Jia Feng scite author profile

Adsorption equilibrium and kinetics of CO(2), CH(4), N(2)O, and N(2) on two newly discovered adsorbents, metal-organic frameworks MOF-5 and MOF-177 and one traditional adsorbent, zeolite 5A were determined to assess their efficacy for CO(2), CH(4), and N(2)O removal from air and separation of CO(2) from CH(4) in pressure swing adsorption processes. Adsorption equilibrium and kinetics data for CO(2), CH(4), N(2)O, and N(2) on all three adsorbents were measured volumetrically at 298K and gas pressures up to 800 Torr. Adsorption equilibrium capacities of CO(2) and CH(4) on all three adsorbents were determined gravimetrically at 298 K and elevated pressures (14 bar for CO(2) and 100 bar for CH(4)). The Henry's law and Langmuir adsorption equilibrium models were applied to correlate the adsorption isotherms, and a classical micropore diffusion model was used to analyze the adsorption kinetic data. The adsorption equilibrium selectivity was calculated from the ratio of Henry's constants, and the adsorbent selection parameter for pressure swing adsorption processes were determined by combining the equilibrium selectivity and working capacity ratio. Based on the selectivity and adsorbent selection parameter results, zeolite 5A is a better adsorbent for removing CO(2) and N(2)O from air and separation of CO(2) from CH(4), whereas MOF-177 is the adsorbent of choice for removing CH(4) from air. However, both MOF adsorbents have larger adsorption capacities for CO(2) and CH(4) than zeolite 5A at elevated pressures, suggesting MOF-5 and MOF-177 are better adsorbents for CO(2) and CH(4) storage. The CH(4) adsorption capacity of 22 wt.% on MOF-177 at 298K and 100 bar is probably the largest adsorption uptake of CH(4) on any dry adsorbents. The average diffusivity of CO(2), CH(4) and N(2)O in MOF-5 and MOF-177 is in the order of 10(-9) m(2)/s, as compared to 10(-11) m(2)/s for CO(2), CH(4) and N(2)O in zeolite 5A. The effects of gas pressure on diffusivity for different adsorabte-adsorbent systems were also investigated.

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Biochemical Characterization and Vaccine Potential of a Heme-Binding Glutathione Transferase from the Adult Hookworm Ancylostoma caninum

Zhan¹,

Liu²,

Perally

et al. 2005

Infect Immun

102

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We report the cloning and expression of Ac-GST-1, a novel glutathione S-transferase from the adult hookworm Ancylostoma caninum, and its possible role in parasite blood feeding and as a vaccine target. The predicted Ac-GST-1 open reading frame contains 207 amino acids (mass, 24 kDa) and exhibited up to 65% amino acid identity with other nematode GSTs. mRNA encoding Ac-GST-1 was detected in adults, eggs, and larval stages, but the protein was detected only in adult hookworm somatic extracts and excretory/secretory products. Using antiserum to the recombinant protein, Ac-GST-1 was immunolocalized to the parasite hypodermis and muscle tissue and weakly to the intestine. Recombinant Ac-GST-1 was enzymatically active, as determined by conjugation of glutathione to a model substrate, and exhibited a novel high-affinity binding site for hematin. The possible role of Ac-GST-1 in parasite heme detoxification during hemoglobin digestion or heme uptake prompted interest in evaluating it as a potential vaccine antigen. Vaccination of dogs with Ac-GST-1 resulted in a 39.4% reduction in the mean worm burden and 32.3% reduction in egg counts compared to control dogs following larval challenge, although the reductions were not statistically significant. However, hamsters vaccinated with Ac-GST-1 exhibited statistically significant worm reduction (53.7%) following challenge with heterologous Necator americanus larvae. These studies suggest that Ac-GST-1 is a possible drug and vaccine target for hookworm infection.Hookworm infection is a major cause of disease burden for animals and humans. An estimated 740 million cases of human hookworm infection occur worldwide (12). Most of the pathology attributed to hookworm infection results from intestinal blood loss caused by the adult stages of the parasite (21, 32). The adult hookworm is specially adapted to ingest red blood cells and feed on the intracellular contents and has evolved to produce a battery of molecules for this purpose (22,42). For instance, the parasite uses its buccal capsule to attach to the intestinal mucosa and submucosa, where it mechanically ruptures capillaries and arterioles. From unique cephalic glands, the adult hookworm releases anticoagulants and anti-platelet-aggregating agents into the attachment site (10, 34). The parasite subsequently ruptures red blood cells through the action of a unique hemolysin (13) and then degrades the released hemoglobin through a carefully orchestrated cascade of hemoglobinases (43). This sequence of events is central to the pathogenesis of hookworm disease, which results almost entirely from hookworm-induced blood loss leading to iron deficiency anemia (35).The trichostrongyle Hemonchus contortus is a major cause of anemia and weight loss in small ruminants. Like hookworms, H. contortus produces numerous mechanistically distinct proteases that are thought to digest hemoglobin (27). Recently, adult H. contortus was shown to produce a novel glutathione S-transferase (Hc-GST-1), which has a high-affinity binding site for hematin ...

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A fuzzy‐set‐theory‐based approach to analyse species membership in DNA barcoding

et al. 2011

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Reliable assignment of an unknown query sequence to its correct species remains a methodological problem for the growing field of DNA barcoding. While great advances have been achieved recently, species identification from barcodes can still be unreliable if the relevant biodiversity has been insufficiently sampled. We here propose a new notion of species membership for DNA barcoding-fuzzy membership, based on fuzzy set theory-and illustrate its successful application to four real data sets (bats, fishes, butterflies and flies) with more than 5000 random simulations. Two of the data sets comprise especially dense species/population-level samples. In comparison with current DNA barcoding methods, the newly proposed minimum distance (MD) plus fuzzy set approach, and another computationally simple method, 'best close match', outperform two computationally sophisticated Bayesian and BootstrapNJ methods. The new method proposed here has great power in reducing false-positive species identification compared with other methods when conspecifics of the query are absent from the reference database.

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Molecular characterisation of the Ancylostoma-secreted protein family from the adult stage of Ancylostoma caninum

Zhan

Liu

Badamchian

et al. 2003

International Journal for Parasitology

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Jia Feng

Adsorption of CO₂, CH₄, N₂O, and N₂ on MOF-5, MOF-177, and Zeolite 5A

Biochemical Characterization and Vaccine Potential of a Heme-Binding Glutathione Transferase from the Adult Hookworm Ancylostoma caninum

A fuzzy‐set‐theory‐based approach to analyse species membership in DNA barcoding

Molecular characterisation of the Ancylostoma-secreted protein family from the adult stage of Ancylostoma caninum

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Jia Feng

Adsorption of CO2, CH4, N2O, and N2 on MOF-5, MOF-177, and Zeolite 5A

Biochemical Characterization and Vaccine Potential of a Heme-Binding Glutathione Transferase from the Adult Hookworm Ancylostoma caninum

A fuzzy‐set‐theory‐based approach to analyse species membership in DNA barcoding

Molecular characterisation of the Ancylostoma-secreted protein family from the adult stage of Ancylostoma caninum

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Adsorption of CO₂, CH₄, N₂O, and N₂ on MOF-5, MOF-177, and Zeolite 5A