Population statistics and biological traits of Hippodamia variegata (Goeze) (Coleoptera: Coccinellidae) affected by LC30 of thiamethoxam and pirimicarb

Although selective pesticides are recommended to use in integrated pest management (IPM) programmes, they could adversely affect biological agents. So, the aim of the current study was to investigate the LC₃₀ of pirimicarb and thiamethoxam on Hippodamia variegata. Two pesticides, pirimicarb and thiamethoxam, when applied at concentrations of 1522.8 and 251.3?mg (ai)/L, respectively, on the third instar larvae of the insect, produced 30% mortality. Also, results showed that neither pirimicarb nor thiamethoxam affect stage age distribution (c_x), fecundity (eggs/female) and adult development time. These two pesticides extended preadult duration significantly (p?<?0.0001, F?=?31.22, df?=?122). Also, survival rate (l_x) and age-specific reproductive value (v_x) decreased and some changes in age-specific life expectancy (e_x) happened. Generally, more adverse effects were found in the population treated by thiamethoxam. The results showed that pirimicarb and thiamethoxam have potential to harm the predatory ladybird in IPM programme, though in sublethal doses.     

Construction and eukaryotic expression of recombinant large hepatitis delta antigen

Background:

Hepatitis delta virus (HDV) is a subviral human pathogen that exploits host RNA editing activity to produce two essential forms of the sole viral protein, hepatitis delta antigen (HDAg). Editing at the amber/W site of HDV antigenomic RNA leads to the production of the large form (L-HDAg), which is required for RNA packaging.

Methods:

In this study, PCR-based site-directed mutagenesis by the overlap extension method was used to create the point mutation converting the small-HDAg (S-HDAg) stop codon to a tryptophan codon through three stages.

Results:

Sequencing confirmed the desirable mutation and integrity of the L-HDAg open reading frame. The amplicon was ligated into pcDNA3.1 and transfected to Huh7 and HEK 293 cell lines. Western blot analysis using enhanced chemiluminescence confirmed L-HDAg expression. The recombinant L-HDAg localized within the nuclei of cells as determined by immunofluorescence and confocal microscopy.

Conclusion:

Because L-HDAg requires extensive post-translational modifications, the recombinant protein expressed in a mammalian system might be fully functional and applicable as a tool in HDV molecular studies, as well as in future vaccine research.Key Words: Hepatitis Delta Virus, L-HDAg, SOEing-PCR     

Loop-Mediated Isothermal Amplification Combined with PCR for Rapid Identification of the Ethiopian Fruit Fly (Diptera: Tephritidae)

Nowadays, with increasing trend of trans-boundary transportation of agricultural products and higher probability of introduction of many invasive species into new areas, fast and precise species diagnosis is of great significance particularly at the port of entry, where morphological identification often requires adult insect specimens especially with specialist insects. The cucumber fruit fly, Dacus ciliatus Loew (Diptera: Tephritidae), ranks as one of the most destructive agricultural pests attacking mainly fruits of Cucurbitaceae. This pest is also widespread and highly invasive; thus, it is a high priority for pest detection and quarantine programs. Although cucumber fruit fly adults can usually be identified and distinguished from the other species by morphological keys, it is often difficult or impossible to distinguish this species from the other tephritids that share host plants by using material from other stages of development. In such situations, using a quick and robust alternative species diagnostic tool would be valuable. In this study, we assessed a technique combining loop-mediated isothermal amplification (LAMP) with PCR (PCR-LAMP) for the rapid detection and discrimination of cucumber fruit fly DNA from some other common tephritid species attacking Cucurbitaceae, using material from different stages of development. The described method was species-specific and sensitive and provided a rapid diagnostic tool to detect D. ciliaus even by non-experts.     

Cyanobacterial mats from hot springs produce antimicrobial compounds and quorum-sensing inhibitors under natural conditions

Polar (water) and non-polar (ethyl acetate) extracts from the cyanobacterial layer (top 1–3 mm) of four hot spring microbial mats in the Sultanate of Oman were tested for their antibacterial, antidiatom and quorum-sensing inhibitory activities under natural conditions. The chemical composition of the active extracts was analysed using gas chromatography–mass spectrometry (GC-MS). Cyanobacteria within these mats were identified by direct microscopy while the total bacterial community composition was compared using automated ribosomal intergenic spacer analysis (ARISA). Only the extracts from Bowshar and Nakhl mats showed antibacterial properties against Bacillus sp., Micrococcus luteus, Shigella sonnei, Salmonella enterica and Klebsiella pneumoniae. All tested extracts inhibited the growth of the benthic diatom Amphora coffeaeformis. Extracts from Bowshar, Rustaq and Nakhl inhibited quorum-sensing of the reporter strains Chromobacterium violaceum CV017 and Agrobacterium tumefaciens NTL4. The highest bioactivity was recorded for ethyl acetate extracts from Nakhl mats, which had the lowest number of operational taxonomic units (OTUs). Using GC-MS, 74 chemical compounds were obtained, however with different distribution among the four mat extracts (similarity < 43%). Various cyanobacteria, belonging mainly to Chroococcus, Phormidium, Leptolyngbya, Spirulina and Lyngbya were detected in the different mats, and each mat had its unique bacterial community, as confirmed by ARISA profiles. We conclude that antimicrobial and quorum-sensing inhibitory compounds can be produced by hot spring mat microorganisms under natural conditions and the differences in these compounds could be attributed to the differences in the mats’ bacterial composition as well as the physical–chemical conditions of the springs.     

