Development of molecular tools for honeybee virus research: the South African contribution

Increasing knowledge of the association of honeybee viruses with other honeybee parasites, primarily the ectoparasitic mite Varroa destructor, and their implication in the mass mortality of honeybee colonies has resulted in increasing awareness and interest in honeybee viruses. In addition the identification, monitoring and prevention of spread of bee viruses is of considerable importance, particularly when considering the lack of information on the natural incidence of virus infections in honeybee populations worldwide. A total of eighteen honeybee viruses have been identified and physically characterized. Most of them have physical features resembling picornaviruses, and are referred to as picorna-like viruses. The complete genome sequences of four picorna-like honeybee viruses, namely Acute Bee Paralysis Virus (ABPV), Black Queen Cell Virus (BQCV), Sacbrood Virus (SBV) and Deformed Wing Virus (DWV) have been determined. The availability of this sequence data has lead to great advances in the studies on honeybee viruses. In particular, the development of a reverse genetics system for BQCV, will open new opportunities for studies directed at understanding the molecular biology, persistence, pathogenesis, and interaction of these bee viruses with other parasites. This review focuses on the contribution of the Honeybee Virus Research Group (HBVRG), from the University of the Western Cape of South Africa, in the development of molecular tools for the study of molecular biology and pathology of these viruses

Detection of three honeybee viruses simultaneously by a single Multiplex Reverse Transcriptase PCR

A single multiplex reverse transcriptase (RT) polymerase chain reaction (PCR) assay was developed for the simultaneous detection of three honeybee viruses: acute bee paralysis virus (ABPV), sacbrood virus (SBV) and black queen cell virus (BQCV). Unique PCR primers were designed from the complete genome sequence to amplify fragments of 900 bp from ABPV, 434 bp from SBV and 316 bp from BQCV. Individual bee pupae homogenates or total RNA extracted from these crude extracts were used in the RT-PCR amplification. Sequence analysis of the fragments amplified revealed nucleotide sequence identities between 97 and 98% for each virus against its reference strain. In a blind test, samples containing various combinations of ABPV, SBV and BQCV were successfully identified. Furthermore, field samples of honeybee pupae were screened for viral infections, and evidence of virus inapparent infection as well as virus co-infection were found. Key words: Multiplex, RT-PCR, virus, honeybee, varroa. African Journal of Biotechnology Vol. 4 (8), pp. 763-767, August 200

Identification, sequence analysis, and phylogeny of the immediate early gene 1 of the trichoplusia ni single nucleocapsid polyhedrosis virus

Substantial research has been conducted on the immediate early 1 (ie-1) genes from the prototype baculovirus Autographa californica multicapsid nuclear polyhedrosis virus (AcMNPV) and the Orgyia pseudotsugata multicapsid nuclear polyhedrosis virus (OpMNPV). In both cases ie-1 gene products have been implicated in transcriptional activation and repression. In this study an ie-1 homolog was identified from Trichoplusia ni single nucleocapsid polyhedrosis virus (TniSNPV). Nucleotide sequence analysis indicated that the TniSNPV ie-1 gene consists of a 2217 nucleotide open reading frame (ORF), encoding a protein with a molecular mass of 84.464 kDa. This represents the largest baculovirus ie-1 gene characterised to date. Of the seven ie-1 homologs identified to date, the TniSNPV ie-1 shared most sequence similarity with the ie-1 gene of Spodoptera exigua MNPV (SeMNPV) (41%). At the nucleotide level, expected TATA and CAGT motifs were found to precede each ie-1 ORF. At the protein level, it was confirmed that the N-termini are poorly conserved, but share the characteristic of having a high proportion of acidic amino acids. In addition it was found that N-terminal regions significantly matched the SET domain in the Swiss-Prot prosite database. The C-terminal regions of the deduced IE-1 sequences were found to be substantially more conserved than the N-termini. Several conserved motifs were identified in the C-terminal sequences. A phylogenetic tree of nine baculovirus IE-1 proteins was constructed using maximum parsimony analysis. The phylogenetic estimation of the ie-1 genes shows that TniSNPV is a member of the previously described lepidopteran NPV group II and it is most closely related to SeMNPV.Web of Scienc

Schwarz-Bart, Levinas, and Post-Shoah–Postcolonial Gendered Ethics

This article examines the influence of Emmanuel Levinas’s philosophy on the ethical aspects of the life and work of André Schwarz-Bart. The essay is framed through recent re-interest in Schwarz-Bart’s collaborative works with his wife, Simone, as a bridge between Holocaust and postcolonial studies. The publications, arguments, and key points of intersubjective ethics in Levinas’s work that Schwarz-Bart encountered are carefully examined. The argument confronts the critical reception of Levinas’s concepts of the feminine and dwelling to demonstrate how, when seen through a Judaic lens, these notions form a new gendered reading of Schwarz-Bart’s The Last of the Just.This is the publisher’s final pdf. The article is copyrighted by the Purdue Research Foundation and published by Johns Hopkins University Press. It can be found at: http://muse.jhu.edu/journals/modern_fiction_studies/

The effects of bovine colostrum supplementation on in vivo immunity following prolonged exercise:A randomised controlled trial

