Browsing by Author "Martin, J."
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Item Expanding the frontiers of bacterial diagnosis through bacteriophage biotechnology(AIMS Press, 2020) Majumdar, M.; Klapsa, D.; Wilton, T.; Bujaki, E.; Fernandez‐Garcia, E. M. D.; Faleye, T. O. C.; Oyero , A. O.; Adewumi, M. O.; Ndiaye, K.; Adeniji, J. A.; Martin, J.In a bid to achieve microbial diagnostic precision and reduce diagnostic turn-around time, the development of technologically advanced,novel techniques has been on the rise. There is a gradual phasing out of traditional diagnostic methods by more specific and highly sensitive molecular techniques. Asides from being technically demanding and cost-ineffective, these molecular methods have themselves not fulfilled perhaps the most essential diagnostic criterion of distinguishing between viable and dead bacterial cells. The use of bacteriophages as biorecognition elements for bacterial detectors offers numerous advantages in terms of cost, ease of accessibility, and high specificity binding of bacteriophages to their bacterial host. Biotechnological advancements further give bacteriophage use the leading edge as genetic modification of bacteriophage genome through the fluorescent gene insertion produces reporter bacteriophages. These recombinants can produce detectable fluorescent signals through intracellular lytic action, strictly in metabolically active bacteria cells. Fluorescent labelled enzyme-active and cell wall binding domains of bacteriophages also offer better alternatives to the use of antibodies as diagnostic markers because they are resistant to pH and temperature sensitivities. Overall, bacteriophage-based detection systems are less prone to detection errors and significantly reduce diagnostic time while also attaining high test sensitivity.Item Genome Sequences of Two Dual-Serotype-Specific Echovirus 20 Strains from Nigeria(American Society for Microbiology (ASM), 2020) Faleye, T. O. C.; Adewumi, O. M.; Klapsa, D.; Majumdar, M.; Martin, J.; Adeniji, J.A.Here, we describe nearly complete genome sequences (7,361 nucleotides [nt] and 6,893 nt) of two echovirus 20 (E20) isolates from Nigeria that were simultaneously typed as CVB and E20 (dual serotype) by neutralization assay. Both include two overlapping open reading frames (ORFs) of 67 and 2,183 amino acids that encoded a recently described gut infection-facilitating protein and the classic enterovirus proteins, respectively.Item Isolation and Genomic Characterization of Echovirus 11 from faeces of a Non-Human Primate in Nigeria(Springer Nature, 2021-05-16) Faleye, T. O. C.; George, U. E.; Klapsa, D.; Majumdar, M.; Oragwa, A. O.; Adewumi, O. M.; Martin, J.; Adeniji, J. A.We recently investigated the presence of enteroviruses (EVs) in non-human primates (NHPs) in Northern Nigeria and documented the presence of EV-A76 of South-East Asian ancestry in an NHP. In this study, we go further to ask if we could also find EVs in NHPs indigenous to the forested South-south Nigeria. Fresh faecal samples were collected from the floor of 10 cages housing NHPs in Cross River Nigeria, resuspended in PBS and subjected to RNA extraction, cDNA synthesis, PanEnt 50-UTR and PanEnt VP1 PCR assays. None of the samples was positive for the PanEnt VP1 assay, but one sample was positive for PanEnt 50- UTR PCR. This sample was subsequently inoculated into RD cell line, produced CPE and the isolate analysed by PCR assays, next-generation whole genome sequencing and passage in four different cell lines showing replication in two of them. Analysis of the complete genome of the isolate identified it as an Echovirus 11 (E11) and revealed a recombinant genomic structure. Phylogenetic analysis showed that the E11 NHP strain was related to human clinical isolates suggesting a zoonotic behaviour. We describe the first isolation and complete genome characterization of an E11 obtained from an NHP in Nigeria having zoonotic potential.