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Variam Ullas Jean kumar Ömer Poyraz Shalini Saxena Robert Schnell Perumal Yogeeswari Gunter Schneider Dharmarajan Sriram 《Bioorganic & medicinal chemistry letters》2013,23(5):1182-1186
Cysteine biosynthesis in Mycobacterium tuberculosis (MTB) is crucial for this pathogen to combat oxidative stress and for long term survival in the host. Hence inhibition of this pathway is attractive for developing novel drugs against tuberculosis. In the present study, the crystal structure of the mycobacterial enzyme O-acetylserine sulfhydrylase CysK1 bound to an oligopeptide inhibitor was used as a framework for virtual screening of the BITS-Pilani in-house database to identify new scaffolds as CysK1 inhibitors. Thirty compounds were synthesized and evaluated in vitro for their ability to inhibit CysK1, activity against M. tuberculosis and cytotoxicity as steps towards the derivation of structure–activity relationships (SAR) and lead optimization. Compound 8-nitro-4-(2-(trifluoromethyl)phenyl)-4,4a-dihydro-2H-pyrimido[5,4-e]thiazolo[3,2-a]pyrimidine-2,5(3H)-dione (4n) emerged as the most promising lead with an IC50 of 17.7 μM for purified CysK1 and MIC of 7.6 μM for M. tuberculosis, with little or no cytotoxicity (>50 μM). 相似文献
23.
Molecular genetic improvements of cyanobacteria to enhance the industrial potential of the microbe: A review
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Tylor J. Johnson Jaimie L. Gibbons Liping Gu Ruanbao Zhou William R. Gibbons 《Biotechnology progress》2016,32(6):1357-1371
The rapid increase in worldwide population coupled with the increasing demand for fossil fuels has led to an increased urgency to develop sustainable sources of energy and chemicals from renewable resources. Using microorganisms to produce high‐value chemicals and next‐generation biofuels is one sustainable option and is the focus of much current research. Cyanobacteria are ideal platform organisms for chemical and biofuel production because they can be genetically engineered to produce a broad range of products directly from CO2, H2O, and sunlight, and require minimal nutrient inputs. The purpose of this review is to provide an overview on advances that have been or could be made to improve strains of cyanobacteria for industrial purposes. First, the benefits of using cyanobacteria as a platform for chemical and biofuel production are discussed. Next, an overview of cyanobacterial strain improvements by genetic engineering is provided. Finally, mutagenesis techniques to improve the industrial potential of cyanobacteria are described. Along with providing an overview on various areas of research that are currently being investigated to improve the industrial potential of cyanobacteria, this review aims to elucidate potential targets for future research involving cyanobacteria as an industrial microorganism. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 32:1357–1371, 2016 相似文献
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Martina H. Stiasny Michael Sswat Felix H. Mittermayer Inger‐Britt Falk‐Petersen Nalani K. Schnell Velmurugu Puvanendran Atle Mortensen Thorsten B. H. Reusch Catriona Clemmesen 《Global Change Biology》2019,25(3):839-849
In order to understand the effect of global change on marine fishes, it is imperative to quantify the effects on fundamental parameters such as survival and growth. Larval survival and recruitment of the Atlantic cod (Gadus morhua) were found to be heavily impaired by end‐of‐century levels of ocean acidification. Here, we analysed larval growth among 35–36 days old surviving larvae, along with organ development and ossification of the skeleton. We combined CO2 treatments (ambient: 503 µatm, elevated: 1,179 µatm) with food availability in order to evaluate the effect of energy limitation in addition to the ocean acidification stressor. As expected, larval size (as a proxy for growth) and skeletogenesis were positively affected by high food availability. We found significant interactions between acidification and food availability. Larvae fed ad libitum showed little difference in growth and skeletogenesis due to the CO2 treatment. Larvae under energy limitation were significantly larger and had further developed skeletal structures in the elevated CO2 treatment compared to the ambient CO2 treatment. However, the elevated CO2 group revealed impairments in critically important organs, such as the liver, and had comparatively smaller functional gills indicating a mismatch between size and function. It is therefore likely that individual larvae that had survived acidification treatments will suffer from impairments later during ontogeny. Our study highlights important allocation trade‐off between growth and organ development, which is critically important to interpret acidification effects on early life stages of fish. 相似文献
26.
