Thanh Tuan Nguyen scite author profile

Pigs and humans have shared influenza A viruses (IAV) since at least 1918, and many interspecies transmission events have been documented since that time. However, despite this interplay, relatively little is known regarding IAV circulating in swine around the world compared with the avian and human knowledge base. This gap in knowledge impedes our understanding of how viruses adapted to swine or man impacts the ecology and evolution of IAV as a whole and the true impact of swine IAV on human health. The pandemic H1N1 that emerged in 2009 underscored the need for greater surveillance and sharing of data on IAV in swine. In this paper, we review the current state of IAV in swine around the world, highlight the collaboration between international organizations and a network of laboratories engaged in human and animal IAV surveillance and research, and emphasize the need to increase information in high-priority regions. The need for global integration and rapid sharing of data and resources to fight IAV in swine and other animal species is apparent, but this effort requires grassroots support from governments, practicing veterinarians and the swine industry and, ultimately, requires significant increases in funding and infrastructure.

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A variety of Gram-positive bacteria carry mobile mef genes

Luna

Coates²,

Eady³

et al. 1999

138

114

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The mefE gene codes for a membrane bound efflux protein, which confers resistance to macrolides, and has been identified in Streptococcus pneumoniae. A variety of gram-positive organisms were examined. Twenty-six isolates of S. pneumoniae carried mefE and were resistant to erythromycin (MIC of 2-16 mg/L). Two additional isolates of Emr S. pneumoniae carried both ermB and mefE(MIC of 16-128 mg/L). One Micrococcus luteus, one Corynebacterium jeikeium, three Corynebacterium spp., two viridans streptococci and seven Enterocccus spp. also carried mef genes. It was possible to move the mef gene from all 11 S. pneumoniae tested to susceptible S. pneumoniae and/or Enterococcus faecalis recipients. The addition of DNase (1 g/L) did not affect the gene transfer. It was also possible to move the mef gene from donor Enterococcus spp., viridans streptococci, M. luteus, C. jeikeium and Corynebacterium spp. to E. faecalis recipients. Transconjugant isolates were resistant to erythromycin (MIC = 16 mg/L). Hybridization with a labelled mef oligonucleotide probe against Southern blots and bacterial dot blots confirmed the presence of the mef genes. This is the first time that a mobile mef gene has been identified in four different genera, from three distinct geographical locations.

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Boosting the Energy Density of Flexible Solid-State Supercapacitors via Both Ternary NiV₂Se₄ and NiFe₂Se₄ Nanosheet Arrays

Nguyen¹,

Balamurugan²,

et al. 2019

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Because of the demand for sustainable energy storage devices, investigating high energy density and cost-effective electrodes for flexible supercapacitors (SCs) is essential; however, the emergence of such high-performance electrodes to fulfill the requirements of industrial sectors remains a highly challenging task. Herein, we successfully demonstrated the preparation of ternary metal selenides of nickel–vanadium selenide (Ni x V3–x Se4) and nickel–iron selenide (Ni x Fe3–x Se4) series by a simple and low-cost hydrothermal method, followed by selenization for flexible asymmetric SC (ASC). The impacts of Ni2+ are studied and shown to lead to a significant enhancement in electrochemical properties, which varied with the stoichiometric ratio of Ni–V/Fe in Ni x V3–x Se4 and Ni x Fe3–x Se4 nanosheet arrays. The optimized NiV2Se4 and NiFe2Se4 electrodes displayed high specific capacities (∼329 and 261 mA h g–1, respectively, at 1 mA cm–2), excellent rate performances (capacity retentions of about 79.33 and 77.78%, respectively, even at 50 mA cm–2), and outstanding cycling stabilities (98.6 and 97.9% capacity retentions after 10 000 cycles, respectively). Most notably, the NiV2Se4//NiFe2Se4 ASC provides an excellent energy density of 73.5 W h kg–1 at a power density of 0.733 kW kg–1 and superior cycling performance (96.6% capacity retention after 10 000 cycles). The high-performance nanostructured flexible ASCs show promise in portable electronics and zero-emission transportation.

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Diversity and abundance of phyllosphere bacteria are linked to insect herbivory

et al. 2014

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Simultaneous or sequential attack by herbivores and microbes is common in plants. Many seed plants exhibit a defence trade-off against chewing herbivorous insects and leaf-colonizing ('phyllosphere') bacteria, which arises from cross-talk between the phytohormones jasmonic acid (JA, induced by many herbivores) and salicylic acid (SA, induced by many bacteria). This cross-talk may promote reciprocal susceptibility in plants between phyllosphere bacteria and insect herbivores. In a population of native bittercress (Cardamine cordifolia, Brassicaceae), we tested whether simulating prior damage with JA or SA treatment induced resistance or susceptibility (respectively) to chewing herbivores. In parallel, we conducted culture-dependent surveys of phyllosphere bacteria to test the hypothesis that damage by chewing herbivores correlates positively with bacterial abundance in leaves. Finally, we tested whether bacterial infection induced susceptibility to herbivory by a major chewing herbivore of bittercress, Scaptomyza nigrita (Drosophilidae). Overall, our results suggest that reciprocal susceptibility to herbivory and microbial attack occurs in bittercress. We found that JA treatment reduced and SA treatment increased S. nigrita herbivory in bittercress in the field. Bacterial abundance was higher in herbivore-damaged vs. undamaged leaves (especially Pseudomonas syringae). However, Pedobacter spp. and Pseudomonas fluorescens infections were negatively associated with herbivory. Experimental Pseudomonas spp. infections increased S. nigrita herbivory in bittercress. Thus, plant defence signalling trade-offs can have important ecological consequences in nature that may be reflected in a positive correlation between herbivory and phyllosphere bacterial abundance and diversity. Importantly, the strength and direction of this association varies within and among prevalent bacterial groups.

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