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31.
Christopher J. McNamara Thomas D. Perry IV Ryan Leard Ktisten Bearce James Dante 《Biofouling》2013,29(5-6):257-265
Abstract Microorganisms frequently contaminate jet fuel and cause corrosion of fuel tank metals. In the past, jet fuel contaminants included a diverse group of bacteria and fungi. The most common contaminant was the fungus Hormoconis resinae. However, the jet fuel community has been altered by changes in the composition of the fuel and is now dominated by bacterial contaminants. The purpose of this research was to determine the composition of the microbial community found in fuel tanks containing jet propellant-8 (JP-8) and to determine the potential of this community to cause corrosion of aluminum alloy 2024 (AA2024). Isolates cultured from fuel tanks containing JP-8 were closely related to the genus Bacillus and the fungi Aureobasidium and Penicillium. Biocidal activity of the fuel system icing inhibitor diethylene glycol monomethyl ether is the most likely cause of the prevalence of endospore forming bacteria. Electrochemical impedance spectroscopy and metallographic analysis of AA2024 exposed to the fuel tank environment indicated that the isolates caused corrosion of AA2024. Despite the limited taxonomic diversity of microorganisms recovered from jet fuel, the community has the potential to corrode fuel tanks. 相似文献
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Deigweiher K Drell TL Prutsch A Scheidig AJ Lübben M 《Journal of bioenergetics and biomembranes》2004,36(1):151-159
The P-type CPX-ATPases are responsible for the transport of heavy metal ions in archaea, bacteria, and eukaryotes. We have chosen one of the two CPX-ATPases of the thermophile Sulfolobus solfataricus, CopB (= SSO2896) for the investigation of the molecular mechanism of this integral membrane protein. We recombinately expressed three different soluble domains of this protein (named CopB-A, CopB-B, and CopB-C) in Escherichia coli and purified them to homogeneity. 3D crystals of CopB-B, the 29 kDa catalytic ATP binding/phosphorylation domain were produced, which diffracted to a resolution of 2.2 A. CopB-B has heavy metal stimulated phosphatase activity, which was half maximal in the presence of 80 microM Cu2+. The protein forms a phosphorylated intermediate with the substrate gamma-(32P)-ATP. No specific activation of the polypeptide was observed, when CopB-B phosphatase activity was tested in the presence of the purified CopB-C and CopB-A proteins, which provide the cation binding and the phosphatase domains. We conclude that CopB is a putatively copper translocating ATPase, in which structural elements integrally located in the membrane are required for full, coordinated activation of the catalytic ATP binding domain. 相似文献
35.
Hongqiao Li Oleksandr Gakh Douglas Y. Smith IV Grazia Isaya 《The Journal of biological chemistry》2009,284(33):21971-21980
Mitochondrial biosynthesis of iron-sulfur clusters (ISCs) is a vital process involving the delivery of elemental iron and sulfur to a scaffold protein via molecular interactions that are still poorly defined. Analysis of highly conserved components of the yeast ISC assembly machinery shows that the iron-chaperone, Yfh1, and the sulfur-donor complex, Nfs1-Isd11, directly bind to each other. This interaction is mediated by direct Yfh1-Isd11 contacts. Moreover, both Yfh1 and Nfs1-Isd11 can directly bind to the scaffold, Isu1. Binding of Yfh1 to Nfs1-Isd11 or Isu1 requires oligomerization of Yfh1 and can occur in an iron-independent manner. However, more stable contacts are formed when Yfh1 oligomerization is normally coupled with the binding and oxidation of Fe2+. Our observations challenge the view that iron delivery for ISC synthesis is mediated by Fe2+-loaded monomeric Yfh1. Rather, we find that the iron oxidation-driven oligomerization of Yfh1 promotes the assembly of stable multicomponent complexes in which the iron donor and the sulfur donor simultaneously interact with each other as well as with the scaffold. Moreover, the ability to store ferric iron enables oligomeric Yfh1 to adjust iron release depending on the presence of Isu1 and the availability of elemental sulfur and reducing equivalents. In contrast, the use of anaerobic conditions that prevent Yfh1 oligomerization results in inhibition of ISC assembly on Isu1. These findings suggest that iron-dependent oligomerization is a mechanism by which the iron donor promotes assembly of the core machinery for mitochondrial ISC synthesis.ISC3 biosynthesis is an essential function that eukaryotic cells initiate in mitochondria and probably other cellular compartments using three core components: a sulfur donor, an iron donor, and an ISC assembly scaffold (1, 2). In yeast mitochondria, the cysteine-desulfurase, Nfs1, and the iron-chaperone, Yfh1, are believed to provide sulfur and iron, respectively, for ISC assembly on