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Tzu‐Ying Wang Jin‐Bin Wu Tsong‐Long Hwang Yueh‐Hsiung Kuo Jih‐Jung Chen 《化学与生物多样性》2010,7(7):1828-1834
The fruit of Tetradium ruticarpum is widely used in healthcare products for the improvement of blood circulation, headache, abdominal pain, amenorrhea, chill limbs, migraine, and nausea. A new quinolone, 2‐[(6Z,9Z)‐pentadeca‐6,9‐dienyl]quinolin‐4(1H)‐one ( 1 ), has been isolated from the fruits of T. ruticarpum, together with eleven known compounds. The structure of the new compound was determined by NMR and MS analyses. Rutaecarpine ( 4 ), evodiamine ( 5 ), and skimmianine ( 7 ) exhibited inhibition (IC50≤20.9 μM ) of O$\rm{{_{2}^{{^\cdot} -}}}$ generation by human neutrophils in response to N‐formyl‐L ‐methionyl‐L ‐leucyl‐L ‐phenylalanine/cytochalasin B (fMLP/CB). In addition, 1 , evocarpine ( 2 ), 4, 7 , and evodol ( 8 ) inhibited fMLP/CB‐induced elastase release with IC50 values ≤14.4 μM . 相似文献
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Anaeromyxobacter dehalogenans is a microaerophilic member of the delta‐proteobacteria which is able to utilize a wide range of electron acceptors, including halogenated phenols, U(VI), Fe(III), nitrate, nitrite, oxygen and fumarate. To date, the knowledge regarding general metabolic activities of this ecologically relevant bacterium is limited. Here, we present a first systematic 2‐D reference map of the soluble A. dehalogenans proteome in order to provide a sound basis for further proteomic studies as well as to gain first global insights into the metabolic activities of this bacterium. Using a combination of 2‐DE and MALDI‐TOF‐MS, a total of 720 proteins spots were identified, representing 559 unique protein species. Using the proteome data, altogether 50 metabolic pathways were found to be expressed during growth with fumarate as primary electron acceptor. An analysis of the pathways revealed an extensive display of enzymes involved in the catabolism and anabolism of a variety of amino acids, including the unexpected fermentation of lysine to butyrate. Moreover, using the reference gel as basis, a semi‐quantitative analysis of protein expression changes of A. dehalogenans during growth with ferric citrate as electron acceptor was conducted. The adaptation to Fe(III) reducing conditions involved the expression changes of a total of 239 proteins. The results suggest that the adaptation to Fe(III) reductive conditions involves an increase in metabolic flux through the tricarboxylic acid cycle, which is fueled by an increased catabolism of amino acids. 相似文献
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Fu‐Jin Wei Lin‐Yun Kuang Hui‐Min Oung Sin‐Yuan Cheng Hshin‐Ping Wu Lin‐Tzu Huang Yi‐Tzu Tseng Wan‐Yi Chiou Vicki Hsieh‐Feng Cheng‐Han Chung Su‐May Yu Lan‐Ying Lee Stanton B. Gelvin Yue‐Ie C. Hsing 《The Plant journal : for cell and molecular biology》2016,85(5):648-659
Rice (Oryza sativa) is one of the world's most important crops. Rice researchers make extensive use of insertional mutants for the study of gene function. Approximately half a million flanking sequence tags from rice insertional mutant libraries are publicly available. However, the relationship between genotype and phenotype is very weak. Transgenic plant assays have been used frequently for complementation, overexpression or antisense analysis, but sequence changes caused by callus growth, Agrobacterium incubation medium, virulence genes, transformation and selection conditions are unknown. We used high‐throughput sequencing of DNA from rice lines derived from Tainung 67 to analyze non‐transformed and transgenic rice plants for mutations caused by these parameters. For comparison, we also analyzed sequence changes for two additional rice varieties and four T‐DNA tagged transformants from the Taiwan Rice Insertional Mutant resource. We identified single‐nucleotide polymorphisms, small indels, large deletions, chromosome doubling and chromosome translocations in these lines. Using standard rice regeneration/transformation procedures, the mutation rates of regenerants and transformants were relatively