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Neural progenitor cells (NPCs) are sensitive to epidermal growth factor (EGF), which is essential for their self-renewal. Recently we showed that high level of connexin43 (Cx43) expression and gap junctional intercellular communication (GJIC) are also required to maintain NPCs in a proliferative state. In this study the connection between EGF/EGFR signalling and Cx43 expression was investigated during proliferation and differentiation of cultured ReNcell VM197 human NPCs. We found that EGF, but not basic fibroblast growth factor (bFGF), strongly stimulated both Cx43 expression and GJIC in proliferating cells. This stimulatory effect was blocked by AG1478, a specific inhibitor for EGFR kinase. Notably, knockdown of Cx43 strongly inhibited the cell proliferation promoted by EGF/EGFR signalling. High sensitivity to EGF was still maintained in differentiated NPCs. Administration of EGF to differentiating cells led to a pronounced increase (9-fold) of Cx43 expression and a re-induction of proliferation. This strong impact of EGF was found to correlate with a surprisingly massive 60-fold up-regulation of EGFR expression in differentiated cells. Our data argue for a mutual regulation between Cx43 expression and EGF/EGFR signalling during self-renewal and differentiation of NPCs. 相似文献
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Constantí Stefanescu Ferran Páramo Susanne Åkesson Marta Alarcón Anna Ávila Tom Brereton Jofre Carnicer Louis F. Cassar Richard Fox Janne Heliölä Jane K. Hill Norbert Hirneisen Nils Kjellén Elisabeth Kühn Mikko Kuussaari Matti Leskinen Felix Liechti Martin Musche Eugenie C. Regan Don R. Reynolds David B. Roy Nils Ryrholm Heiko Schmaljohann Josef Settele Chris D. Thomas Chris van Swaay Jason W. Chapman 《Ecography》2013,36(4):474-486
Long‐range, seasonal migration is a widespread phenomenon among insects, allowing them to track and exploit abundant but ephemeral resources over vast geographical areas. However, the basic patterns of how species shift across multiple locations and seasons are unknown in most cases, even though migrant species comprise an important component of the temperate‐zone biota. The painted lady butterfly Vanessa cardui is such an example; a cosmopolitan continuously‐brooded species which migrates each year between Africa and Europe, sometimes in enormous numbers. The migration of 2009 was one of the most impressive recorded, and thousands of observations were collected through citizen science programmes and systematic entomological surveys, such as high altitude insect‐monitoring radar and ground‐based butterfly monitoring schemes. Here we use V. cardui as a model species to better understand insect migration in the Western Palaearctic, and we capitalise on the complementary data sources available for this iconic butterfly. The migratory cycle in this species involves six generations, encompassing a latitudinal shift of thousands of kilometres (up to 60 degrees of latitude). The cycle comprises an annual poleward advance of the populations in spring followed by an equatorward return movement in autumn, with returning individuals potentially flying thousands of kilometres. We show that many long‐distance migrants take advantage of favourable winds, moving downwind at high elevation (from some tens of metres from the ground to altitudes over 1000 m), pointing at strong similarities in the flight strategies used by V. cardui and other migrant Lepidoptera. Our results reveal the highly successful strategy that has evolved in these insects, and provide a useful framework for a better understanding of long‐distance seasonal migration in the temperate regions worldwide. 相似文献
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Mapping of QTL for seed dormancy in a winter oilseed rape doubled haploid population 总被引:1,自引:0,他引:1
Jörg Schatzki Burkhard Schoo Wolfgang Ecke Cornelia Herrfurth Ivo Feussner Heiko C. Becker Christian Möllers 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2013,126(9):2405-2415
