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101.
Stefan K?rst Riyan Cheng Armin O. Schmitt Hyuna Yang Fernando Pardo Manuel de Villena Abraham A. Palmer Gudrun A. Brockmann 《Mammalian genome》2011,22(9-10):530-543
Intramuscular fat content and water-holding capacity are important traits in livestock as they influence meat quality, nutritive value of the muscle, and animal health. As a model for livestock, two inbred lines of the Berlin Muscle Mouse population, which had been long-term selected for high muscle mass, were used to identify genomic regions affecting intramuscular fat content and water-holding capacity. The intramuscular fat content of the Musculus longissimus was on average 1.4 times higher in BMMI806 than in BMMI816 mice. This was accompanied by a 1.5 times lower water-holding capacity of the Musculus quadriceps in BMMI816 mice. Linkage analyses with 332 G3 animals of reciprocal crosses between these two lines revealed quantitative trait loci for intramuscular fat content on chromosome 7 and for water-holding capacity on chromosome 2. In part, the identified loci coincide with syntenic regions in pigs in which genetic effects for the same traits were found. Therefore, these muscle-weight-selected mouse lines and the produced intercross populations are valuable genetic resources to identify genes that could also contribute to meat quality in other species. 相似文献
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Pop N Igel P Brennauer A Cabrele C Bernhardt GN Seifert R Buschauer A 《Journal of receptor and signal transduction research》2011,31(4):271-285
The four functionally expressed human neuropeptide Y receptor subtypes (hY(1)R, hY(2)R, hY(4)R, hY(5)R) belong to class A of the G-protein-coupled receptors (GPCRs) and interact with pertussis toxin-sensitive G(i/o)-proteins. The number of small molecules described as ligands for hY(1)R and hY(5)R exceeds by far those for hY(2)R. Potent non-peptidergic ligands for the hY(4)R are not available so far. Here, we report on the functional reconstitution of the hY(2)R and the hY(4)R in Sf9 insect cells using the baculovirus system. Sf9 cells were genetically engineered by infection with up to four different baculoviruses, combining the receptors with G-proteins of the G(i/o) family and regulators of G-protein signaling (RGS) proteins to improve signal-to-noise ratio. In steady-state GTPase assays, using pNPY (Y(2)) and hPP (Y(4)), the GPCRs coupled to various G(i)/G(o)-proteins and both, RGS4 and GAIP, enhanced the signals. Co-expression systems hY(2)R + G?(i2) and hY(4)R + G?(i2)/G?(o) + RGS4, combined with G?(1)?(2), yielded best signal-to-noise ratios. hY(2)R function was validated using both agonistic peptides (NPY, PYY, NPY(13?36)) and selective non-peptidergic antagonists (BIIE0246 and derivatives), whereas the hY(4)R model was characterized with peptidergic agonists (PP, NPY, GW1229, and BW1911U90). Tunicamycin inhibited receptor N-glycosylation diminished NPY signals at hY(2)R and abolished hY(4)R function. Investigations with monovalent salts showed sensitivity of hY(4)R toward Na(+), revealing moderate constitutive activity. After validation, an acylguanidine (UR-PI284) was identified as a weak non-peptide Y(4)R antagonist. In summary, the established steady-state GTPase assays provide sensitive test systems for the characterization of Y(2) and Y(4) receptor ligands. 相似文献
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Settles M Etzrodt M Kosanke K Schiemann M Zimmermann A Meier R Braren R Huber A Rummeny EJ Weissleder R Swirski FK Wildgruber M 《PloS one》2011,6(10):e25197
Objective
To explore the capacity of human CD14+CD16++ and CD14++CD16- monocytes to phagocyte iron-oxide nanoparticles in vitro.Methods
Human monocytes were labeled with four different magnetic nanoparticle preparations (Ferumoxides, SHU 555C, CLIO-680, MION-48) exhibiting distinct properties and cellular uptake was quantitatively assessed by flow cytometry, fluorescence microscopy, atomic absorption spectrometry and Magnetic Resonance Imaging (MRI). Additionally we determined whether cellular uptake of the nanoparticles resulted in phenotypic changes of cell surface markers.Results
Cellular uptake differed between the four nanoparticle preparations. However for each nanoparticle tested, CD14++CD16- monocytes displayed a significantly higher uptake compared to CD14+CD16++ monocytes, this resulted in significantly lower T1 and T2 relaxation times of these cells. The uptake of iron-oxide nanoparticles further resulted in a remarkable shift of expression of cell surface proteins indicating that the labeling procedure affects the phenotype of CD14+CD16++ and CD14++CD16- monocytes differently.Conclusion
Human monocyte subsets internalize different magnetic nanoparticle preparations differently, resulting in variable loading capacities, imaging phenotypes and likely biological properties. 相似文献108.
Background
Epithelial folding is a common morphogenetic process during the development of multicellular organisms. In metazoans, the biological and biomechanical processes that underlie such three-dimensional (3D) developmental events are usually complex and difficult to investigate. Spheroidal green algae of the genus Volvox are uniquely suited as model systems for studying the basic principles of epithelial folding. Volvox embryos begin life inside out and then must turn their spherical cell monolayer outside in to achieve their adult configuration; this process is called 'inversion.' There are two fundamentally different sequences of inversion processes in Volvocaceae: type A and type B. Type A inversion is well studied, but not much is known about type B inversion. How does the embryo of a typical type B inverter, V. globator, turn itself inside out?Results
In this study, we investigated the type B inversion of V. globator embryos and focused on the major movement patterns of the cellular monolayer, cell shape changes and changes in the localization of cytoplasmic bridges (CBs) connecting the cells. Isolated intact, sectioned and fragmented embryos were analyzed throughout the inversion process using light microscopy, confocal laser scanning microscopy, scanning electron microscopy and transmission electron microscopy techniques. We generated 3D models of the identified cell shapes, including the localizations of CBs. We show how concerted cell-shape changes and concerted changes in the position of cells relative to the CB system cause cell layer movements and turn the spherical cell monolayer inside out. The type B inversion of V. globator is compared to the type A inversion in V. carteri.Conclusions
Concerted, spatially and temporally coordinated changes in cellular shapes in conjunction with concerted migration of cells relative to the CB system are the causes of type B inversion in V. globator. Despite significant similarities between type A and type B inverters, differences exist in almost all details of the inversion process, suggesting analogous inversion processes that arose through parallel evolution. Based on our results and due to the cellular biomechanical implications of the involved tensile and compressive forces, we developed a global mechanistic scenario that predicts epithelial folding during embryonic inversion in V. globator. 相似文献109.
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