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排序方式: 共有433条查询结果,搜索用时 15 毫秒
131.
Liu G Liu M Kim EH Maaty WS Bothner B Lei B Rensing C Wang G McDermott TR 《Environmental microbiology》2012,14(7):1624-1634
Arsenic (As) is the most common toxic element in the environment, ranking first on the Superfund List of Hazardous Substances. Microbial redox transformations are the principal drivers of As chemical speciation, which in turn dictates As mobility and toxicity. Consequently, in order to manage or remediate environmental As, land managers need to understand how and why microorganisms react to As. Studies have demonstrated a two-component signal transduction system comprised of AioS (sensor kinase) and AioR (response regulator) is involved in regulating microbial AsIII oxidation, with the AsIII oxidase structural genes aioB and aioA being upregulated by AsIII. However, it is not known whether AsIII is first detected directly by AioS or by an intermediate. Herein we demonstrate the essential role of a periplasmic AsIII-binding protein encoded by aioX, which is upregulated by AsIII. An ΔaioX mutant is defective for upregulation of the aioBA genes and consequently AsIII oxidation. Purified AioX expressed without its TAT-type signal peptide behaves as a monomer (MW 32?kDa), and Western blots show AioX to be exclusively associated with the cytoplasmic membrane. AioX binds AsIII with a K(D) of 2.4?μM AsIII; however, mutating a conserved Cys108 to either alanine or serine resulted in lack of AsIII binding, lack of aioBA induction, and correlated with a negative AsIII oxidation phenotype. The discovery and characterization of AioX illustrates a novel AsIII sensing mechanism that appears to be used in a range of bacteria and also provides one of the first examples of a bacterial signal anchor protein. 相似文献
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DA Parry SJ Brookes CV Logan JA Poulter W El-Sayed S Al-Bahlani S Al Harasi J Sayed el M Raïf RC Shore M Dashash M Barron JE Morgan IM Carr GR Taylor CA Johnson MJ Aldred MJ Dixon JT Wright J Kirkham CF Inglehearn AJ Mighell 《American journal of human genetics》2012,91(3):565-571
Autozygosity mapping and clonal sequencing of an Omani family identified mutations in the uncharacterized gene, C4orf26, as a cause of recessive hypomineralized amelogenesis imperfecta (AI), a disease in which the formation of tooth enamel fails. Screening of a panel of 57 autosomal-recessive AI-affected families identified eight further families with loss-of-function mutations in C4orf26. C4orf26 encodes a putative extracellular matrix acidic phosphoprotein expressed in the enamel organ. A mineral nucleation assay showed that the protein's phosphorylated C terminus has the capacity to promote nucleation of hydroxyapatite, suggesting a possible function in enamel mineralization during amelogenesis. 相似文献
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Low doses of selenium specifically stimulate the repair of oxidative DNA damage in LNCaP prostate cancer cells 总被引:1,自引:0,他引:1
de Rosa V Erkekoğlu P Forestier A Favier A Hincal F Diamond AM Douki T Rachidi W 《Free radical research》2012,46(2):105-116
Epidemiological studies have demonstrated an inverse relationship between selenium (Se) intake and cancer incidence and/or mortality. However, the molecular mechanisms underlying the cancer chemopreventive activity of Se compounds remain largely unknown. The objective of this study was to investigate the effect of low doses of Se on the stimulation of DNA repair systems in response to four different qualities of DNA damage. P53-proficient LNCaP human prostate adenocarcinoma cells were grown either untreated or in the presence of low concentrations of two Se compounds (30° nM sodium selenite, or 10 μM selenomethionine) and exposed to UVA, H2O2, methylmethane sulfonate (MMS) or UVC. Cell viability as well as DNA damage induction and repair were evaluated by the alkaline Comet assay. Overall, Se was shown to be a very potent protector against cell toxicity and genotoxicity induced by oxidative stress (UVA or H2O2) but not from the agents that induce other types of deleterious lesions (MMS or UVC). Furthermore, Se-treated cells exhibited increased oxidative DNA repair activity, indicating a novel mechanism of Se action. Therefore, the benefits of Se could be explained by a combination of antioxidant activity, the reduction in DNA damage and the enhancement of oxidative DNA repair capacity. 相似文献
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Bruzzone F Lectez B Tollemer H Leprince J Dujardin C Rachidi W Chatenet D Baroncini M Beauvillain JC Vallarino M Vaudry H Chartrel N 《Journal of neurochemistry》2006,99(2):616-627
26RFa is a novel RFamide peptide originally isolated in the amphibian brain. The 26RFa precursor has been subsequently characterized in various mammalian species but, until now, the anatomical distribution and the molecular forms of 26RFa produced in the CNS of mammals, in particular in human, are unknown. In the present study, we have investigated the localization and the biochemical characteristics of 26RFa-like immunoreactivity (LI) in two regions of the human CNS--the hypothalamus and the spinal cord. Immunohistochemical labeling using specific antibodies against human 26RFa and in situ hybridization histochemistry revealed that in the human hypothalamus 26RFa-expressing neurons are located in the paraventricular and ventromedial nuclei. In the spinal cord, 26RFa-expressing neurons were observed in the dorsal and lateral horns. Characterization of 26RFa-related peptides showed that two distinct molecular forms of 26RFa are present in the human hypothalamus and spinal cord, i.e. 26RFa and an N-terminally elongated form of 43 amino acids designated 43RFa. These data provide the first evidence that 26RFa and 43RFa are actually produced in the human CNS. The distribution of 26RF-LI suggests that 26RFa and/or 43RFa may modulate feeding, sexual behavior and transmission of nociceptive stimuli. 相似文献
140.
l-Aspartate-α-decarboxylase catalyzes the decarboxylation of l-aspartate to generate β-alanine and carbon dioxide. This is an unusual pyruvoyl-dependent enzyme unique to prokaryotes that
undergoes limited self-processing. The Escherichia coli panD gene encoding l-aspartate-α-decarboxylase was expressed under a constitutive promoter in transgenic tobacco. Transgene expression was verified
by assays based on RNA blots, immunoblots and enzyme activity in vitro. The panD lines had increased levels of leaf β-alanine (1.2- to 4-fold), pantothenate (3.2- to 4.1-fold) and total free amino acids
(up to 3.7-fold) compared to wild-type and vector controls. Growth of homozygous lines expressing E. coli l-aspartate-α-decarboxylase was less affected than that of the control lines when the plants were stressed for 1 week at 35
°C. When transferred from 35 to 30 °C for 3 weeks, the PanD transgenic lines recovered significantly (P ≤ 0.001) better than the controls: PanD lines had on an average 54% and 84% greater fresh and dry weights respectively, compared to the controls. Homozygous lines
expressing E. coli l-aspartate-α-decarboxylase had significantly greater thermotolerance (P ≤ 0.05) during germination. At 42 °C, 95% of two T3 PanD transgenic line seeds germinated after 12 days compared to 73% for the wild-type seeds. Our results indicated that E. colil-aspartate-α-decarboxylase was correctly processed and active in the transgenic eukaryotic host and its expression resulted
in increased thermotolerance in tobacco.
This is Florida Agricultural Experiment Station journal series number R-10355. W.M.F. was supported by the Egypt Development
Training fellowship and by the UF College of Agriculture and Life Sciences assistantship. 相似文献