Following winter oilseed rape cultivation, considerable numbers of volunteer oilseed rape plants may occur in subsequent years in following crops. The appearance of volunteer oilseed rape plants is based on the capability of the seeds to become secondary dormant and to survive in this stage for many years in the soil. Genetic reduction of secondary seed dormancy in oilseed rape could provide a means to reduce the frequency of volunteer plants and especially the dispersal of transgenic oilseed rape. The objective of the present study was to analyse the inheritance of primary and secondary seed dormancy in a winter oilseed rape doubled haploid population derived from the cross Express 617 × R53 and to study correlations to other seed traits. Field experiments were performed in Germany for 2 years at two locations with two replicates. Seeds harvested from open pollinated plants were used for all analyses, including a laboratory test for seed dormancy. A previously developed molecular marker map of the doubled haploid population was used to map QTL of the relevant traits. For primary, secondary and total seed dormancy, the results showed significant effects of the genotypes and their interactions, with years and locations. Two, four and five QTL were detected for primary, secondary and total seed dormancy which explained 19, 35 and 42 % of the phenotypic variance, respectively. Results show that secondary seed dormancy is a heritable trait and that selection for low secondary seed dormancy is possible. 相似文献
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Karin Aufenvenne Fernando Larcher Ingrid Hausser Blanca Duarte Vinzenz Oji Heike Nikolenko Marcela Del?Rio Margitta Dathe Heiko Traupe 《American journal of human genetics》2013,93(4):620-630
Transglutaminase-1 (TG1)-deficient autosomal-recessive congenital ichthyosis (ARCI) is a rare and severe genetic skin disease caused by mutations in TGM1. It is characterized by collodion babies at birth, dramatically increased transepidermal water loss (TEWL), and lifelong pronounced scaling. The disease has a tremendous burden, including the problem of stigmatization. Currently, no therapy targeting the molecular cause is available, and the therapeutic situation is deplorable. In this study, we developed the basis for a causative therapy aiming at the delivery of the enzyme to the inner site of the keratinocytes’ plasma membrane. We prepared sterically stabilized liposomes with encapsulated recombinant human TG1 (rhTG1) and equipped with a highly cationic lipopeptide vector to mediate cellular uptake. The liposomes overcame the problems of insufficient cutaneous delivery and membrane penetration and provided excellent availability and activity of rhTG1 in primary keratinocytes. To demonstrate the general feasibility of this therapeutic approach in a humanized context, we used a skin-humanized mouse model. Treatment with rhTG1 liposomes resulted in considerable improvement of the ichthyosis phenotype and in normalization of the regenerated ARCI skin: in situ monitoring showed a restoration of TG1 activity, and cholesterol clefts vanished ultrastructurally. Measurement of TEWL revealed a restoration of epidermal barrier function. We regard this aspect as a major advance over available nonspecific approaches making use of, for example, retinoid creams. We conclude that this topical approach is a promising strategy for restoring epidermal integrity and barrier function and provides a causal cure for individuals with TG1 deficiency. 相似文献
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Alexey V. Shpilyov Vladislav V. Zinchenko Bernhard Grimm Heiko Lokstein 《The Plant journal : for cell and molecular biology》2013,73(2):336-346
In oxygenic phototrophic organisms, the phytyl ‘tail’ of chlorophyll a is formed from a geranylgeranyl residue by the enzyme geranylgeranyl reductase. Additionally, in oxygenic phototrophs, phytyl residues are the tail moieties of tocopherols and phylloquinone. A mutant of the cyanobacterium Synechocystis sp. PCC 6803 lacking geranylgeranyl reductase, ΔchlP, was compared to strains with specific deficiencies in either tocopherols or phylloquinone to assess the role of chlorophyll a phytylatation (versus geranylgeranylation). The tocopherol‐less Δhpt strain grows indistinguishably from the wild‐type under ‘standard’ light photoautotrophic conditions, and exhibited only a slightly enhanced rate of photosystem I degradation under strong irradiation. The phylloquinone‐less ΔmenA mutant also grows photoautotrophically, albeit rather slowly and only at low light intensities. Under strong irradiation, ΔmenA retained its chlorophyll content, indicative of stable photosystems. ΔchlP may only be cultured photomixotrophically (due to the instability of both photosystems I and II). The increased accumulation of myxoxanthophyll in ΔchlP cells indicates photo‐oxidative stress even under moderate illumination. Under high‐light conditions, ΔchlP exhibited rapid degradation of photosystems I and II. In conclusion, the results demonstrate that chlorophyll a phytylation is important for the (photo)stability of photosystems I and II, which, in turn, is necessary for photoautotrophic growth and tolerance of high light in an oxygenic environment. 相似文献
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