Cellulolytic activities ofChaetomium globosum on different cellulosic substrates

The effect of cellulosic substrates on the production of extra-cellular cellulases and their cellulolytic activity inChaetomium globosum has been studied in shake flask cultures. Production of endoglucanase, exoglucanase and filter paper cellulase was highest with pure cellulose whereas -glucosidase was maximally induced by wheat straw. A suitable pretreatment for wheat straw was peracetic acid followed by NaOH and that of bagasse with NaOH for saccharification.

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Résumé On a étudié l'effet de substrats cellulosiques sur la production de cellulases extracellulaires et leur activité cellulolytique chezChaetomium globosum en culture en flacons agités. La production d'endoglucanase, d'exoglucanase et de cellulase type papier-filtre est maximum avec la cellulose pure tandis que la -glucosidase est induite de manière maximum par la paille de froment. La paille de froment est traitée de manière adéquate pour la saccharification par l'acide peracétique suivi de NaOH, la bagasse, par NaOH.

     

RecA interacts with Klenow and enhances fidelity of DNA synthesis in vitro

To understand the molecular basis of RecA-mediated DNA-repair, we tested the replicative fidelity of the large fragment of Pol I (Klenow) in RecA-DNA complexes in vitro. Klenow synthesis was error-prone in naked DNA substrates but essentially error-free in RecA coated complexes. Escherichia coli SSB, causes no such improvement in Klenow fidelity. RecA filaments promote better exonucleolytic proofreading by Klenow than on naked DNA substrates at select sites when replication is "stalled" due to a missing dNTP. Addition of RecA to pyrene sulfonylchloride-labeled Klenow resulted in a specific increase in steady-state fluorescence anisotropy and a concomitant decrease in fluorescence lifetime. These observations suggest the possibility of a direct interaction between RecA and Klenow even in the absence of DNA which may mediate the observed improvement in Klenow fidelity.     

A new method for the quantitation of propofol in human plasma: efficient solid-phase extraction and liquid chromatography/APCI-triple quadrupole mass spectrometry detection

Propofol (2,6-diisopropyl phenol) is widely used for the induction and maintenance of anesthesia. Analyses of its pharmacokinetics require simple and sensitive methods for quantitation of propofol in human plasma. Previously reported HPLC and GC methods are limited by cumbersome extraction steps. We describe a novel method that combines sample preparation by solid-phase extraction (SPE) with hydrophilic-lipophilic balance cartridges and analysis with a sensitive LC-APCI-triple quadrupole mass spectrometry (MS/MS) method for better quantitation. The absolute recovery of the analyte was greater than 96%. The limit of quantification for propofol in plasma at a signal-to-noise ratio of 10 was 5 ng/ml. The precision of the assay yielded coefficients of variation ranging from 2.9 to 5.3% and an accuracies of 99-105%. Our method advances the quantitative analysis of propofol in human plasma by combining simple, rapid and efficient SPE with specific and sensitive quantitation by HPLC with APCI-MS/MS detection.     

Cellulose degradation and cellulase activity of five cellulolytic fungi

Biodegradation of pure cellulose powder, bagasse and wheatstraw by five cellulolytic fungi,Aspergillus niger, Chaetomium globosum, Scopulariopsis brevicaulis, Trichoderma koningii andTrichothecium roseum, was studied in solid culture conditions. Minimum degradation was with pure cellulose. Bagasse and wheatstraw were the most suitable for growth and activity of cellulolytic fungi. All fungi contained cellulase activity.

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Résumé On a étudié la biodégradation de la poudre de cellulose pure, de la bagasse et de la paille de froment chez cinq moisissures cellulolytiques,Aspergillus niger, Chaetomium globosum, Scopulariopsis brevicaulis, Trichoderma koningii etTrichothecium roseum, en condition de culture sur milieu solide. La dégradation minimum a lieu avec la cellulose pure. La bagasse et la paille de froment offrent la meilleure croissance et la meilleure activité cellulolytique fungale. Toutes les moisissures exhibent l'activité de la cellulase.