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de Nijs L Lakaye B Coumans B Léon C Ikeda T Delgado-Escueta AV Grisar T Chanas G 《Experimental cell research》2006,312(15):2872-2879
A novel gene, EFHC1, mutated in juvenile myoclonic epilepsy (JME) encodes a protein with three DM10 domains of unknown function and one putative EF-hand motif. To study the properties of EFHC1, we expressed EGFP-tagged protein in various cell lines. In interphase cells, the fusion protein was present in the cytoplasm and in the nucleus with specific accumulation at the centrosome. During mitosis EGFP-EFHC1 colocalized with the mitotic spindle, especially at spindle poles and with the midbody during cytokinesis. Using a specific antibody, we demonstrated the same distribution of the endogenous protein. Deletion analyses revealed that the N-terminal region of EFHC1 is crucial for the association with the mitotic spindle and the midbody. Our results suggest that EFHC1 could play an important role during cell division. 相似文献
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Ziomkiewicz A Wichary S Bochenek D Pawlowski B Jasienska G 《Hormones and behavior》2012,61(4):535-540
Personality and temperament were hypothesized to function as important factors affecting life history strategies. Recent research has demonstrated the association between temperamental traits and reproduction in humans, however, the underlying mechanisms are still poorly understood. This study presents evidence for an association between temperamental traits and woman's fecundity, as indicated by levels of ovarian steroid hormones during the menstrual cycle. On a large sample of urban, reproductive age women (n = 108) we demonstrated that activity, endurance and emotional reactivity are associated with levels of estrogen and with a pattern of change of progesterone levels. Women high in activity, high in endurance and low in emotional reactivity had up to twice as high estradiol levels and more favorable progesterone profiles as women low in activity, low in endurance and high in emotional reactivity. The temperamental traits we measured highly overlap with extraversion, neuroticism and negative emotionality that were reported to correlate with reproductive success. Our findings thus suggest a possible explanation for these relationships, linking personality and women's reproductive success through a hormonal pathway. 相似文献
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Rot1 is an essential yeast protein originally shown to be implicated in such diverse processes such as β-1,6-glucan synthesis, actin cytoskeleton dynamics or lysis of autophagic bodies. More recently also a role as a molecular chaperone has been discovered. Here, we report that Rot1 interacts in a synthetic manner with Ost3, one of the nine subunits of the oligosaccharyltransferase (OST) complex, the key enzyme of N-glycosylation. The deletion of OST3 in the rot1-1 mutant causes a temperature sensitive phenotype as well as sensitivity toward compounds interfering with cell wall biogenesis such as Calcofluor White, caffeine, Congo Red and hygromycin B, whereas the deletion of OST6, a functional homolog of OST3, has no effect. OST activity in vitro determined in membranes from rot1-1ost3Δ cells was found to be decreased to 45% compared with wild-type membranes, and model glycoproteins of N-glycosylation, like carboxypeptidase Y, Gas1 or dipeptidyl aminopeptidase B, displayed an underglycosylation pattern. By affinity chromatography, a physical interaction between Rot1 and Ost3 was demonstrated. Moreover, Rot1 was found to be involved also in the O-mannosylation process, as the glycosylation of distinct glycoproteins of this type were affected as well. Altogether, the data extend the role of Rot1 as a chaperone required to ensure proper glycosylation. 相似文献
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Courtois C Besson A Dahan J Bourque S Dobrowolska G Pugin A Wendehenne D 《Journal of experimental botany》2008,59(2):155-163
Much attention has been paid to nitric oxide (NO) research since its discovery as a physiological mediator of plant defence responses. In recent years, newer roles have been attributed to NO, ranging from root development to stomatal closure. The molecular mechanisms underlying NO action in plants are just begun to emerge. The currently available data illustrate that NO can directly influence the activity of target proteins through nitrosylation and has the capacity to act as a Ca2+-mobilizing intracellular messenger. The interplay between NO and Ca2+ has important functional implications, expanding and enriching the possibilities for modulating transduction processes. Furthermore, protein kinases regulated through NO-dependent mechanisms are being discovered, offering fresh perspective on processes such as stress tolerance. 相似文献
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Loi P Beaujean N Khochbin S Fulka J Ptak G 《BioEssays : news and reviews in molecular, cellular and developmental biology》2008,30(1):66-74
Despite the progress achieved over the last decade after the birth of the first cloned mammal, the efficiency of reproductive cloning remains invariably low. However, research aiming at the use of nuclear transfer for the production of patient-tailored stem cells for cell/tissue therapy is progressing rapidly. Yet, reproductive cloning has many potential implications for animal breeding, transgenic research and the conservation of endangered species. In this article we suggest that the changes in the epi-/genotype observed in cloned embryos arise from unbalanced nuclear reprogramming between parental chromosomes. It is probable that the oocyte reprogramming machinery, devised for resident chromosomes, cannot target the paternal alleles of somatic cells. We, therefore, suggest that a reasonable approach to balance this asymmetry in nuclear reprogramming might involve the transient expression in donor cells of chromatin remodelling proteins, which are physiologically expressed during spermatogenesis, in order to induce a male-specific chromatin organisation in the somatic cells before nuclear transfer. 相似文献