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排序方式: 共有3671条查询结果,搜索用时 802 毫秒
111.
Antonia Piazzesi Yiru Wang Joshua Jackson Lena Wischhof Viktoria ZeislerDiehl Enzo Scifo Ina Oganezova Thorben Hoffmann Pablo Gmez Martín Fabio Bertan Chester J J Wrobel Frank C Schroeder Dan Ehninger Kristian Hndler Joachim L Schultze Lukas Schreiber Gerhild van EchtenDeckert Pierluigi Nicotera Daniele Bano 《EMBO reports》2022,23(5)
112.
Ammar Jabali Anne Hoffrichter Ana Uzquiano Fabio Marsoner Ruven Wilkens Marco Siekmann Bettina Bohl Andrea C Rossetti Sandra Horschitz Philipp Koch Fiona Francis Julia Ladewig 《EMBO reports》2022,23(5)
Malformations of human cortical development (MCD) can cause severe disabilities. The lack of human‐specific models hampers our understanding of the molecular underpinnings of the intricate processes leading to MCD. Here, we use cerebral organoids derived from patients and genome edited‐induced pluripotent stem cells to address pathophysiological changes associated with a complex MCD caused by mutations in the echinoderm microtubule‐associated protein‐like 1 (EML1) gene. EML1‐deficient organoids display ectopic neural rosettes at the basal side of the ventricular zone areas and clusters of heterotopic neurons. Single‐cell RNA sequencing shows an upregulation of basal radial glial (RG) markers and human‐specific extracellular matrix components in the ectopic cell population. Gene ontology and molecular analyses suggest that ectopic progenitor cells originate from perturbed apical RG cell behavior and yes‐associated protein 1 (YAP1)‐triggered expansion. Our data highlight a progenitor origin of EML1 mutation‐induced MCD and provide new mechanistic insight into the human disease pathology. 相似文献
113.
Ian P. Holmes Richard J. Blunt Olivier E. Lorthioir Stephen M. Blowers Andy Gribble Andrew H. Payne Ian G. Stansfield Martyn Wood Patrick M. Woollard Charlie Reavill Claire M. Howes Fabrizio Micheli Romano Di Fabio Daniele Donati Silvia Terreni Dieter Hamprecht Luca Arista Angela Worby Steve P. Watson 《Bioorganic & medicinal chemistry letters》2010,20(6):2013-2016
The identification of a highly selective D2 partial agonist, D3 antagonist tool molecule which demonstrates high levels of brain exposure and selectivity against an extensive range of dopamine, serotonin, adrenergic, histamine, and muscarinic receptors is described. 相似文献
114.
Nelo Eidy Zanchi Fabio Santos Lira Marilia Seelaender Antonio Herbert Lancha‐Jr 《Cell biochemistry and function》2010,28(3):232-238
Volitional animal resistance training constitutes an important approach to modeling human resistance training. However, the lack of standardization protocol poses a frequent impediment to the production of skeletal muscle hypertrophy and the study of related physiological variables (i.e., cellular damage/inflammation or metabolic stress). Therefore, the purposes of the present study were: (1) to test whether a long‐term and low frequency experimental resistance training program is capable of producing absolute increases in muscle mass; (2) to examine whether cellular damage/inflammation or metabolic stress is involved in the process of hypertrophy. In order to test this hypothesis, animals were assigned to a sedentary control (C, n = 8) or a resistance trained group (RT, n = 7). Trained rats performed 2 exercise sessions per week (16 repetitions per day) during 12 weeks. Our results demonstrated that the resistance training strategy employed was capable of producing absolute mass gain in both soleus and plantaris muscles (12%, p < 0.05). Furthermore, muscle tumor necrosis factor (TNF‐α) protein expression (soleus muscle) was reduced by 24% (p < 0.01) in trained group when compared to sedentary one. Finally, serum creatine kinase (CK) activity and serum lactate concentrations were not affected in either group. Such information may have practical applications if reproduced in situations where skeletal muscle hypertrophy is desired but high mechanical stimuli of skeletal muscle and inflammation are not. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
115.
