6 results on '"Griffiths, Anthony"'
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2. Renaming of genera Ebolavirus and Marburgvirus to Orthoebolavirus and Orthomarburgvirus, respectively, and introduction of binomial species names within family Filoviridae.
- Author
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Biedenkopf, Nadine, Bukreyev, Alexander, Chandran, Kartik, Di Paola, Nicholas, Formenty, Pierre B. H., Griffiths, Anthony, Hume, Adam J., Mühlberger, Elke, Netesov, Sergey V., Palacios, Gustavo, Pawęska, Janusz T., Smither, Sophie, Takada, Ayato, Wahl, Victoria, and Kuhn, Jens H.
- Abstract
The International Committee on Taxonomy of Viruses (ICTV) Filoviridae Study Group continues to prospectively refine the established nomenclature for taxa included in family Filoviridae in an effort to decrease confusion of genus, species, and virus names and to adhere to amended stipulations of the International Code of Virus Classification and Nomenclature (ICVCN). Recently, the genus names Ebolavirus and Marburgvirus were changed to Orthoebolavirus and Orthomarburgvirus, respectively. Additionally, all established species names in family Filoviridae now adhere to the ICTV-mandated binomial format. Virus names remain unchanged and valid. Here, we outline the revised taxonomy of family Filoviridae as approved by the ICTV in April 2023. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
3. Travel grants available for genetics congress.
- Author
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Griffiths, Anthony J. F.
- Subjects
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CONFERENCES & conventions , *GENETICS - Abstract
Announces the availability of travel grants for the 19th International Congress of Genetics slated in July 2003 in Melbourne, Australia. Existing state of the art of genetics; Details about the conference; Requirements for the grant of travel bursaries.
- Published
- 2003
- Full Text
- View/download PDF
4. Efficient Hydrogen Evolution from Dimethylamine Borane, Ammonia Borane and Sodium Borohydride Catalyzed by Ruthenium and Platinum Nanoparticles Stabilized by an Amine Modified Polymer Immobilized Ionic Liquid: a Comparative Study.
- Author
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Alharbi, Adhwa A., Wills, Corinne, Dixon, Casey, Arca, Elisabetta, Chamberlain, Thomas W., Griffiths, Anthony, Collins, Sean M., Wu, Kejun, Yan, Han, Bourne, Richard A., Knight, Julian G., and Doherty, Simon
- Abstract
Platinum and ruthenium nanoparticles stabilised by an amine modified polymer immobilised ionic liquid (MNP@NH2-PEGPIILS, M = Pt, Ru) catalyse the hydrolytic liberation of hydrogen from dimethylamine borane (DMAB), ammonia borane (AB) and NaBH4 under mild conditions. While RuNP@NH2-PEGPIILS and PtNP@NH2-PEGPIILS catalyse the hydrolytic evolution of hydrogen from NaBH4 with comparable initial TOFs of 6,250 molesH2.molcat−1.h−1 and 5,900 molesH2.molcat−1.h−1, respectively, based on the total metal content, RuNP@NH2-PEGPIILS is a markedly more efficient catalyst for the dehydrogenation of DMAB and AB than its platinum counterpart, as RuNP@NH2-PEGPIILS gave initial TOFs of 8,300 molesH2.molcat−1.h−1 and 21,200 molesH2.molcat−1.h−1, respectively, compared with 3,050 molesH2.molcat−1.h−1 and 8,500 molesH2.molcat−1.h−1, respectively, for PtNP@NH2-PEGPIILS. Gratifyingly, for each substrate tested RuNP@NH2-PEGPIILS and PtNP@NH2-PEGPIILS were markedly more active than commercial 5wt % Ru/C and 5wt% Pt/C, respectively. The apparent activation energies of 55.7 kJ mol−1 and 27.9 kJ mol−1 for the catalytic hydrolysis of DMAB and AB, respectively, with RuNP@NH2-PEGPIILS are significantly lower than the respective activation energies of 74.6 kJ mol−1 and 35.7 kJ mol−1 for its platinum counterpart, commensurate with the markedly higher initial rates obtained with the RuNPs. In comparison, the apparent activation energies of 44.1 kJ mol−1 and 46.5 kJ mol−1, for the hydrolysis NaBH4 reflect the similar initial TOFs obtained for both catalysts. The difference in apparent activation energies for the hydrolysis of DMAB compared with AB also reflect the higher rates of hydrolysis for the latter. Stability and reuse studies revealed that RuNP@NH2-PEGPIILS recycled efficiently as high conversions for the hydrolysis of DMAB were maintained across five runs with the catalyst retaining 97% of its activity.Graphical Abstract: Platinum and ruthenium nanoparticles stabilised by an amine modified polymer immobilised ionic liquid (MNP@NH2-PEGPIILS, M = Pt, Ru) catalyse the hydrolytic liberation of hydrogen from dimethylamine borane (DMAB), ammonia borane (AB) and NaBH4 under mild conditions. While RuNP@NH2-PEGPIILS and PtNP@NH2-PEGPIILS catalyse the hydrolytic evolution of hydrogen from NaBH4 with comparable initial TOFs of 6,250 molesH2.molcat−1.h−1 and 5,900 molesH2.molcat−1.h−1, respectively, based