low, with no significant differences among eight tested treatments in the Tainung 67 background and in the cultivars Taikeng 9 and IR64. Thus, we could not conclusively detect sequence changes resulting from Agrobacterium‐mediated transformation in addition to those caused by tissue culture‐induced somaclonal variation. However, the mutation frequencies within the two publically available tagged mutant populations, including TRIM transformants or Tos17 lines, were about 10‐fold higher than the frequency of standard transformants, probably because mass production of embryogenic calli and longer callus growth periods were required to generate these large libraries. 相似文献
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Joleen S. Cheah Kyle A. Jacobs Tzu Wei Lai Reca Caballelo Jacqueline L. Yee Shuji Ueda Volkmar Heinrich Soichiro Yamada 《Molecular biology of the cell》2021,32(13):1221
Sensing physical forces is a critical first step in mechano-transduction of cells. Zyxin, a LIM domain-containing protein, is recruited to force-bearing actin filaments and is thought to repair and strengthen them. Yet, the precise force-induced protein interactions surrounding zyxin remain unclear. Using BioID analysis, we identified proximal proteins surrounding zyxin under normal and force-bearing conditions by label-free mass spectrometry analysis. Under force-bearing conditions, increased biotinylation of α-actinin 1, α-actinin 4, and AFAP1 were detected, and these proteins accumulated along force-bearing actin fibers independently from zyxin, albeit at a lower intensity than zyxin. VASP also accumulated along force-bearing actin fibers in a zyxin-dependent manner, but the biotinylation of VASP remained constant regardless of force, supporting the model of a free zyxin–VASP complex in the cytoplasm being corecruited to tensed actin fibers. In addition, ARHGAP42, a RhoA GAP, was also identified as a proximal protein of zyxin and colocalized with zyxin along contractile actin bundles. The overexpression of ARHGAP42 reduced the rate of small wound closure, a zyxin-dependent process. These results demonstrate that the application of proximal biotinylation can resolve the proximity and composition of protein complexes as a function of force, which had not been possible with traditional biochemical analysis. 相似文献
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Cliques in mitotic spindle network bring kinetochore‐associated complexes to form dependence pathway
Tzu‐Chi Chen Sheng‐An Lee Chen‐Hsiung Chan Yue‐Li Juang Yi‐Ren Hong Yei‐Hsuan Huang Jin‐Mei Lai Cheng‐Yan Kao Chi‐Ying F. Huang 《Proteomics》2009,9(16):4048-4062
The mitotic spindle is an essential molecular machine for chromosome segregation during mitosis. Achieving a better understanding of its organization at the topological level remains a daunting task. To determine the functional connections among 137 mitotic spindle proteins, a protein–protein interaction network among queries was constructed. Many hub proteins, which connect more than one query and serve as highly plausible candidates for expanding the mitotic spindle proteome, are ranked by conventional degree centrality and a new subnetwork specificity score. Evaluation of the ranking results by literature reviews and empirical verification of SEPT6, a novel top‐ranked hub, suggests that the subnetwork specificity score could enrich for putative spindle‐related proteins. Topological analysis of this expanded network shows the presence of 30 3‐cliques and six 4‐cliques (fully connected subgraphs) that, respectively, reside in eight kinetochore‐associated complexes, of which seven are evolution conserved. Notably, these complexes strikingly form dependence pathways for the assembly of the kinetochore complex. These analyses indicate the feasibility of using network topology, i.e. cliques, to uncover novel pathways to accelerate our understanding of potential biological processes. 相似文献
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Mohammed O. Altonsy Sarah K. Sasse Tzu L. Phang Anthony N. Gerber 《The Journal of biological chemistry》2014,289(12):8231-8239