Background?Bovine colostrum (COL) has been advocated as a nutritional countermeasure to exercise-induced immune dysfunction but there is a lack of research with clinically relevant in vivo measures.? AimTo investigate the effects of COL supplementation on in vivo immunity following prolonged exercise using experimental contact hypersensitivity (CHS) with the novel antigen Diphenylcyclopropenone (DPCP). MethodsIn a double-blind design, 31 men were randomly assigned to COL (20 g/day) or placebo (PLA) for 58 days. Participants ran for 2 h at 60% maximal aerobic capacity on day 28 and received a primary DPCP exposure (sensitisation) 20 min after. On day 56, participants received a low dose-series DPCP challenge to elicit recall of in vivo immune-specific memory (quantified by skinfold thickness 24 h and 48 h later). Analysis of the dose response curves allowed determination of the minimum dose required to elicit a positive response (i.e. sensitivity). ResultsThere was no difference in summed skinfold thickness responses between COL and PLA (p > 0.05). However, sensitivity of in vivo immune responsiveness was greater with COL at 24 h (p < 0.001) and 48 h (p < 0.05) with doses ~2-fold greater required to elicit a positive response in PLA.? ConclusionsCOL blunts the prolonged exercise-induced decrease in clinically relevant in vivo immune responsiveness to a novel antigen, which may be a mechanism for reduced illness reports observed in previous studies. These findings also suggest that CHS sensitivity is highly relevant to host defence and in vivo protection against infection.publishersversionPeer reviewe

Porphyrin Binding to Gun4 protein, Facilitated by a Flexible Loop, Controls Metabolite Flow through the Chlorophyll Biosynthetic Pathway

In oxygenic phototrophs, chlorophylls, hemes and bilins are synthesized by a common branched pathway. Given the phototoxic nature of tetrapyrroles, this pathway must be tightly regulated and an important regulatory role is attributed to Mgchelatase enzyme at the branching between the heme and chlorophyll pathway. Gun4 is a porphyrin-binding protein known to stimulate in vitro the Mg-chelatase activity but how the Gun4-porphyrin complex acts in the cell was unknown. To address this issue we first performed simulations to determine the porphyrin-docking mechanism to the cyanobacterial Gun4 structure. After correcting crystallographic loop contacts, we determined the binding site for Mgprotoporphyrin IX. It revealed that the orientation of 6/7 loop is critical for the binding and the magnesium ion held within the porphyrin is coordinated by Asn211 residue. We also identified the basis for stronger binding in the Gun4-1 variant and for weaker binding in the W192A mutant. The W192A-Gun4 was further characterized in Mg-chelatase assay showing that tight porphyrin-binding in Gun4 facilitates its interaction with the Mg-chelatase ChlH subunit. Finally, we introduced the W192A mutation into Synechocystis 6803 cells and show that the Gun4-porphyrin complex is important for the accumulation of ChlH and for channeling metabolites into the chlorophyll biosynthetic pathway.This work was supported by project P501/12/G055 of the Czech Science Foundation, and by the National Programme of Sustainability I (LO1416) and by ERC 2009-Adg25027-PELE (to V.G). J.K. was supported by project Algain (EE2.3.30.0059). N.B.P.A., P.A.D., A.A.B. and C.N.H. thank the Biotechnology and Biological Sciences Research Council (BBSRC) U.K. for funding, under award numbers BB/G021546/1 and BB/M000265/1. CNH was also supported by an Advanced Award 338895 from the European Research Council.Peer ReviewedPostprint (author's final draft

Structural and functional consequences of removing the N-terminal domain from the magnesium chelatase ChlH subunit of Thermosynechococcus elongatus

Magnesium chelatase (MgCH) initiates chlorophyll biosynthesis by catalysing the ATP-dependent insertion of Mg2+ into protoporphyrin. This large enzyme complex comprises ChlH, I and D subunits, with I and D involved in ATP hydrolysis, and H the protein that handles the substrate and product. The 148 kDa ChlH subunit has a globular N-terminal domain attached by a narrow linker to a hollow cage-like structure. Following deletion of this ~18 kDa domain from the Thermosynechoccus elongatus ChlH, we used single particle reconstruction to show that the apo- and porphyrin-bound forms of the mutant subunit consist of a hollow globular protein with three connected lobes; superposition of the mutant and native ChlH structures shows that, despite the clear absence of the N-terminal ‘head’ region, the rest of the protein appears to be correctly folded. Analyses of dissociation constants shows that the ΔN159ChlH mutant retains the ability to bind protoporphyrin and the Gun4 enhancer protein, although the addition of I and D subunits yields an extremely impaired active enzyme complex. Addition of the Gun4 enhancer protein, which stimulates MgCH activity significantly especially at low Mg2+ concentrations, partially reactivates the ΔN159ChlH–I–D mutant enzyme complex, suggesting that the binding site or sites for Gun4 on H do not wholly depend on the N-terminal domain

Revealing CO2-fixing SAR11 bacteria in the ocean by Raman-based single-cell metabolic profiling and genomics

The majority of marine microbes remain uncultured, which hinders the identification and mining of CO2-fixing genes, pathways, and chassis from the oceans. Here, we investigated CO2-fixing microbes in seawater from the euphotic zone of the Yellow Sea of China by detecting and tracking their 13C-bicarbonate (13C-HCO3-) intake via single-cell Raman spectra (SCRS) analysis. The target cells were then isolated by Raman-activated Gravity-driven Encapsulation (RAGE), and their genomes were amplified and sequenced at one-cell resolution. The single-cell metabolism, phenotype and genome are consistent. We identified a not-yet-cultured Pelagibacter spp., which actively assimilates 13C-HCO3-, and also possesses most of the genes encoding enzymes of the Calvin-Benson cycle for CO2 fixation, a complete gene set for a rhodopsin-based light-harvesting system, and the full genes necessary for carotenoid synthesis. The four proteorhodopsin (PR) genes identified in the Pelagibacter spp. were confirmed by heterologous expression in E. coli. These results suggest that hitherto uncultured Pelagibacter spp. uses light-powered metabolism to contribute to global carbon cycling