on the total metal content, RuNP@NH2-PEGPIILS is a markedly more efficient catalyst for the dehydrogenation of DMAB and AB than its platinum counterpart, as RuNP@NH2-PEGPIILS gave initial TOFs of 8,300 molesH2.molcat−1.h−1 and 21,200 molesH2.molcat−1.h−1, respectively, compared with 3,050 molesH2.molcat−1.h−1 and 8,500 molesH2.molcat−1.h−1, respectively, for PtNP@NH2-PEGPIILS. Gratifyingly, for each substrate tested RuNP@NH2-PEGPIILS and PtNP@NH2-PEGPIILS were markedly more active than commercial 5wt % Ru/C and 5wt% Pt/C, respectively. The apparent activation energies of 55.7 kJ mol−1 and 27.9 kJ mol−1 for the catalytic hydrolysis of DMAB and AB, respectively, with RuNP@NH2-PEGPIILS are significantly lower than the respective activation energies of 74.6 kJ mol−1 and 35.7 kJ mol−1 for its platinum counterpart, commensurate with the markedly higher initial rates obtained with the RuNPs. In comparison, the apparent activation energies of 44.1 kJ mol−1 and 46.5 kJ mol−1, for the hydrolysis NaBH4 reflect the similar initial TOFs obtained for both catalysts. The difference in apparent activation energies for the hydrolysis of DMAB compared with AB also reflect the higher rates of hydrolysis for the latter. Stability and reuse studies revealed that RuNP@NH2-PEGPIILS recycled efficiently as high conversions for the hydrolysis of DMAB were maintained across five runs with the catalyst retaining 97% of its activity. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
5. Artists as Harvesters: Natural Resource Use by Indigenous Woodcarvers in Central Arnhem Land, Australia.
- Author
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Koenig, Jennifer, Altman, Jon, and Griffiths, Anthony
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WOOD-carvers , *PLANT conservation , *CONSERVATION of natural resources , *WOOD carving , *LOGGING , *ETHNOBOTANY - Abstract
Plant resources are used, managed and conserved by local communities in many parts of the world. However, very few studies have examined the site-specific factors and mechanisms that affect resource extraction. We apply methodology from the social and biological sciences to examine the cultural and socio-economic factors that influence the harvest practice and resource use of indigenous wood carvers in the Maningrida region of central Arnhem Land. Woodcarvers from this region use a small number of carving timbers with two species dominant, Bombax ceiba and Brachychiton diversifolius. There were many cultural differences in harvest practice, with artists from the Kuninjku/Kunibeidji language community harvesting a greater number of tree species, larger quantities per harvest trip and smaller sized stems. Socio-economic factors also played an important role in facilitating the collection of stems as artists owning a vehicle acquired more stems than those who did not. Harvest sites closest to the township of Maningrida had higher visitation frequencies than those further away. These influences on harvest practice have significant implications for the ecological sustainability of timber harvesting in this region and we highlight the need to examine such localised factors when assessing the sustainability of indigenous wildlife harvests. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
6. Rapid and complete inactivation of SARS-CoV-2 by ultraviolet-C irradiation.
- Author
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Storm, Nadia, McKay, Lindsay G. A., Downs, Sierra N., Johnson, Rebecca I., Birru, Dagnachew, de Samber, Marc, Willaert, Walter, Cennini, Giovanni, and Griffiths, Anthony
- Subjects
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COVID-19 pandemic , *VIRUS inactivation , *ULTRAVIOLET radiation , *COUGH , *SNEEZING - Abstract
The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) pandemic has devastated global public health systems and economies, with over 52 million people infected, millions of jobs and businesses lost, and more than 1 million deaths recorded to date. Contact with surfaces contaminated with droplets generated by infected persons through exhaling, talking, coughing and sneezing is a major driver of SARS-CoV-2 transmission, with the virus being able to survive on surfaces for extended periods of time. To interrupt these chains of transmission, there is an urgent need for devices that can be deployed to inactivate the virus on both recently and existing contaminated surfaces. Here, we describe the inactivation of SARS-CoV-2 in both wet and dry format using radiation generated by a commercially available Signify ultraviolet (UV)-C light source at 254 nm. We show that for contaminated surfaces, only seconds of exposure is required for complete inactivation, allowing for easy implementation in decontamination workflows. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
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