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Sabine Abel Bernhard Geltinger Nadja Heinrich Dagmar Michl Annerose Klose Michael Beyermann Dirk Schwarzer 《Journal of peptide science》2014,20(11):831-836
We have recently developed a soluble mimic of the corticotropin‐releasing factor receptor type 1 (CRF1), a membrane‐spanning G protein‐coupled receptor, which allowed investigations on receptor–ligand interactions. The CRF1 mimic consists of the receptor N‐terminus and three synthetic extracellular loops (ECL1–3), which constitute the extracellular receptor domains (ECDs) of CRF1, coupled to a linear peptide template. Here, we report the synthesis of a modified CRF1 mimic, which is more similar to the native receptor possessing a cyclic template that displays the ECDs in a more physiological conformation compared with the initial linear design. In order to facilitate detailed biophysical investigations on CRF1 mimics, we have further established a cost‐efficient access to the CRF1 mimic, which is suitable for isotopic labeling for NMR spectroscopy. To this end, the loop‐mimicking cyclic peptide of the ECL2 of CRF1 was produced recombinantly and cyclized by expressed protein ligation. Cyclic ECL2 was obtained in milligram scale, and CRF1 mimics synthesized from this material displayed the same binding properties as synthetic CRF1 constructs. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd. 相似文献
603.
Dennis K. Persson Kenneth A. Halberg Aslak Jørgensen Nadja Møbjerg Reinhardt M. Kristensen 《Journal of morphology》2014,275(2):173-190
Knowledge of tardigrade brain structure is important for resolving the phylogenetic relationships of Tardigrada. Here, we present new insight into the morphology of the brain in a marine arthrotardigrade, Actinarctus doryphorus, based on transmission electron microscopy, supported by scanning electron microscopy, conventional light microscopy as well as confocal laser scanning microscopy. Arthrotardigrades contain a large number of plesiomorphic characters and likely represent ancestral tardigrades. They often have segmented body outlines and each trunk segment, with its paired set of legs, may have up to five sensory appendages. Noticeably, the head carries numerous cephalic appendages that are structurally equivalent to the sensory appendages of the trunk segments. Our data reveal that the brain of A. doryphorus is partitioned into three paired lobes, and that these lobes exhibit a more pronounced separation as compared to that of eutardigrades. The first brain lobe in A. doryphorus is located anteriodorsally, with the second lobe just below it in an anterioventral position. Both of these two paired lobes are located anterior to the buccal tube. The third pair of brain lobes are situated posterioventrally to the first two lobes, and flank the buccal tube. In addition, A. doryphorus possesses a subpharyngeal ganglion, which is connected with the first of the four ventral trunk ganglia. The first and second brain lobes in A. doryphorus innervate the clavae and cirri of the head. The innervations of these structures indicate a homology between, respectively, the clavae and cirri of A. doryphorus and the temporalia and papilla cephalica of eutardigrades. The third brain lobes innervate the buccal lamella and the stylets as described for eutardigrades. Collectively, these findings suggest that the head region of extant tardigrades is the result of cephalization of multiple segments. Our results on the brain anatomy of Actinarctus doryphorus support the monophyly of Panarthropoda. J. Morphol. 275:173–190, 2014. © 2013 Wiley Periodicals, Inc. 相似文献
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Nadja Cachet Loïc Loffredo Oscar Ocaña Vicente Olivier P. Thomas 《Phytochemistry letters》2013,6(2):205-208
The detailed chemical inspection of the Mediterranean coral Astroides calycularis led to the isolation and structure characterization of two families of alkaloids. Derivatives of orthidine were for the first time isolated from this species. The second family of alkaloids includes the aplysinopsins among which a new derivative is described. The structure was identified on the basis of extensive NMR data interpretation. These results are of chemotaxonomic relevance in order to link this species to the Atlantic Tubastrea aurea. 相似文献
606.
Nikolaos Sfakianakis Niklas Kolbe Nadja Hellmann Mária Lukáčová-Medvid’ová 《Bulletin of mathematical biology》2017,79(1):209-235
We propose a multiscale model for the invasion of the extracellular matrix by two types of cancer cells, the differentiated cancer cells and the cancer stem cells. We investigate the epithelial mesenchymal-like transition between them being driven primarily by the epidermal growth factors. We moreover take into account the transdifferentiation program of the cancer stem cells towards the cancer-associated fibroblast cells as well as the fibroblast-driven remodelling of the extracellular matrix. The proposed haptotaxis model combines the macroscopic phenomenon of the invasion of the extracellular matrix by both types of cancer cells with the microscopic dynamics of the epidermal growth factors. We analyse our model in a component-wise manner and compare our findings with the literature. We investigate pathological situations regarding the epidermal growth factors and accordingly propose “mathematical-treatment” scenarios to control the aggressiveness of the tumour. 相似文献
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Anika Nadja Sabine Prange Margrethe Serek Melanie Bartsch Traud Winkelmann 《Plant Cell, Tissue and Organ Culture》2010,101(2):171-182
Embryogenic cultures of Cyclamen coum were established on solid media and in suspension, and their growth characteristics in response to different concentrations
of plant growth regulators (PGRs) were evaluated. Embryogenic cultures exhibited a high regeneration capacity of 876 somatic
embryos per gram fresh mass. Up to 4.24 × 105 protoplasts per gram of fresh mass were isolated from somatic embryos and embryogenic suspension cultures. Protoplasts derived
from both embryos and suspension cultures were successfully cultured in vitro and regenerated into plants via somatic embryogenesis.
Phenotypic analyses and flow cytometric measurements revealed that some regenerated plants were tetraploid. About 20% of the
protoplast-derived calluses used for regeneration were tetraploid, while tetraploidy was found in 0.9% of the plants regenerated
from the embryogenic cultures. 相似文献
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