1. Ionophore-induced osmotic swelling was used to study Cl- transport in isolated rat liver mitochondria. 2. Energy-dependent, neutral ionophore-induced swelling in Cl- salts at pH 7.2 required K+ and was preceded by a brief lag phase that was absent in chlorotributyltin-induced swelling. 3. Treatments that stimulated or inhibited mitochondrial K+/H+ exchange had qualitatively similar effects on both valinomycin-induced swelling and the associated lag phase. 4. The results suggest that valinomycin-induced Cl- permeability results from an interaction between the K+/H+ antiporter and neutral ionophore K+ complexes. 相似文献
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Ilkovski B Cooper ST Nowak K Ryan MM Yang N Schnell C Durling HJ Roddick LG Wilkinson I Kornberg AJ Collins KJ Wallace G Gunning P Hardeman EC Laing NG North KN 《American journal of human genetics》2001,68(6):1333-1343
Nemaline myopathy (NM) is a clinically and genetically heterogeneous disorder characterized by muscle weakness and the presence of nemaline bodies (rods) in skeletal muscle. Disease-causing mutations have been reported in five genes, each encoding a protein component of the sarcomeric thin filament. Recently, we identified mutations in the muscle alpha-skeletal-actin gene (ACTA1) in a subset of patients with NM. In the present study, we evaluated a new series of 35 patients with NM. We identified five novel missense mutations in ACTA1, which suggested that mutations in muscle alpha-skeletal actin account for the disease in approximately 15% of patients with NM. The mutations appeared de novo and represent new dominant mutations. One proband subsequently had two affected children, a result consistent with autosomal dominant transmission. The seven patients exhibited marked clinical variability, ranging from severe congenital-onset weakness, with death from respiratory failure during the 1st year of life, to a mild childhood-onset myopathy, with survival into adulthood. There was marked variation in both age at onset and clinical severity in the three affected members of one family. Common pathological features included abnormal fiber type differentiation, glycogen accumulation, myofibrillar disruption, and "whorling" of actin thin filaments. The percentage of fibers with rods did not correlate with clinical severity; however, the severe, lethal phenotype was associated with both severe, generalized disorganization of sarcomeric structure and abnormal localization of sarcomeric actin. The marked variability, in clinical phenotype, among patients with different mutations in ACTA1 suggests that both the site of the mutation and the nature of the amino acid change have differential effects on thin-filament formation and protein-protein interactions. The intrafamilial variability suggests that alpha-actin genotype is not the sole determinant of phenotype. 相似文献
28.
Reaction kinetics in intracellular environments with macromolecular crowding: simulations and rate laws 总被引:1,自引:0,他引:1
We review recent evidence illustrating the fundamental difference between cytoplasmic and test tube biochemical kinetics and thermodynamics, and showing the breakdown of the law of mass action and power-law approximation in in vivo conditions. Simulations of biochemical reactions in non-homogeneous media show that as a result of anomalous diffusion and mixing of the biochemical species, reactions follow a fractal-like kinetics. Consequently, the conventional equations for biochemical pathways fail to describe the reactions in in vivo conditions. We present a modification to fractal-like kinetics following the Zipf–Mandelbrot distribution which will enable the modelling and analysis of biochemical reactions occurring in crowded intracellular environments. 相似文献
29.
Molecular cloning of NHE1 from winter flounder RBCs: activation by osmotic shrinkage,cAMP, and calyculin A 总被引:1,自引:0,他引:1
Pedersen SF King SA Rigor RR Zhuang Z Warren JM Cala PM 《American journal of physiology. Cell physiology》2003,284(6):C1561-C1576
In this report, wedescribe the cloning, cellular localization, and functionalcharacteristics of Na+/H+ exchanger 1 (NHE1)from red blood cells of the winter flounder Pseudopleuronectesamericanus (paNHE1). The paNHE1 protein localizes primarily to themarginal band and exhibits a 74% similarity to the trout -NHE, and65% to the human NHE1 (hNHE1). Functionally, paNHE1 sharescharacteristics of both -NHE and hNHE1 in that it is activated bothby manipulations that increase cAMP and by cell shrinkage,respectively. In accordance, the paNHE1 protein exhibits both proteinkinase A consensus sites as in -NHE and a region of high homology tothat required for shrinkage-dependent activation of hNHE1. Aftershrinkage-dependent activation of paNHE1 and resulting activation of aCl/HCO exchanger, their paralleloperation results in net uptake of NaCl and osmotically obliged water.Activation of paNHE1 by cAMP is at least additive to that elicited byosmotic shrinkage, suggesting that these stimuli regulate paNHE1 bydistinct mechanisms. Finally, exposure to the serine/threoninephosphatase inhibitor calyculin A potently activates paNHE1, and thisactivation is also additive to that induced by shrinkage or cAMP. 相似文献
30.
MacNeil C Dick JT Hatcher MJ Terry RS Smith JE Dunn AM 《Proceedings. Biological sciences / The Royal Society》2003,270(1521):1309-1314
Parasites can structure biological communities directly through population regulation and indirectly by processes such as apparent competition. However, the role of parasites in the process of biological invasion is less well understood and mechanisms of parasite mediation of predation among hosts are unclear. Mutual predation between native and invading species is an important factor in determining the outcome of invasions in freshwater amphipod communities. Here, we show that parasites mediate mutual intraguild predation among native and invading species and may thereby facilitate the invasion process. We find that the native amphipod Gammarus duebeni celticus is host to a microsporidian parasite, Pleistophora sp. (new species), with a frequency of infection of 0-90%. However, the parasite does not infect three invading species, G. tigrinus, G. pulex and Crangonyx pseudogracilis. In field and laboratory manipulations, we show that the parasite exhibits cryptic virulence: the parasite does not affect host fitness in single-species populations, but virulence becomes apparent when the native and invading species interact. That is, infection has no direct effect on G. d. celticus survivorship, size or fecundity; however, in mixed-species experiments, parasitized natives show a reduced capacity to prey on the smaller invading species and are more likely to be preyed upon by the largest invading species. Thus, by altering dominance relationships and hierarchies of mutual predation, parasitism strongly influences, and has the potential to change, the outcome of biological invasions. 相似文献