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991.
Abstract Antifungal activity-guided assay of solvent extracts of Decalepis hamiltonii (Wight & Arn) (Asclepiadaceae) against important phytopathogenic fungi, known to cause diseases in sorghum, maize and paddy proved to be highly significant. Among the five solvent extracts tested, Petroleum ether extract showed highly significant antifungal activity. Phytochemical analysis revealed that the antifungal active principle is a phenolic compound. TLC separation of the phenolic fraction using chloroform as an eluting solvent revealed the presence of seven bands but the antifungal activity was observed only in band five with Rf value 0.77. The antifungal active compound is identified as 2-hydroxy-4-methoxybenzaldehyde based on Nuclear Magnetic Resonance (NMR) and mass spectral analysis. The Minimal inhibitory concentration (MIC) varied between 200 μg ml?1 and 700 μg ml?1 depending on the fungal species. Seed treatment of the active principle significantly increased seed germination and seed vigour with a corresponding decrease in seed mycoflora. The antifungal active compound was effective against all the 24 fungal species tested suggesting broad-spectrum antifungal activity. Comparative evaluation of the active principle with the synthetic fungicides revealed that the antifungal activity of the active principle obtained from the plant is better than that of synthetic fungicide. This plant being an edible one can be exploited in the management of seed-borne pathogenic fungi and the prevention of biodeterioration of grains and mycotoxin elaboration during storage. 相似文献
992.
T Kohl N Gehrke A Schad M Nagel M A W?rns M F Sprinzl T Zimmermann Y-W He P R Galle M Schuchmann J M Schattenberg 《Cell death & disease》2013,4(7):e712
The endemic occurrence of obesity and the associated risk factors that constitute the metabolic syndrome have been predicted to lead to a dramatic increase in chronic liver disease. Non-alcoholic steatohepatitis (NASH) has become the most frequent liver disease in countries with a high prevalence of obesity. In addition, hepatic steatosis and insulin resistance have been implicated in disease progression of other liver diseases, including chronic viral hepatitis and hepatocellular carcinoma. The molecular mechanisms underlying the link between insulin signaling and hepatocellular injury are only partly understood. We have explored the role of the antiapoptotic caspase-8 homolog cellular FLICE-inhibitory protein (cFLIP) on liver cell survival in a diabetic model with hypoinsulinemic diabetes in order to delineate the role of insulin signaling on hepatocellular survival. cFLIP regulates cellular injury from apoptosis signaling pathways, and loss of cFLIP was previously shown to promote injury from activated TNF and CD95/Apo-1 receptors. In mice lacking cFLIP in hepatocytes (flip−/−), loss of insulin following streptozotocin treatment resulted in caspase- and c-Jun N-terminal kinase (JNK)-dependent liver injury after 21 days. Substitution of insulin, inhibition of JNK using the SP600125 compound in vivo or genetic deletion of the mitogen-activated protein kinase (MAPK)9 (JNK2) in all tissues abolished the injurious effect. Strikingly, the difference in injury between wild-type and cFLIP-deficient mice occurred only in vivo and was accompanied by liver-infiltrating inflammatory cells with a trend toward increased amounts of NK1.1-positive cells and secretion of proinflammatory cytokines. Transfer of bone marrow from rag-1-deficient mice that are depleted from B and T lymphocytes prevented liver injury in flip−/− mice. These findings support a direct role of insulin on cellular survival by alternating the activation of injurious MAPK, caspases and the recruitment of inflammatory cells to the liver. Thus, increasing resistance to insulin signaling pathways in hepatocytes appears to be an important factor in the initiation and progression of chronic liver disease. 相似文献
993.
994.
995.
Xiaogang Gu John Glushka Yanbin Yin Ying Xu Timothy Denny James Smith Yingnan Jiang Maor Bar-Peled 《The Journal of biological chemistry》2010,285(12):9030-9040
The UDP-sugar interconverting enzymes involved in UDP-GlcA metabolism are well described in eukaryotes but less is known in prokaryotes. Here we identify and characterize a gene (RsU4kpxs) from Ralstonia solanacearum str. GMI1000, which encodes a dual function enzyme not previously described. One activity is to decarboxylate UDP-glucuronic acid to UDP-β-l-threo-pentopyranosyl-4″-ulose in the presence of NAD+. The second activity converts UDP-β-l-threo-pentopyranosyl-4″-ulose and NADH to UDP-xylose and NAD+, albeit at a lower rate. Our data also suggest that following decarboxylation, there is stereospecific protonation at the C5 pro-R position. The identification of the R. solanacearum enzyme enables us to propose that the ancestral enzyme of UDP-xylose synthase and UDP-apiose/UDP-xylose synthase was diverged to two distinct enzymatic activities in early bacteria. This separation gave rise to the current UDP-xylose synthase in animal, fungus, and plant as well as to the plant Uaxs and bacterial ArnA and U4kpxs homologs. 相似文献
996.