Knittel T Kobold D Piscaglia F Saile B Neubauer K Mehde M Timpl R Ramadori G 《Histochemistry and cell biology》1999,112(5):387-401
Previous in vitro studies indicated that hepatic stellate cells (HSC) and rat liver myofibroblasts (rMF) have to be regarded
as different cell populations of the myofibroblastic lineage with fibrogenic potential. Employing the discrimination features
defined by these studies the localization of HSC and rMF was analyzed in diseased livers. Normal and acutely as well as chronically
carbon tetrachloride-injured livers were analyzed by immunohistochemistry and by in situ hybridization. In normal livers HSC
[desmin/glial fibrillary acid protein (GFAP)-positive cells] were distributed in the hepatic parenchyma, while rMF (desmin/smooth
muscle alpha actin-positive, GFAP-negative cells colocalized with fibulin-2) were located in the portal field, the walls of
central veins, and only occasionally in the parenchyma. Acute liver injury was characterized almost exclusively by an increase
in the number of HSC, while the amount of rMF was nearly unchanged. In early stages of fibrosis, HSC and rMF were detected
within the developing scars. In advanced stages of fibrosis, HSC were mainly present at the scar–parenchymal interface, while
rMF accounted for the majority of the cells located within the scar. At every stage of fibrogenesis, rMF, in contrast to HSC,
were only occasionally detected in the hepatic parenchyma. HSC and rMF are present in normal and diseased livers in distinct
compartments and respond differentially to tissue injury. Acute liver injury is followed by an almost exclusive increase in
the number of HSC, while in chronically injured livers not only HSC but also rMF are involved in scar formation.
Accepted: 16 September 1999 相似文献
116.
Within a linear field approach, an architectural model for simple cell direction selectivity in the visual cortex is proposed.
The origin of direction selectivity is related to recurrent intracortical interactions with a spatially asymmetric character
along the axis of stimulus motion. No explicit asymmetric temporal mechanisms are introduced or adopted. The analytical investigation
of network behavior, carried out under the assumption of a linear superposition of geniculate and intracortical contributions,
shows that motion sensitivity of the resulting receptive fields emerges as a dynamic property of the cortical network without
any feed-forward direction selectivity bias. A detailed analysis of the effects of the architectural characteristics of the
cortical network on directionality and velocity-response curves was conducted by systematically varying the model's parameters.
Received: 8 May 1998 / Accepted in revised form: 10 November 1998 相似文献
117.
Dellias JM Onofre GR Werneck CC Landeira-Fernandez AM Melo FR Farias WR Silva LC 《Biochimie》2004,86(9-10):677-683
We compared the disaccharide composition of dermatan sulfate (DS) purified from the ventral skin of three species of rays from the Brazilian seacoast, Dasyatis americana, Dasyatis gutatta, Aetobatus narinari and of Potamotrygon motoro, a fresh water species that habits the Amazon River. DS obtained from the four species were composed of non-sulfated, mono-sulfated disaccharides bearing esterified sulfate groups at positions C-4 or C-6 of N-acetyl galactosamine (GalNAc), and disulfated disaccharides bearing esterified sulfate groups at positions C-2 of the uronic acid and at position C-4 or C-6 of GalNAc. However, DS from the skin of P. motoro presented a very low content of the disulfated disaccharides. The anticoagulant actions of ray skin DS, measured by both APTT clotting and HCII-mediated inhibition of thrombin assays, were compared to that of mammalian DS. DS from D. americana had both high APTT and HCII activities, whereas DS from D. gutatta showed activity profiles similar to those of mammalian DS. In contrast, DS from both A. narinari and P. motoro had no measurable activity in the APTT assay. Thus, the anticoagulant activity of ray skin DS is not merely a consequence of their charge density. We speculate that the differences among the anticoagulant activities of these three DS may be related to both different composition and arrangements of the disulfated disaccharide units within their polysaccharide chains. 相似文献
118.
119.
Sargisova Y Pierfederici FM Scirè A Bertoli E Tanfani F Febbraio F Briante R Karapetyan Y Mardanyan S 《Proteins》2004,57(2):302-310
In steroid hydroxylation system in adrenal cortex mitochondria, NADPH-adrenodoxin reductase (AR) and adrenodoxin (Adx) form a short electron-transport chain that transfers electrons from NADPH to cytochromes P-450 through FAD in AR and [2Fe-2S] cluster in Adx. The formation of [AR/Adx] complex is essential for the electron transfer mechanism in which previous studies suggested that AR tryptophan (Trp) residue(s) might be implicated. In this study, we modified AR Trps by N-bromosuccinimide (NBS) and studied AR binding to Adx by a resonant mirror biosensor. Chemical modification of tryptophans caused inhibition of electron transport. The modified protein (AR*) retained the native secondary structure but showed a lower affinity towards Adx with respect to AR. Activity measurements and fluorescence data indicated that one Trp residue of AR may be involved in the electron transferring activity of the protein. Computational analysis of AR and [AR/Adx] complex structures suggested that Trp193 and Trp420 are the residues with the highest probability to undergo NBS-modification. In particular, the modification of Trp420 hampers the correct reorientation of AR* molecule necessary to form the native [AR/Adx] complex that is catalytically essential for electron transfer from FAD in AR to [2Fe-2S] cluster in Adx. The data support an incorrect assembly of [AR*/Adx] complex as the cause of electron transport inhibition. 相似文献
120.