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52.
Nathan D. Tivendale Ricarda Fenske Owen Duncan A. Harvey Millar 《The Plant journal : for cell and molecular biology》2021,107(4):1260-1276
Determining which proteins are actively synthesized at a given point in time and extracting a representative sample for analysis is important to understand plant responses. Here we show that the methionine (Met) analogue homopropargylglycine (HPG) enables Bio-Orthogonal Non-Canonical Amino acid Tagging (BONCAT) of a small sample of the proteins being synthesized in Arabidopsis plants or cell cultures, facilitating their click-chemistry enrichment for analysis. The sites of HPG incorporation could be confirmed by peptide mass spectrometry at Met sites throughout protein amino acid sequences and correlation with independent studies of protein labelling with 15N verified the data. We provide evidence that HPG-based BONCAT tags a better sample of nascent plant proteins than azidohomoalanine (AHA)-based BONCAT in Arabidopsis and show that the AHA induction of Met metabolism and greater inhibition of cell growth rate than HPG probably limits AHA incorporation at Met sites in Arabidopsis. We show HPG-based BONCAT provides a verifiable method for sampling, which plant proteins are being synthesized at a given time point and enriches a small portion of new protein molecules from the bulk protein pool for identification, quantitation and subsequent biochemical analysis. Enriched nascent polypeptides samples were found to contain significantly fewer common post-translationally modified residues than the same proteins from whole plant extracts, providing evidence for age-related accumulation of post-translational modifications in plants. 相似文献
53.
Clones of northern prickly ash (Xanthoxylum americanum) were excavated to expose their horizontal root structure and pattern of vegetative spread; stems and horizontal roots were mapped. Most of the root system was very shallow (< 10 cm deep). Stems and roots were aged from annual rings. The four clones studied ranged in age from 26 to 33 yrs. All root connections between shoots were maintained for the life of the clone. Clones were found to be single individuals in a physical as well as a genetic sense. There was virtually no overlap of adjacent clones; horizontal roots turned away or stopped growing when the border of another clone was encountered. No differences were found between male and female clones in above- or below-ground morphology. There was, however, a great deal of intrasexual variation among clones. 相似文献
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Manually and automatically produced pellet cultures of human primary chondrocytes: A comparative analysis
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Ricarda Lehmann Carolin Gallert Thomas Roddelkopf Steffen Junginger Anika Jonitz‐Heincke Andreas Wree Kerstin Thurow 《Engineering in Life Science》2016,16(3):272-282
Cartilage defects are often associated with restriction of the locomotor system. New methods are required to investigate cartilage tissue and for the repair of cartilage tissue. 3D cultures are promising due to better simulation of in vivo conditions. The aim of this study was to provide a model system for studying cartilage tissue. We solved this problem by automated production of pellet cultures of human primary chondrocytes in media with and without antibiotics using the Biomek® Cell Workstation and consequent automated bioscreening with a high‐throughput screening system, and compared with the regular manual processes. The Biomek® Cell Workstation allows the cultivation of different cell types (suspensions cells and adherent cells) and 3D cell cultures (pellet cultures, alginate beads and spheroid cultures). The proliferation was analyzed by DNA quantification and compared with the EZ4U proliferation assay as a new tool for pellet cultures. The toxicity was evaluated by the detection of ubiquitous adenylate kinases. The proliferation increased from day 14 until day 35 and was associated with a decrease in the cytotoxicity. The comparative analysis showed similar results for manual and automated processes. We concluded that the manual methods can be replaced by automated processes (pellet manufacturing and screening), which would allow large‐scale procedures to support studies on cartilage regeneration. 相似文献
57.
Pincus-Knackstedt MK Joachim RA Blois SM Douglas AJ Orsal AS Klapp BF Wahn U Hamelmann E Arck PC 《Journal of immunology (Baltimore, Md. : 1950)》2006,177(12):8484-8492
Allergic asthma is one of the most prevalent and continuously increasing diseases in developed countries. Its clinical features include airway hyperresponsiveness and inflammation upon allergen contact. Furthermore, an emerging area of research subsumed as fetal programming evaluates the impact of environmental insults in utero on the incidence of diseases in later life. The aim of this study was to identify whether prenatal exposure to stress, which constitutes a severe environmental insult, perpetuates airway inflammation in later life. Our experiments were performed in mice and revealed that prenatally stressed adult offspring indeed show an increased vulnerability toward airway hyperresponsiveness and inflammation. Furthermore, we provide persuasive insights on dysregulated pathways of the cellular and humoral immune response upon Ag challenge in prenatally stressed adult offspring, reflected by a Th2 greater Th1 adaptive immune response and increased CCR3 and IgE levels in vivo. Additionally, APCs derived from prenatally stressed offspring trigger clonal expansion of Th2 cells in vitro. We also deliver experimental evidence for a reduced corticotrophin-releasing hormone expression in the paraventricular nucleus of adult offspring in response to prenatal stress. Furthermore, behavioral analyses indicate an increase in anxiety in these mice. In conclusion, our data will facilitate future research aiming to identify the individual impact, hierarchy, and redundancy of multiple key protagonists in airway inflammation in an interdisciplinary context. This will foster the substantiation of disease-prevention strategies, such as asthma, during the prenatal period. 相似文献
58.
