Graphene oxide (GO) is recognized as a promising antibacterial material that is expected to be used to prepare a new generation of high-efficiency antibacterial coatings. The propensity of GO to agglomeration makes it difficult to apply it effectively. A new method of preparing GO-loaded nickel (GNC) with excellent antibacterial property is proposed in this paper. In this work, GNC was prepared on a titanium sheet by magnetic field-assisted scanning jet electrodeposition. The massive introduction of GO on the coating was proven by energy disperse spectroscopy and Raman spectroscopy. The antibacterial performance of GNC was proven by agar plate assessment and cell living/dead staining. The detection of intracellular reactive oxygen species (ROS) and the concentration of nickel ions, indicate that the antibacterial property of GNC are not entirely derived from the nickel ions released by the coating and the intracellular ROS induced by nickel ions, but rather are due to the synergistic effect of nickel ions and GO.
Bovine herpesvirus type 1 (BHV-1) is a virus of causing bovine
respiratory disease that poses significant threat to the cattle
industry. The prevalence of BHV-1 has recently increased in China.
However, information about the prevalent isolates is scarce. In this
study, we identified a novel strain of BHV-1, referred to as BHV SHJS,
isolated from nasal swabs of Holstein cows in 2020 of China. The genome
of BHV SHJS is 1,35,102 bp in length and is 99.64 % similar to that of
SP1777 (KM258883.1) strain. Mutations, insertions, or deletions mainly
occur in UL12, UL19, UL27, UL37, UL42, UL44, UL46, UL47, US6, US7, and
US8 relative to the different genomic coordinates. Phylogenetic analyses
of immunogenic proteins (gB, gC, and gD) revealed that BHV SHJS and
other China outbreak strains were displayed on different branches with
commonly used vaccine strains. Recombination analysis shown that BHV
SHJS could persist even with BoviShield IBR MLV and Arsenal IBR MLV
vaccines, suggesting that these vaccines should not completely prevent
BHV SHJS infection. These analyses partially explain why the vaccines
only partially protect against BHV-1 outbreaks in China. In conclusion,
we identified a novel and potential recombinant BHV-1 strain and for the
first time characterized BHV-1 genome with a different evolutionary
origin from that of known strains prevalent in China. This study will
enrich our knowledge regarding BHV outbreak strains in China and
contribute to the prevention and pathogenic studies of BHV-1.
Bovine herpesvirus type 1 (BHV-1) is a virus of causing bovine
respiratory disease that poses significant threat to the cattle
industry. The prevalence of BHV-1 has recently increased in China.
However, information about the prevalent isolates is scarce. In this
study, we identified a novel strain of BHV-1, referred to as BHV SHJS,
isolated from nasal swabs of Holstein cows in 2020 of China. The genome
of BHV SHJS is 1,35,102 bp in length and highly similar to SP1777
(KM258883.1) strain with an identity of 99.64 % . Mutations,
insertions, or deletions mainly occur in UL12, UL19, UL27, UL37, UL42,
UL44, UL46, UL47, US6, US7, and US8 relative to the different genomic
coordinates. Phylogenetic analyses of immunogenic gene (gB, gC, and gD)
revealed that BHV SHJS and other China outbreak strains were displayed
on different branches with commonly used vaccine strains. Recombination
analysis shown that BHV SHJS could persist even with BoviShield IBR MLV
and Arsenal IBR MLV vaccines, suggesting that these vaccines should not
completely prevent BHV SHJS infection. These analyses partially explain
why the vaccines only partially protect against BHV-1 outbreaks in
China. In conclusion, we identified a novel and potential recombinant
BHV-1 strain and for the first time characterized BHV-1 genome with a
different evolutionary origin from that of known strains prevalent in
China. This study will enrich our knowledge regarding BHV outbreak
strains in China and contribute to the prevention and pathogenic studies
of BHV-1.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.