E
Enzo A. Palombo
Researcher at Swinburne University of Technology
Publications - 215
Citations - 8343
Enzo A. Palombo is an academic researcher from Swinburne University of Technology. The author has contributed to research in topics: Rotavirus & Gene. The author has an hindex of 43, co-authored 205 publications receiving 7130 citations. Previous affiliations of Enzo A. Palombo include La Trobe University & Royal Children's Hospital.
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Encapsulation of essential oils and their application in antimicrobial active packaging
Agnes R. Mukurumbira,Robert A. Shellie,Russsell S. J. Keast,Enzo A. Palombo,Snehal R. Jadhav +4 more
TL;DR: A review of currently available encapsulation techniques and their effect on the antimicrobial efficacy, release profiles, stability and sensory properties of the essential oils can be found in this paper , where the application of encapsulated essential oils in biodegradable active packaging is explored.
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Molecular Characterization of Porcine Rotaviruses from the Southern Region of Brazil: Characterization of an Atypical Genotype G[9] Strain
Maria Lucia Rácz,S S. Kroeff,Veridiana Munford,T. A. R. Caruzo,Edison Luiz Durigon,Yasuyoshi Hayashi,Vera Gouvea,Enzo A. Palombo +7 more
TL;DR: The detection of nonporcine G types and unusual G-P combinations and the characterization of an atypical virus indicated that interspecies transmission may contribute to the genetic diversity of porcine rotaviruses.
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Inhibition or acceleration: Bacterial test media can determine the course of microbiologically influenced corrosion
TL;DR: In this article, the effect of different test media on the initial attachment of Escherichia coli and subsequent corrosion of carbon steel coupons was investigated in Nutrient broth (NB) and minimal media (MM).
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Genetic and antigenic variation of capsid protein VP7 of serotype G1 human rotavirus isolates
TL;DR: The results indicated that temporal genetic variation of the VP7 of serotype G1 rotavirus clinical isolates was associated with changes in the antigenicity of these isolates.
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The Antimicrobial Domains of Wheat Puroindolines Are Cell-Penetrating Peptides with Possible Intracellular Mechanisms of Action
TL;DR: The results strongly suggest that the PIN-based peptides exert their antimicrobial effects by pore formation in the cell membrane, likely by a carpet-like mechanism, followed by intracellular mechanisms of activity.