ABSTRACT
The 2018 Nigerian Lassa fever season saw the largest ever recorded upsurge of cases, raising concerns over the emergence of a strain with increased transmission rate. To understand the molecular epidemiology of this upsurge, we performed, for the first time at the epicenter of an unfolding outbreak, metagenomic nanopore sequencing directly from patient samples, an approach dictated by the highly variable genome of the target pathogen. Genomic data and phylogenetic reconstructions were communicated immediately to Nigerian authorities and the World Health Organization to inform the public health response. Real-time analysis of 36 genomes and subsequent confirmation using all 120 samples sequenced in the country of origin revealed extensive diversity and phylogenetic intermingling with strains from previous years, suggesting independent zoonotic transmission events and thus allaying concerns of an emergent strain or extensive human-to-human transmission.
Subject(s)
Disease Outbreaks , Lassa Fever/virology , Lassa virus/genetics , Metagenomics/methods , Molecular Epidemiology , Animals , Genome, Viral , Humans , Lassa Fever/transmission , Nigeria/epidemiology , Phylogeny , Zoonoses/transmission , Zoonoses/virologyABSTRACT
Here, we present the complete genome sequences of two Zika virus (ZIKV) strains, EcEs062_16 and EcEs089_16, isolated from the sera of febrile patients in Esmeraldas City, in the northern coastal province of Esmeraldas, Ecuador, in April 2016. These are the first complete ZIKV genomes to be reported from Ecuador.
ABSTRACT
Caulobacter crescentus 101123 possesses a gene (Mbl1b) encoding a metallo-beta-lactamase with 32% amino acid identity to the L1 metallo-beta-lactamase from Stenotrophomonas maltophilia. The gene was cloned into an expression vector and the enzyme, Mbl1b, was expressed in Escherichia coli. Mbl1b was purified. Catalytic properties for several antibiotics were determined. The enzyme exhibits Michaelis-Menten kinetics for imipenem, meropenem and nitrocefin but substrate inhibition kinetics with cefoxitin, cefaloridine, penicillin G and ampicillin. A homology model predicts Mbl1b has the same structural fold as other metallo-beta-lactamases with a detailed structure very similar to L1 but whereas L1 is a homotetramer, Mbl1b is monomeric. The main differences between Mbl1 and L1 are in the N-terminal region.