A novel a-L-Arabinofuranosidase of Family 43 Glycoside Hydrolase (Ct43Araf ) from Clostridium thermocellum

Articles in International JournalsThe study describes a comparative analysis of biochemical, structural and functional properties of two recombinant derivatives from Clostridium thermocellum ATCC 27405 belonging to family 43 glycoside hydrolase. The family 43 glycoside hydrolase encoding a-L-arabinofuranosidase (Ct43Araf) displayed an N-terminal catalytic module CtGH43 (903 bp) followed by two carbohydrate binding modules CtCBM6A (405 bp) and CtCBM6B (402 bp) towards the C-terminal. Ct43Araf and its truncated derivative CtGH43 were cloned in pET-vectors, expressed in Escherichia coli and functionally characterized. The recombinant proteins displayed molecular sizes of 63 kDa (Ct43Araf) and 34 kDa (CtGH43) on SDS-PAGE analysis. Ct43Araf and CtGH43 showed optimal enzyme activities at pH 5.7 and 5.4 and the optimal temperature for both was 50uC. Ct43Araf and CtGH43 showed maximum activity with rye arabinoxylan 4.7 Umg21 and 5.0 Umg21, respectively, which increased by more than 2-fold in presence of Ca2+ and Mg2+ salts. This indicated that the presence of CBMs (CtCBM6A and CtCBM6B) did not have any effect on the enzyme activity. The thin layer chromatography and high pressure anion exchange chromatography analysis of Ct43Araf hydrolysed arabinoxylans (rye and wheat) and oat spelt xylan confirmed the release of L-arabinose. This is the first report of a-L-arabinofuranosidase from C. thermocellum having the capacity to degrade both pnitrophenol- a-L-arabinofuranoside and p-nitrophenol-a-L-arabinopyranoside. The protein melting curves of Ct43Araf and CtGH43 demonstrated that CtGH43 and CBMs melt independently. The presence of Ca2+ ions imparted thermal stability to both the enzymes. The circular dichroism analysis of CtGH43 showed 48% b-sheets, 49% random coils but only 3% a-helices

Cindy Sheehan and the peace movement: networks of care and rhetorical exploits.

University of Minnesota Ph.D. dissertation. July 2010. Major: Communication Studies. Advisor: Ronald Walter Greene. 1 computer file (PDF); v, 229 pages.Cindy Sheehan became the "face" of the peace movement during the Iraq War by camping outside of President Bush's Crawford Ranch in August 2005. This project explores the possibilities for resistance in the first US war of the Internet Age, specifically analyzing Sheehan's rhetorical acts (an open letter, camping, and her autobiography). Utilizing Galloway's and Thacker's network theory as social ontology and heuristic, resistance is defined through the concept of exploit, where, like computer viruses, movements use rhetorical forms to exploit norms of dominant systems to gain access, "recode" norms, or disrupt systems. Movements, employing distributed structures, work to "write code" or build new systems through a politics of the act. Sheehan's work is an extension of other women's peace movements that have employed networks and rhetorical acts to exploit otherwise exclusionary publics or build new systems. Tracing historical practices of rhetorical forms for their exploitive possibilities, Sheehan's rhetoric is analyzed against State constituted norms post-9/11, and following Butler and Faludi, I argue dominant discourse constructed norms of heightened patriotism, traditional gender (mother) roles, and fear after 9/11. Although Sheehan's open letter on the internet did not constitute a public tribunal as other women's letters, Sheehan's Camp Casey, initiated by the question of "What noble cause?," spoke through post-9/11 norms while developing a peace movement network constituted through an ethics of care. Camp Casey posed a threat to State order by building a new system operating under care protocols that shifted power away from the State. Resistance and possibility for social change are rooted in changing affective relations, and Sheehan was attacked by Right-wing networks to question her motives and undermine care protocols. Sheehan uses her autobiography to combat the netwar waged by the Right in an attempt to maintain the peace movement. The current peace movement was strongest during Camp Casey where it fully utilized a distributed form, was constituted through an ethics of care, and gained popular support against a sovereign unable to respond or care for the public. Movements should consciously employ network logics, and understand affective dimensions of social change

Paenibacillus curdlanolyticus Strain B-6 Xylanolytic-Cellulolytic Enzyme System That Degrades Insoluble Polysaccharides

A facultatively anaerobic bacterium, Paenibacillus curdlanolyticus B-6, isolated from an anaerobic digester produces an extracellular xylanolytic-cellulolytic enzyme system containing xylanase, β-xylosidase, arabinofuranosidase, acetyl esterase, mannanase, carboxymethyl cellulase (CMCase), avicelase, cellobiohydrolase, β-glucosidase, amylase, and chitinase when grown on xylan under aerobic conditions. During growth on xylan, the bacterial cells were found to adhere to xylan from the early exponential growth phase to the late stationary growth phase. Scanning electron microscopic analysis revealed the adhesion of cells to xylan. The crude enzyme preparation was found to be capable of binding to insoluble xylan and Avicel. The xylanolytic-cellulolytic enzyme system efficiently hydrolyzed insoluble xylan, Avicel, and corn hulls to soluble sugars that were exclusively xylose and glucose. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) of a crude enzyme preparation exhibited at least 17 proteins, and zymograms revealed multiple xylanases and cellulases containing 12 xylanases and 9 CMCases. The cellulose-binding proteins, which are mainly in a multienzyme complex, were isolated from the crude enzyme preparation by affinity purification on cellulose. This showed nine proteins by SDS-PAGE and eight xylanases and six CMCases on zymograms. Sephacryl S-300 gel filtration showed that the cellulose-binding proteins consisted of two multienzyme complexes with molecular masses of 1,450 and 400 kDa. The results indicated that the xylanolytic-cellulolytic enzyme system of this bacterium exists as multienzyme complexes

A novel multienzyme complex from a newly isolated facultative anaerobic bacterium, Paenibacillus sp. TW1

A multienzyme complex from newly isolated Paenibacillus sp. TW1 was purified from pellet-bound enzyme preparations by elution with 0.25% sucrose and 1.0% triethylamine (TEA), ultrafiltration and Sephacryl S-400 gel filtration chromatography. The purified multienzyme complex showed a single protein band on non-denaturing polyacrylamide gel electrophoresis (native-PAGE). The high molecular mass of the purified multienzyme complex was approximately 1,950 kDa. The complex consisted of xylanase and cellulase activities as the major and minor enzyme subunits, respectively. The complex appeared as at least 18 protein bands on sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) and as 15 xylanases and 6 cellulases on zymograms. The purified multienzyme complex contained xylanase, α-L-arabinofuranosidase, carboxymethyl cellulase (CMCase), avicelase and cellobiohydrolase. The complex could effectively hydrolyze corn hulls, corncobs and sugarcane bagasse. These results indicate that the multienzyme complex that is produced by this bacterium is a large, novel xylanolytic-cellulolytic enzyme complex