Rupali M. Khadake Prabhakar K. Ranjekar Abhay M. Harsulkar 《Molecular biotechnology》2009,42(2):168-174
The Δ12 desaturase represents a diverse gene family in plants and is responsible for conversion of oleic acid (18:1) to linoleic
acid (18:2). Several members of this family are known from plants like Arabidopsis and Soybean. Using primers from conserved C- and N-terminal regions, we have cloned a novel Δ12 desaturase gene amplified
from flax genomic DNA, denoted as LuFAD2-2. This intron-less gene is 1,149-base pair long encoding 382 amino acids—putative membrane-bound Δ12 desaturase protein. Sequence
comparisons show that the novel sequence has 85% similarity with previously reported flax Δ12 desaturase at amino acid level
and shows typical features of membrane-bound desaturase such as three conserved histidine boxes along with four membrane-spanning
regions that are universally present among plant desaturases. The signature amino acid sequence ‘YNNKL’ was also found to
be present at the N terminus of the protein, which is necessary and sufficient for ER localization of enzyme. Neighbor-Joining
tree generated from the sequence alignment grouped LuFAD2-2 among the other FAD2 sequences from Ricinus, Hevea, Jatropha, and Vernicia. When LuFAD2-2 and LuFAD2 were expressed in Saccharomyces cerevisiae, they could convert the oleic acid to linoleic acid, with an average conversion rate of 5.25 and 8.85%, respectively. However,
exogenously supplied linoleic acid was feebly converted to linolenic acid suggesting that LuFAD2-2 encodes a functional FAD2 enzyme and has substrate specificity similar to LuFAD2. 相似文献
997.
Aftab Ahamed Ajay Singh Owen P. Ward 《World journal of microbiology & biotechnology》2005,21(8-9):1577-1583
Summary While Aspergillus strains are also being considered as potential hosts for production of extracellular heterologous proteins, the proteases
produced by the host are highly problematic in that they typically modify and degrade the recombinant proteins. Culture-based
approaches for minimization of protease activity in culture supernatants of Aspergillus niger NRRL-3 included reduction or elimination of peptide nitrogen in the medium, preferential use of a defined salts medium rather
than a non-peptide nitrogen medium containing yeast-nitrogen base, supplementation of the medium with carboxymethylcellulose
and cultivation at pH 6.5 rather than 7.5. In general, increased proteolytic activity was observed after maximum biomass was
observed and biomass was declining suggesting the majority of protease activity was released by cell lysis. Carboxymethylcellulose
shifted mycelial morphology from pelleted to filamentous. Mycelium lysis in the centre of pellets, with resultant release
of intracellular proteases, would explain why filamentous cultures exhibited much lower proteolytic activity than pelleted
cultures. 相似文献
998.
Nakata H 《Biochemical and biophysical research communications》2007,355(3):842-848
Suramin is a well-known antitrypanosomal drug and a novel experimental agent for the treatment of several cancers. Previous study showed that suramin is an activator of extracellular signal-regulated kinase (ERK1/2) signaling in several cell lines including Chinese hamster ovary cells, although the physiological relevance of this activation remains uncertain. Here, it was shown that suramin enhances neurite outgrowth concomitant with activation of ERK1/2 in Neuro-2a cells, a neuronal cell line. These neurite outgrowth and ERK1/2 activation were significantly inhibited by PD98059, an inhibitor of mitogen-activated protein kinase kinase, as well as by activation of endogenous adenosine A2A receptors. The suramin-induced phosphorylation of ERK1/2 was also inhibited by inhibitors of Src family kinases. This attenuation of ERK1/2 activity was accompanied by a significant decrease in suramin-induced neurite outgrowth. These results suggest that suramin activates the Src/ERK1/2 signaling pathway that induces neurite outgrowth, both of which are negatively regulated by cAMP produced in response to activation of endogenous adenosine A2A receptors. 相似文献
999.
为了解单增李斯特菌株耐药后可能发生的生物学变化,以哈市生肉中分离到的1株对17种抗生素耐受的单增李斯特菌株L.M.B8为研究对象,对其生长及毒力特性进行研究。结果显示,L.M.B8的生长及毒力特性均与标准菌株有明显差异。在NaC l浓度为0.5%~5%、pH值为4.0~10.0及温度为20~45℃范围内,L.M.B8的生长速度均明显高于标准菌株。L.M.B8对高浓度盐的敏感性高于标准菌株,且对温度的适应能力强于标准菌株。从生长曲线看,L.M.B8的对数生长期与稳定期均较标准菌株提前2~3 h,且其稳定期较标准菌株明显缩短。L.M.B8小鼠腹腔注射半数致死量(LD50)较标准菌株明显降低。该研究为进一步探讨单增李斯特菌的耐药性与其他生物学特性的相关性奠定基础。 相似文献
1000.