Icreased drug permeability in Chinese hamster ovary cells in the presence of cyanide

In this report we investigated whether the modulation of drug permeability in Chinese hamster ovary (CHO) cells was an energy-dependent process. We observed that (1) in the absence of glucose, metabolic inhibitors such as cyanide, azide, and dinitrophenol stimulated the uptake of [³H]colchicine and other drug; (2) cyanide-induced stimulation of drug uptake could be prevented by the presence of metabolizable sugars such as glucose and ribose; (3) cyanide-treated cells were fully viable; (4) on the addition of cyanide and glucose the kinetics of drug permeability changes were very rapid. These data are consistent with the hypothesis that an energy-dependent membrane barrier against the uptake of a variety of drugs was operative in CHO cells.The nature of this energy-dependent membrane barrier was examined in colchicine-resistant mutants (CH^RC4 and CH^RC5 cells) previously characterized as membrane mutants with greatly reduced drug permeability (Ling and Thompson, (1974) J. Cell Physiol. 83, 103–116). The mutants were more refractile to the cyanide-induced stimulation of drug permeability but more sensitive to the glucose prevention cyanide-induction. In the presence of cyadine, the uptake rate of [³H] colchicine by CH^RC4 cells increased by about 100-fold and approached a rate similar to that of wild-type cells. These results suggest that the colchicine-resistant mutants may be altered in their energy-dependent modulation of drug permeability.     

Investigations on the glucocorticoid-binding protein from rat thymocytes: II. Stability,kinetics and specificity of binding of steroids

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1. The glucocorticoid-binding protein from rat thymocytes was shown to be stabilized by 40% (v/v) glycerol at −5°.     

Identification by gas chromatography-mass spectrometry of intermediates in the aromatization of modified C19 steroids by human placental microsomes

Analogs of 4-androstene-3,17-dione and testosterone were tested as substrates for the aromatizing enzyme complex of human placenta. Compounds modified in rings B, C and D were found to be aromatized via a pathway similar to that postulated for 4-androstene-3,17-dione and testosterone, in which oxidation to the 19-hydroxy and 19-oxo (or corresponding gem-diol) intermediates occurs. No evidence of additional intermediates was obtained.     

基于CRISPR/Cas9技术的高通量筛选平台:发掘病毒复制相关宿主分子的新途径

病毒作为严格的细胞内寄生生物,需要多种宿主蛋白辅助其完成生命周期。寻找与病毒复制相关的宿主因子并揭示其作用机制,将有助于阐明病毒的感染机制,为疫病的防治提供新靶标。与RNA干扰技术相比,近年来兴起的CRISPR/Cas9技术能更特异、高效、准确地实现基因组编辑,因而在功能基因研究中得到更广泛应用。而基于CRISPR/Cas9系统的宿主全基因组sgRNA文库高通量筛选技术平台,可快速发现参与病毒侵入、复制等生物学过程的关键宿主因子,通过明确病毒-宿主分子相互作用进而揭示病毒的生命周期,为分子病毒学和免疫学提供了强大的研究工具。本文主要总结了基于CRISPR/Cas9技术的高通量筛选平台的具体筛选流程,归纳和讨论了该平台在筛选调控病毒复制相关宿主因子中的应用现状和发展前景。     

The causes of altered chlorophyll fluorescence quenching induction in the Arabidopsis mutant lacking all minor antenna complexes

Non-photochemical quenching (NPQ) of chlorophyll fluorescence is the process by which excess light energy is harmlessly dissipated within the photosynthetic membrane. The fastest component of NPQ, known as energy-dependent quenching (qE), occurs within minutes, but the site and mechanism of qE remain of great debate. Here, the chlorophyll fluorescence of Arabidopsis thaliana wild type (WT) plants was compared to mutants lacking all minor antenna complexes (NoM). Upon illumination, NoM exhibits altered chlorophyll fluorescence quenching induction (i.e. from the dark-adapted state) characterised by three different stages: (i) a fast quenching component, (ii) transient fluorescence recovery and (iii) a second quenching component. The initial fast quenching component originates in light harvesting complex II (LHCII) trimers and is dependent upon PsbS and the formation of a proton gradient across the thylakoid membrane (ΔpH). Transient fluorescence recovery is likely to occur in both WT and NoM plants, but it cannot be overcome in NoM due to impaired ΔpH formation and a reduced zeaxanthin synthesis rate. Moreover, an enhanced fluorescence emission peak at ~679?nm in NoM plants indicates detachment of LHCII trimers from the bulk antenna system, which could also contribute to the transient fluorescence recovery. Finally, the second quenching component is triggered by both ΔpH and PsbS and enhanced by zeaxanthin synthesis. This study indicates that minor antenna complexes are not essential for qE, but reveals their importance in electron stransport, ΔpH formation and zeaxanthin synthesis.     

Do flood pulses structure amphibian communities in floodplain environments?

Beta diversity can provide insights into the processes that regulate communities subjected to frequent disturbances, such as flood pulses, which control biodiversity in floodplains. However, little is known about which processes structure beta diversity of amphibians in floodplains. Here, we tested the influence of flood pulses on the richness, composition, and beta diversity of amphibians in Amazonian floodplain environments. We also evaluated indicator species for each environment. We established linear transects in three environments: low várzea, high várzea, and macrophyte rafts. Species richness decreased and beta diversity increased according to the susceptibility of habitats to flood pulses. Indicator species differed among environments according to forest succession promoted by the flood pulse. The decrease in species richness between high and low várzea is due to non‐random extinctions. The higher rates of species turnover between várzeas and macrophyte rafts are driven by the colonization of species adapted to open areas. Our results highlight that the maintenance of complex environments is needed to protect biodiversity in floodplains.