Campylobacter jejuni and Campylobacter coli are zoonotic pathogens once considered asaccharolytic, but are now known to encode pathways for glucose and fucose uptake/metabolism. For C. jejuni, strains with the fuc locus possess a competitive advantage in animal colonization models. We demonstrate that this locus is present in > 50% of genome-sequenced strains and is prevalent in livestock-associated isolates of both species. To better understand how these campylobacters sense nutrient availability, we examined biofilm formation and chemotaxis to fucose. C. jejuni NCTC11168 forms less biofilms in the presence of fucose, although its fucose permease mutant (fucP) shows no change. In a newly developed chemotaxis assay, both wild-type and the fucP mutant are chemotactic towards fucose. C. jejuni 81-176 naturally lacks the fuc locus and is unable to swim towards fucose. Transfer of the NCTC11168 locus into 81-176 activated fucose uptake and chemotaxis. Fucose chemotaxis also correlated with possession of the pathway for C. jejuni RM1221 (fuc+) and 81116 (fuc-). Systematic mutation of the NCTC11168 locus revealed that Cj0485 is necessary for fucose metabolism and chemotaxis. This study suggests that components for fucose chemotaxis are encoded within the fuc locus, but downstream signals only in fuc + strains, are involved in coordinating fucose availability with biofilm development.
All Campylobacter species are capable of N-glycosylating their proteins and releasing the same oligosaccharides into the periplasm as free oligosaccharides (fOS). Previously, analysis of fOS production in Campylobacter required fOS derivatization or large culture volumes and several chromatography steps prior to fOS analysis. In this study, label-free fOS extraction and purification methods were developed and coupled with quantitative analysis techniques. Our method follows three simple steps: (1) fOS extraction from the periplasmic space, (2) fOS purification using silica gel chromatography followed by porous graphitized carbon purification and (3) fOS analysis and accurate quantitation using a combination of thin-layer chromatography, mass spectrometry, NMR, and high performance anion exchange chromatography with pulsed amperometric detection. We applied our techniques to analyze fOS from C. jejuni, C. lari, C. rectus, and C. fetus fetus that produce different fOS structures. We accurately quantified fOS in Campylobacter species that ranged from 7.80 (±0.84) to 49.82 (±0.46) nmoles per gram of wet cell pellet and determined that the C. jejuni fOS comprises 2.5% of the dry cell weight. In addition, a novel di-phosphorylated fOS species was identified in C. lari. This method provides a sensitive and quantitative method to investigate the genesis, biology and breakdown of fOS in the bacterial N-glycosylation systems.
The measurement of pyroelectric coefficient (p) and dielectric constant (K) of rare-earth orthochromites RCrO3, where R = Tb, Dy, He, Er and Yb are reported for the temperature range 300-600 K. Pyroelectric data show that all the studied orthochromites have ferroelectric phase in this temperature range. The dielectric data in some cases support this conclusion. Spontaneous polarization (Ps) and Curie temperature (Tc) have also been evaluated. The maximum value of Ps varies from 0.041 Cm 2 to 0.30 Cm-2 in the studied orthochromites, which is very small.
Using solid-state fermentation, production of an industrially important pectin lyase from a fungal strain Fusarium oxysporum MTCC 1755 was attempted, which was further subjected to purification and characterization. The enzyme was purified by three steps, namely ammonium sulfate fractionation, cation-exchange chromatography on CM cellulose followed by gel filtration chromatography using Sephadex G-100 column. A 16-fold purification with 31.2% yield and 3.2 U/mg specific activity was achieved. The optimum pH of the purified enzyme was 9.0 and stability ranged from pH 5.0-7.0 for 24 h. Optimum temperature of purified enzyme was found to be 40°C while temperature stability ranged from 10 to 50°C for 30 min. The K m and k cat of the enzyme was 1.75 mg/ml and 83.3 s -1 , respectively. The purified enzyme was found to be highly stimulated by Ca 2? ions while sugars like mannitol and sorbitol, and salts like NaCl and CaCl 2 enhanced the thermostability. The purified pectin lyase was found suitable for retting of Crotolaria juncea fiber.
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