the Isu1 scaffold (1), whereas the Nfs1-binding protein, Isd11, has been shown to stabilize Nfs1 (3). These components are highly conserved and the human orthologues of Yfh1 (frataxin), Isu1 (ISCU), and Isd11 (ISD11) are implicated in the etiology of severe disorders including Friedreich ataxia and mitochondrial myopathy (4).Previous studies have underscored the complexity of the interactions among eukaryotic ISC assembly components as well as their metal dependence. Supplementation of mitochondrial lysates with Fe2+ under aerobic conditions led to co-isolation of Yfh1 and Isu1 along with Nfs1 and Isd11 by pulldown or immunoprecipitation assays (5–7). Furthermore, aerobic preincubation of histidine-tagged Yfh1 monomer with Fe2+ enabled Isu1 to be pulled down by Yfh1 in the absence of other proteins (5). These studies have led to the current view that iron delivery for yeast ISC synthesis involves direct contacts between iron-loaded monomeric Yfh1 and Isu1 (5–7). Although Yfh1 oligomerization is normally coupled with iron binding, oxidation, and storage (5, 8), the possibility that Isu1 might also interact with oligomeric Yfh1 has remained largely unexplored.Similar to Yfh1, human frataxin was found to interact with multiple ISC assembly components in human cells; however, in this case immunoprecipitation data suggested that frataxin binds to ISCU indirectly, via nickel-dependent contacts with ISD11 (9). Whether direct interactions occur between Yfh1 and Isd11 has not yet been examined.While previous studies focused primarily on Yfh1-Isu1 and frataxin-ISD11 interactions, it is likely that the coordinate delivery of potentially toxic sulfur and iron to Isu1/ISCU involves multiple close interactions whereby the sulfur donor and the iron donor simultaneously interact with each other and with the ISC scaffold, as proposed for prokaryotic ISC assembly (10). However, it is currently unknown whether monomeric Yfh1/frataxin may form direct contacts with more than one partner, and the structure of the eukaryotic ISC assembly machinery is completely undefined. We show that iron oxidation-dependent oligomerization enables Yfh1 to have simultaneous direct interactions with Nfs1-Isd11 and Isu1. Our data provide insights about the sequence of events and the molecular architecture required for the initial step in mitochondrial ISC assembly. 相似文献
36.
Facilitated long chain fatty acid uptake by adipocytes remains upregulated relative to BMI for more than a year after major bariatric surgical weight loss 下载免费PDF全文
Fengxia Ge José L. Walewski Mehyar Hefazi Torghabeh Harrison Lobdell IV Chunguang Hu Shengli Zhou Gregory Dakin Alfons Pomp Marc Bessler Beth Schrope Aku Ude‐Welcome William B. Inabnet Tianshu Feng Elektra Carras‐Terzian Dieunine Anglade Faith E. Ebel Paul D. Berk 《Obesity (Silver Spring, Md.)》2016,24(1):113-122
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38.
Trophoblast Cell Fusion and Differentiation Are Mediated by Both the Protein Kinase C and A Pathways
The syncytiotrophoblast of the human placenta is an epithelial barrier that interacts with maternal blood and is a key for the transfer of nutrients and other solutes to the developing fetus. The syncytiotrophoblast is a true syncytium and fusion of progenitor cytotrophoblasts is the cardinal event leading to the formation of this layer. BeWo cells are often used as a surrogate for cytotrophoblasts, since they can be induced to fuse, and then express certain differentiation markers associated with trophoblast syncytialization. Dysferlin, a syncytiotrophoblast membrane repair protein, is up-regulated in BeWo cells induced to fuse by treatment with forskolin; this fusion is thought to occur through cAMP/protein kinase A-dependent mechanisms. We hypothesized that dysferlin may also be up-regulated in response to fusion through other pathways. Here, we show that BeWo cells can also be induced to fuse by treatment with an activator of protein kinase C, and that this fusion is accompanied by increased expression of dysferlin. Moreover, a dramatic synergistic increase in dysferlin expression is observed when both the protein kinase A and protein kinase C pathways are activated in BeWo cells. This synergy in fusion is also accompanied by dramatic increases in mRNA for the placental fusion proteins syncytin 1, syncytin 2, as well as dysferlin. Dysferlin, however, was shown to be dispensable for stimulus-induced BeWo cell syncytialization, since dysferlin knockdown lines fused to the same extent as control cells. The classical trophoblast differentiation marker human chorionic gonadotropin was also monitored and changes in the expression closely parallel that of dysferlin in all of the experimental conditions employed. Thus different biochemical markers of trophoblast fusion behave in concert supporting the hypothesis that activation of both protein kinase C and A pathways lead to trophoblastic differentiation. 相似文献
39.
