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991.
Mueller AH Dockter C Gough SP Lundqvist U von Wettstein D Hansson M 《Plant & cell physiology》2012,53(7):1232-1246
992.
Fournier B Murray B Gutzwiller S Marcaletti S Marcellin D Bergling S Brachat S Persohn E Pierrel E Bombard F Hatakeyama S Trendelenburg AU Morvan F Richardson B Glass DJ Lach-Trifilieff E Feige JN 《Molecular and cellular biology》2012,32(14):2871-2879
Brown adipose tissue (BAT) is a key tissue for energy expenditure via fat and glucose oxidation for thermogenesis. In this study, we demonstrate that the myostatin/activin receptor IIB (ActRIIB) pathway, which serves as an important negative regulator of muscle growth, is also a negative regulator of brown adipocyte differentiation. In parallel to the anticipated hypertrophy of skeletal muscle, the pharmacological inhibition of ActRIIB in mice, using a neutralizing antibody, increases the amount of BAT without directly affecting white adipose tissue. Mechanistically, inhibition of ActRIIB inhibits Smad3 signaling and activates the expression of myoglobin and PGC-1 coregulators in brown adipocytes. Consequently, ActRIIB blockade in brown adipose tissue enhances mitochondrial function and uncoupled respiration, translating into beneficial functional consequences, including enhanced cold tolerance and increased energy expenditure. Importantly, ActRIIB inhibition enhanced energy expenditure only at ambient temperature or in the cold and not at thermoneutrality, where nonshivering thermogenesis is minimal, strongly suggesting that brown fat activation plays a prominent role in the metabolic actions of ActRIIB inhibition. 相似文献
993.
Although it has been previously demonstrated that an electrical current can be used to control biofilm growth on metal surfaces, the literature results are conflicting and there is no accepted mechanism of action. One of the suggested mechanisms is the production of hydrogen peroxide (H(2)O(2)) on metal surfaces. However, there are literature studies in which H(2)O(2) could not be detected in the bulk solution. This is most likely because H(2)O(2) was produced at a low concentration near the surface and could not be detected in the bulk solution. The goals of this research were (1) to develop a well-controlled system to explain the mechanism of action of the bioelectrochemical effect on 316L stainless steel (SS) surfaces and (2) to test whether the produced H(2)O(2) can reduce cell growth on metal surfaces. It was found that H(2)O(2) was produced near 316L SS surfaces when a negative potential was applied. The H(2)O(2) concentration increased towards the surface, while the dissolved oxygen decreased when the SS surface was polarized to?-600 mV(Ag/AgCl). When polarized and non-polarized surfaces with identical Pseudomonas aeruginosa PAO1 biofilms were continuously fed with air-saturated growth medium, the polarized surfaces showed minimal biofilm growth while there was significant biofilm growth on the non-polarized surfaces. Although there was no detectable H(2)O(2) in the bulk solution, it was found that the surface concentration of H(2)O(2) was able to prevent biofilm growth. 相似文献
994.
Brothers MC Nesbitt AE Hallock MJ Rupasinghe SG Tang M Harris J Baudry J Schuler MA Rienstra CM 《Journal of biomolecular NMR》2012,52(1):41-56
Homology modeling is a powerful tool for predicting protein structures, whose success depends on obtaining a reasonable alignment
between a given structural template and the protein sequence being analyzed. In order to leverage greater predictive power
for proteins with few structural templates, we have developed a method to rank homology models based upon their compliance
to secondary structure derived from experimental solid-state NMR (SSNMR) data. Such data is obtainable in a rapid manner by
simple SSNMR experiments (e.g., 13C–13C 2D correlation spectra). To test our homology model scoring procedure for various amino acid labeling schemes, we generated
a library of 7,474 homology models for 22 protein targets culled from the TALOS+/SPARTA+ training set of protein structures.
Using subsets of amino acids that are plausibly assigned by SSNMR, we discovered that pairs of the residues Val, Ile, Thr,
Ala and Leu (VITAL) emulate an ideal dataset where all residues are site specifically assigned. Scoring the models with a
predicted VITAL site-specific dataset and calculating secondary structure with the Chemical Shift Index resulted in a Pearson
correlation coefficient (−0.75) commensurate to the control (−0.77), where secondary structure was scored site specifically
for all amino acids (ALL 20) using STRIDE. This method promises to accelerate structure procurement by SSNMR for proteins
with unknown folds through guiding the selection of remotely homologous protein templates and assessing model quality. 相似文献
995.