Selvam Arjunan Michael Reinartz Barbara Emde Klaus Zanger Jürgen Schrader 《Cell biochemistry and biophysics》2009,53(3):135-143
The endothelial cell (EC) membrane is an important interface, which plays a crucial role in signal transduction. Our aim was
to selectively purify luminal EC membrane proteins from the coronary vasculature of the isolated perfused mouse heart and
analyze its composition with mass spectrometry (MS). To specifically label coronary ECs in the intact heart, the colloidal
silica method was applied, which is based on the binding of positively charged colloidal silica to the surface of EC membranes.
Transmission electron microscopy revealed the specific labeling of ECs of macro and microvessels. Two different methods of
tissue homogenization (Teflon pestle and ultra blade) together with density centrifugation were used for membrane protein
enrichment. Enrichment and purity was controlled by Western blot analysis using the EC-specific protein caveolin 1 and various
intracellular marker proteins. The ultra blade method resulted in a tenfold enrichment of caveolin 1, while there was negligible
contamination as judged by Western blot. However, protein yield was low and required pooling of ten hearts for MS. When enriched
endothelial membrane proteins were digested with trypsin and analyzed by LC-MS, a total of 56 proteins could be identified,
of which only 12 were membrane proteins. We conclude that coronary endothelial membranes can be conveniently labeled with
colloidal silica. However, due to the ionic nature of interaction of colloidal silica with the EC membrane the shear rate
required for cardiac homogenization resulted in a substantial loss of specificity.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
59.
Richter R Pajak A Dennerlein S Rozanska A Lightowlers RN Chrzanowska-Lightowlers ZM 《Biochemical Society transactions》2010,38(6):1523-1526
Mitochondria are ubiquitous and essential organelles for all nucleated cells of higher eukaryotes. They contain their own genome [mtDNA (mitochondrial DNA)], and this autosomally replicating extranuclear DNA encodes a complement of genes whose products are required to couple oxidative phosphorylation. Sequencing of this human mtDNA more than 20?years ago revealed unusual features that included a modified codon usage. Specific deviations from the standard genetic code include recoding of the conventional UGA stop to tryptophan, and, strikingly, the apparent recoding of two arginine triplets (AGA and AGG) to termination signals. This latter reassignment was made because of the absence of cognate mtDNA-encoded tRNAs, and a lack of tRNAs imported from the cytosol. Each of these codons only occurs once and, in both cases, at the very end of an open reading frame. The presence of both AGA and AGG is rarely found in other mammals, and the molecular mechanism that has driven the change from encoding arginine to dictating a translational stop has posed a challenging conundrum. Mitochondria from the majority of other organisms studied use only UAA and UAG, leaving the intriguing question of why human organelles appear to have added the complication of a further two stop codons, AGA and AGG, or have they? In the present review, we report recent data to show that mammalian mitochondria can utilize a -1 frameshift such that only the standard UAA and UAG stop codons are required to terminate the synthesis of all 13 polypeptides. 相似文献
60.
Andrea Reinartz Josef Ehling Andrea Leue Christian Liedtke Ursula Schneider Jürgen Kopitz Thomas Weiss Claus Hellerbrand Ralf Weiskirchen Ruth Knüchel Nikolaus Gassler 《Biochimica et Biophysica Acta (BBA)/Molecular and Cell Biology of Lipids》2010,1801(9):1025-1035
In the pathogenesis of nonalcoholic fatty liver disease, accumulation of lipids in hepatocytes and hepatocyte apoptosis are strongly implicated in disease progression from the potentially reversible condition of steatosis to severe acute and chronic liver injury. Acyl-CoA synthetase 5, a member of the ACSL gene family that catalyzes the activation of long-chain fatty acids for lipid biosynthesis, is the only ACSL isoform that is both, located on mitochondria and functionally involved in enterocyte apoptosis. In this study, the regulation of human ACSL5 in hepatocellular fatty acid degeneration and its involvement in hepatocyte apoptosis was investigated using models of in vitro and in vivo steatosis as well as plasmid-mediated stable gene transfer and RNAi-mediated gene silencing. ACSL5 mRNA and protein were strongly increased by uptake of dietary derived fatty acids in primary human hepatocytes, HepG2 cells and human steatotic liver. Over-expression of ACSL5 decreased HepG2 cell viability and increased susceptibility to TRAIL- and TNFα-, but not FAS- induced apoptosis, whereas knock down of ACSL5 reduced apoptosis susceptibility. High ACSL5 activity resulted in enhanced caspase-3/7 activity, but was not accompanied by up-regulation of death receptors, DR4, DR5 or TNF-R1. This study gives evidence that hepatocyte steatosis is associated with ACSL5 up-regulation resulting in increased susceptibility to hepatic cell death. We propose that ACSL5 could play a role in promoting fatty acid-induced lipoapoptosis in hepatocytes as important mechanism in fatty liver-related disorders. 相似文献