Gustavo Ponce García Adriana E. Flores Ildefonso Fernández-Salas Karla Saavedra-Rodríguez Guadalupe Reyes-Solis Saul Lozano-Fuentes J. Guillermo Bond Mauricio Casas-Martínez Janine M. Ramsey Julián García-Rejón Marco Domínguez-Galera Hilary Ranson Janet Hemingway Lars Eisen William C. Black IV 《PLoS neglected tropical diseases》2009,3(10)
Background
Aedes aegypti, the ‘yellow fever mosquito’, is the primary vector to humans of dengue and yellow fever flaviviruses (DENV, YFV), and is a known vector of the chikungunya alphavirus (CV). Because vaccines are not yet available for DENV or CV or are inadequately distributed in developing countries (YFV), management of Ae. aegypti remains the primary option to prevent and control outbreaks of the diseases caused by these arboviruses. Permethrin is one of the most widely used active ingredients in insecticides for suppression of adult Ae. aegypti. In 2007, we documented a replacement mutation in codon 1,016 of the voltage-gated sodium channel gene (para) of Ae. aegypti that encodes an isoleucine rather than a valine and confers resistance to permethrin. Ile1,016 segregates as a recessive allele conferring knockdown resistance to homozygous mosquitoes at 5–10 µg of permethrin in bottle bioassays.Methods and Findings
A total of 81 field collections containing 3,951 Ae. aegypti were made throughout México from 1996 to 2009. These mosquitoes were analyzed for the frequency of the Ile1,016 mutation using a melting-curve PCR assay. Dramatic increases in frequencies of Ile1,016 were recorded from the late 1990''s to 2006–2009 in several states including Nuevo León in the north, Veracruz on the central Atlantic coast, and Yucatán, Quintana Roo and Chiapas in the south. From 1996 to 2000, the overall frequency of Ile1,016 was 0.04% (95% confidence interval (CI95) = 0.12%; n = 1,359 mosquitoes examined). The earliest detection of Ile1,016 was in Nuevo Laredo on the U.S. border in 1997. By 2003–2004 the overall frequency of Ile1,016 had increased ∼100-fold to 2.7% (±0.80% CI95; n = 808). When checked again in 2006, the frequency had increased slightly to 3.9% (±1.15% CI95; n = 473). This was followed in 2007–2009 by a sudden jump in Ile1,016 frequency to 33.2% (±1.99% CI95; n = 1,074 mosquitoes). There was spatial heterogeneity in Ile1,016 frequencies among 2007–2008 collections, which ranged from 45.7% (±2.00% CI95) in the state of Veracruz to 51.2% (±4.36% CI95) in the Yucatán peninsula and 14.5% (±2.23% CI95) in and around Tapachula in the state of Chiapas. Spatial heterogeneity was also evident at smaller geographic scales. For example within the city of Chetumal, Quintana Roo, Ile1,016 frequencies varied from 38.3%–88.3%. A linear regression analysis based on seven collections from 2007 revealed that the frequency of Ile1,016 homozygotes accurately predicted knockdown rate for mosquitoes exposed to permethrin in a bioassay (R2 = 0.98).Conclusions
We have recorded a dramatic increase in the frequency of the Ile1,016 mutation in the voltage-gated sodium channel gene of Ae. aegypti in México from 1996 to 2009. This may be related to heavy use of permethrin-based insecticides in mosquito control programs. Spatial heterogeneity in Ile1,016 frequencies in 2007 and 2008 collections may reflect differences in selection pressure or in the initial frequency of Ile1,016. The rapid recent increase in Ile1,016 is predicted by a simple model of positive directional selection on a recessive allele. Unfortunately this model also predicts rapid fixation of Ile1,016 unless there is negative fitness associated with Ile1,016 in the absence of permethrin. If so, then spatial refugia of susceptible Ae. aegypti or rotational schedules of different classes of adulticides could be established to slow or prevent fixation of Ile1,016. 相似文献40.
Richard W. Joy IV Kamlesh R. Patel Trevor A. Thorpe 《Plant Cell, Tissue and Organ Culture》1988,13(3):219-228
The effect of ascorbic acid on growth and shoot formation in callus cultures of tobacco (Nicotiana tabacum L.) was investigated, using young (4–12 subcultures) and old (more than 30 subcultures) tissue. It was found that ascorbate, at levels of 4–8×10-4M, enhanced shoot formation in both young and old callus. Treatment with ascorbate also speeded up the shoot-forming process. In addition, ascorbate completely reversed the inhibition of shoot formation by gibberellic acid in young callus, but was less effective in old callus. 相似文献