Anders Mosbech Kasper L. Johansen Nikolaj I. Bech Peter Lyngs Ann M. A. Harding Carsten Egevang Richard A. Phillips Jerome Fort 《Polar Biology》2012,35(2):305-311
Seabirds are important components in marine ecosystems. However, knowledge of their ecology and spatial distribution during
the non-breeding season is poor. More investigations during this critical period are required urgently, as marine environments
are expected to be profoundly affected by climate change and human activities, with both direct and indirect consequences
for marine top predators. Here, we studied the distribution of little auks (Alle alle), one of the most abundant seabird species worldwide. We found that after the breeding season, birds from East Greenland
quickly travelled north-east to stay for several weeks within a restricted area in the Greenland Sea. Activity patterns indicated
that flying behaviour was much reduced during this period, suggesting that this is the primary moulting region for little
auks. Birds then performed a southerly migration to overwinter off Newfoundland. These preliminary results provide important
information for the conservation of this species and emphasise the need for further studies at a larger spatial scale. 相似文献
996.
Li X Ellman MB Kroin JS Chen D Yan D Mikecz K Ranjan K C Xiao G Stein GS Kim SG Cole B van Wijnen AJ Im HJ 《Journal of cellular biochemistry》2012,113(7):2532-2542
Existing literature demonstrates that fibroblast growth factor-2 (FGF-2) exerts opposing, contradictory biological effects on cartilage homeostasis in different species. In human articular cartilage, FGF-2 plays a catabolic and anti-anabolic role in cartilage homeostasis, driving homeostasis toward degeneration and osteoarthritis (OA). In murine joints, however, FGF-2 has been identified as an anabolic mediator as ablation of the FGF-2 gene demonstrated increased susceptibility to OA. There have been no previous studies specifically addressing species-specific differences in FGF-2-mediated biological effects. In this study, we provide a mechanistic understanding by which FGF-2 exerts contradictory biological effects in human versus murine tissues. Using human articular cartilage (ex vivo) and a medial meniscal destabilization (DMM) animal model (in vivo), species-specific expression patterns of FGFR receptors (FGFRs) are elucidated between human and murine articular cartilage. In the murine OA model followed by intra-articular injection of FGF-2, we further correlate FGFR profiles to changes in behavioral pain perception, proteoglycan content in articular cartilage, and production of inflammatory (CD11b) and angiogenic (VEGF) mediators in synovium lining cells. Our results suggest that the fundamental differences in cellular responses between human and murine tissues may be secondary to distinctive expression patterns of FGFRs that eventually determine biological outcomes in the presence of FGF-2. The complex interplay of FGFRs and the downstream signaling cascades induced by FGF-2 in human cartilage should add caution to the use of this particular growth factor for biological therapy in the future. 相似文献
997.
998.
Villagra A Cruzat F Carvallo L Paredes R Olate J van Wijnen AJ Stein GS Lian JB Stein JL Imbalzano AN Montecino M 《The Journal of biological chemistry》2006,281(32):22695-22706
999.
1000.
Gilleron J Nebout M Scarabelli L Senegas-Balas F Palmero S Segretain D Pointis G 《Journal of cellular physiology》2006,209(1):153-161
There is strong evidence that thyroid hormones through triiodothyronine (T3) regulate Sertoli cell proliferation and differentiation in the neonatal testis. However, the mechanism(s) by which they are able to control Sertoli cell proliferation is unclear. In the present study in vivo approaches (PTU-induced neonatal hypothyroidism known to affect Sertoli cell proliferation) associated with in vitro experiments on a Sertoli cell line were developed to investigate this question. We demonstrated that the inhibitory effect of T3 on Sertoli cell growth, analyzed by evaluating DNA-incorporated [3H] thymidine, was associated with a time and dose-dependent increase in the levels of Cx43, a constitutive protein of gap junctions, known to participate in the control of cell proliferation and the most predominant Cx in the testis. These Cx43 changes were associated with increased gap junction communication measured by gap FRAP. Consistent with these results two specific inhibitors of gap junction coupling, AGA and oleamide, were able to significantly reverse the T3 inhibitory effect on Sertoli cell proliferation. The present data also revealed a nongenomic effect of T3 on Cx43 Sertoli cells that was evidenced by a rapid up-regulation of gap junction plaque number as identified in Cx43-GFP transfected cells exposed to the hormone. This process appears mediated through actin cytoskeleton since incubation of the cells with cytochalasin D totally reversed the T3 stimulatory effect on Cx43-GFP gap junction plaques. Based on these data, we propose a working hypothesis in which Cx43 could be an intermediate target for T3 inhibition of neonatal Sertoli cell proliferation. 相似文献