Although the evolutionary significance of gene duplication has long been appreciated, it remains unclear what factors determine gene duplicability. In this study we investigated whether metabolism is an important determinant of gene duplicability because cellular metabolism is crucial for the survival and reproduction of an organism. Using genomic data and metabolic pathway data from the yeast (Saccharomyces cerevisiae) and Escherichia coli, we found that metabolic proteins indeed tend to have higher gene duplicability than nonmetabolic proteins. Moreover, a detailed analysis of metabolic pathways in these two organisms revealed that genes in the central metabolic pathways and the catabolic pathways have, on average, higher gene duplicability than do other genes and that most genes in anabolic pathways are single-copy genes.
A total of 1080 individual patient samples (158 positive serology samples from confirmed, predominantly mildly symptomatic COVID-19 patients and 922 serology negative including 496 collected pre-COVID) from four states in Australia were analysed on four commercial SARS-CoV-2 serological assays targeting antibodies to different antigens (Roche Elecsys and Abbott Architect: nucleocapsid; Diasorin Liaison and Euroimmun: spike). A subset was compared to immunofluorescent antibody (IFA) and micro-neutralisation. Sensitivity and specificity of the Roche (n = 1033), Abbott (n = 806), Diasorin (n = 1034) and Euroimmun (n = 175) were 93.7%/99.5%, 90.2%/99.4%, 88.6%/98.6% and 91.3%/98.8%, respectively. ROC analysis with specificity held at 99% increased the sensitivity for the Roche and Abbott assays from 93.7% to 98.7% (cut-off 0.21) and 90.2% to 94.0% (cut-off 0.91), respectively. Overall seropositivity of samples increased from a maximum of 23% for samples 0-7days-post-onset of symptoms (dpos), to 61% from samples 8-14dpos and 93% from those >14dpos. IFA and microneutralisation values correlated best with assays targeting antibodies to spike protein with values >80 AU/mL on the Diasorin assay associated with neutralising antibody. Detectable antibody was present in 22/23 (96%), 20/23 (87%), 15/23 (65%) and 9/22 (41%) patients with samples >180dpos on the Roche, Diasorin, Abbott and microneutralisation assays respectively. Given the low prevalence in this community, two-step algorithms on initial positive results saw an increase in the positive predictive value (PPV) of positive samples (39%-65% to ≥98%) for all combinations. Similarly accuracy increased from a range of 98.5%-99.4% to ≥99.8% assuming a 1% seroprevalence. Negative predictive value (NPV) was high (≥99.8%) regardless of which assay was used initially.
This study provides further evidence of the ability of dressings with Safetac soft silicone adhesive technology to minimise trauma and pain and demonstrates the ability of Mepilex Border Lite to overcome the clinical challenges associated with the use of dressings on the wounds/skin injuries of paediatric patients.
This study provides further evidence of the ability of dressings with Safetac soft silicone adhesive technology to minimise trauma and pain and demonstrates the ability of Mepilex Border Lite to overcome the clinical challenges associated with the use of dressings on the wounds/skin injuries of paediatric patients.
SENTRA, available via URL http://wit.mcs.anl.gov/WIT2/Sentra/, is a database of proteins associated with microbial signal transduction. The database currently includes the classical two-component signal transduction pathway proteins and methyl-accepting chemotaxis proteins, but will be expanded to also include other classes of signal transduction systems that are modulated by phosphorylation or methylation reactions. Although the majority of database entries are from prokaryotic systems, eukaroytic proteins with bacterial-like signal transduction domains are also included. Currently SENTRA contains signal transduction proteins in 34 complete and almost completely sequenced prokaryotic genomes, as well as sequences from 243 organisms available in public databases (SWISS-PROT and EMBL). The analysis was carried out within the framework of the WIT2 system, which is designed and implemented to support genetic sequence analysis and comparative analysis of sequenced genomes.
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