biodiversity loss for soil functioning. In a laboratory microcosm experiment, we tested the hypothesis that increasing functional dissimilarity of both litter‐feeding soil fauna and litter mixtures interactively affects the rates of five different soil processes related to litter decomposition. We created trait‐based functional dissimilarity gradients using five assemblages of two detritivore species and five mixtures of two plant litter species commonly found in Mediterranean shrubland ecosystems of southern France. With increasing drought periods predicted for Mediterranean ecosystems in the future, we additionally included two different watering frequencies to evaluate the impact of drought on soil processes and how drought interacts with functional dissimilarity. The different fauna assemblages and litter mixtures showed strong effects on litter mass loss, soil organic carbon and nitrogen leaching, as well as on soil microbial activities. Up to 20% of the variation in response variables was explained by functional dissimilarity, suggesting an ecologically relevant impact of functional diversity on soil process rates. Detritivore functional dissimilarity tended to have stronger effects when combined with increasingly dissimilar litter mixtures, suggesting that trait dissimilarity interacts across trophic levels. Drought affected several soil processes but did not modify the relationships between functional dissimilarity and process rates. Our results indicate that trait diversity of detritivore assemblages and litter mixtures is an important predictor of soil process rates. The common and easily measurable traits used in our study suggest straightforward application across different types of ecosystems and environmental conditions. 相似文献
966.
Root System Markup Language: Toward a Unified Root Architecture Description Language 总被引:1,自引:0,他引:1
967.
V. Joshua Dodson Jean-Luc Mouget Jeremy L. Dahmen Jeffrey D. Leblond 《Hydrobiologia》2014,726(1):95-107
The monitoring of currently changing bogs has triggered a need to improve our understanding of correlations between different taxa. We analysed the cross-taxon congruence of six contrasting groups of organisms (vascular plants, bryophytes, fungi, diatoms, desmids and testate amoebae) in permanent plots located in differently polluted summit ombrotrophic bogs in two regions of the Czech Republic. In the suboceanic region, whose bogs are more uniformly polluted, the congruence was generally lower. Vascular plants, bryophytes and fungi showed the same gradient structure, while three groups of protists behaved rather independently of one another. In the subcontinental region where recent aerial liming created a new pH gradient, the congruence was generally higher. The main difference among different taxa corresponded clearly with body size and life span (microorganisms versus macroorganisms), conforming the previous results of a faster response of microorganisms to the artificially created pH gradient. Generally, vascular plants, bryophytes and fungi provided similar information, while diatoms behaved most independently. The major division among the study taxa coincided with body size rather than with nutrition or propagule size. 相似文献
968.
B. Vandoorne C. Descamps A. S. Mathieu W. Van den Ende R. Vergauwen M. Javaux S. Lutts 《Plant and Soil》2014,376(1-2):291-305
Background and aims
Flooding stress is known to affect root growth and sugar metabolism in plants, but data are crucially missing for Cichorium intybus which stores inulin in its tap root. The aim of the present study was to quantify the impact of recurrent episodes of flooding stress on plant growth, water status, photosynthesis and sugar metabolism in relation to inulin synthesis and accumulation in roots of this species.Methods
Plants were cultured for 25 weeks under controlled environmental conditions on a sand substrate in columns saturated with nutrient solution for periods of 2–3 weeks (starting on week 12) alternating with 7 days non-flooding periods. Plant growth, water status, photosynthesis-related parameters and sugar concentration and metabolism were monitored at regular intervals up to the end of the treatment.Key results
Flooding increased the number of leaves but reduced net photosynthesis in relation to stomatal closure and decrease in PSII efficiency. The roots of flooded plants were shorter and larger than those of controls but fresh and dry weight were similar in the two situations. Reducing sugars and organic acids accumulated in the leaves while glucose, fructose, sucrose and 1-kestotriose accumulated in the roots. Sucrose synthase (EC 2.4.1.13) and invertase (EC 3.2.1.26) activities increased in both organs while sucrose-phosphate-synthase activity (EC 2.4.1.14) remained unaffected by flooding. Inulin synthesis was delayed in flooded roots and its mean degree of polymerization (DP) was reduced as a consequence of fructan:fructan 1-fructosyltransferase (1-FFT, EC 2.4.1.100) inhibition.Conclusions
Cichorium intybus is able to cope with intermittent episodes of flooding and modify organ shape without any effect on final weight. Quantity of inulin produced per plant remained unaffected but the quality of inulin (mean DP) decreased as a consequence of flooding. 相似文献969.
Annika Eiteneuer Jonas Seiler Matthias Weith Monique Beullens Bart Lesage Veronica Krenn Andrea Musacchio Mathieu Bollen Hemmo Meyer 《The EMBO journal》2014,33(22):2704-2720
Faithful chromosome segregation during mitosis is tightly regulated by opposing activities of Aurora B kinase and protein phosphatase-1 (PP1). PP1 function at kinetochores has been linked to SDS22, but the exact localization of SDS22 and how it affects PP1 are controversial. Here, we confirm that SDS22 is required for PP1 activity, but show that SDS22 does not normally localize to kinetochores. Instead, SDS22 is kept in solution by formation of a ternary complex with PP1 and inhibitor-3 (I3). Depletion of I3 does not affect the amount of PP1 at kinetochores but causes quantitative association of SDS22 with PP1 on KNL1 at the kinetochore. Such accumulation of SDS22 at kinetochores interferes with PP1 activity and inhibits Aurora B threonine-232 dephosphorylation, which leads to increased Aurora B activity in metaphase and persistence in anaphase accompanied with segregation defects. We propose a model in which I3 regulates an SDS22-mediated PP1 activation step in solution that precedes SDS22 dissociation and transfer of PP1 to kinetochores, and which is required for PP1 to efficiently antagonize Aurora B. 相似文献
970.
Edouard Boex-Fontvieille Mathieu Jossier Marlène Davanture Michel Zivy Michael Hodges Guillaume Tcherkez 《Plant Molecular Biology Reporter》2014,32(5):987-1001
Phototropin-dependent chloroplast movement is essential to the photosynthetic acclimation of mesophyll cells to incident light. Chloroplast movement involves many cellular actors, such as chloroplast-associated actin filaments and proteins that mediate signalling between phototropins and chloroplast motion. In the past few years, genetic approaches have identified several key proteins but the intrinsic mechanisms of the signalling cascade, such as phosphorylation events, remain undefined. Here, we took advantage of phosphoproteomics to examine the involvement of protein phosphorylation in chloroplast movement in darkness or under high light, at different CO2 mole fractions (100, 380 or 1,000 ppm) to vary photosynthetic activity. Amongst the 100 relevant identified phosphopeptides, 19 (corresponding to 8 proteins) were differentially phosphorylated in darkness vs. high light. There was no significant CO2 effect on the observed phosphorylation patterns. We further characterized the phosphorylation sites in THRUMIN1, which is believed to be crucial for the attachment of chloroplast-associated actin filaments to the plasma membrane and thus for chloroplast movements. The mutant thrumin1 was complemented with a mutated protein in which phospho-sites were substituted to a phosphomimetic (Asp) or a non-phosphorylatable (Ala) residue. While the phosphomimetic substitution altered the chloroplast response in the light only, both light and dark responses were altered with the non-phosphorylatable substitution. Our data suggest a key role of protein phosphorylation, including that of THRUMIN1, in the light/dark control of chloroplast movements. 相似文献