Comparative genomics of Fusarium oxysporum f. sp. melonis strains reveals nine lineages and a new sequence type of AvrFom2

Fusarium oxysporum f. sp. melonis (Fom) is one of the most important pathogens of melon worldwide. In this study, we investigated the genomic diversity of Fom. One of the aims was to find clues for the origin(s) and dispersal of clonal lineages and races of Fom. We therefore included a large number of Fom strains from Iran, where melon has been cultivated for at least 5000 years. In 33 new genome sequences of Fom strains from different geographical regions of Iran and across the world, 40 new candidate effector genes were identified. Presence/absence of candidate effector genes and phylogenetic analyses resolved nine Fom lineages. The presence of a highly similar set of effector genes in some distant lineages is suggestive of horizontal chromosome transfer, a process known to occur in the Fusarium oxysporum species complex. Race 1.2, which breaks both Fom1 and Fom2 resistance genes, occurs in three of the nine lineages, two of which are predominant in Iran. We also identified a new sequence type of the AVRFom2 avirulence gene in one lineage. Expression of this sequence type during melon infection and genetic complementation suggest that this sequence type is not recognized by the Fom2 resistance protein.     

Comparison of susceptibility of two populations of Tetranychus urticae Koch to two acaricides,abamectin and propargite

The spider mite, Tetranychus urticae Koch is a serious pest of economically important plants in closed and open area worldwide. The spider mite resistance to acaricide plays a major role in the failure of the chemical control method. Thus, the aim of the current study was to evaluate the efficacy of two acaricides, abamectin and propargite, against two populations (strains) of the spider mite. Results showed that LC₅₀s of the abamectin against susceptible and resistant strains of the spider mite were 0.1 and 2730?ppm, respectively. Whilst LC₅₀s of the propargite against susceptible and resistant strains of the spider mite were 55 and 7199?ppm, respectively. Resistance ratio (RR) calculated as the ratio of resistance LC₅₀/susceptible LC₅₀ showed that RR for abamectin and propargite was 20285 and 130, respectively. The enzyme assay results showed that three mechanisms of MFO, GST and EST are involved in the abamectin resistance of the spider mite. In gel assays, when α-naphthyl acetate was used as substrate, three bands appeared in the gel in which bands E2 and E3 were major bands and E1 was a minor band confirming that α-naphthyl acetate was a better substrate for general esterase activity in the spider mite whereas β-acetate when used for esterase activity, only two faint bands (E1 and E2) were observed. The order of their involvement in the abamectin resistance is EST?>?MFO?>?GST.     

Unexpected Structural Features of the Hepatitis C Virus Envelope Protein 2 Ectodomain

Hepatitis C virus (HCV), a member of the family Flaviviridae, is a leading cause of chronic liver disease and cancer. Recent advances in HCV therapeutics have resulted in improved cure rates, but an HCV vaccine is not available and is urgently needed to control the global pandemic. Vaccine development has been hampered by the lack of high-resolution structural information for the two HCV envelope glycoproteins, E1 and E2. Recently, Kong and coworkers (Science 342:1090–1094, 2013, doi:10.1126/science.1243876) and Khan and coworkers (Nature 509[7500]:381–384, 2014, doi:10.1038/nature13117) independently determined the structure of the HCV E2 ectodomain core with some unexpected and informative results. The HCV E2 ectodomain core features a globular architecture with antiparallel β-sheets forming a central β sandwich. The residues comprising the epitopes of several neutralizing and nonneutralizing human monoclonal antibodies were also determined, which is an essential step toward obtaining a fine map of the human humoral response to HCV. Also clarified were the regions of E2 that directly bind CD81, an important HCV cellular receptor. While it has been widely assumed that HCV E2 is a class II viral fusion protein (VFP), the newly determined structure suggests that the HCV E2 ectodomain shares structural and functional similarities only with domain III of class II VFPs. The new structural determinations suggest that the HCV glycoproteins use a different mechanism than that used by class II fusion proteins for cell fusion.     

Hybridization of 2'-ribose modified mixed-sequence oligonucleotides: thermodynamic and kinetic studies

In this study, we characterize the thermodynamics of hybridization, binding kinetics and conformations of four ribose-modified (2′-fluoro, 2′-O-propyl, 2′-O-methoxyethyl and 2′-O-aminopropyl) decameric mixed-sequence oligonucleotides. Hybridization to the complementary non-modified DNA or RNA decamer was probed by fluorescence and circular-dichroism spectroscopy and compared to the same duplex formed between two non-modified strands. The thermal melting points of DNA–DNA duplexes were increased by 1.8, 2.2, 0.3 and 1.3°C for each propyl, methoxyethyl, aminopropyl and fluoro modification, respectively. In the case of DNA–RNA duplexes, the melting points were increased by 3.1, 4.1 and 1.0°C for each propyl, methoxyethyl and aminopropyl modification, respectively. The high stability of the duplexes formed with propyl-, methoxyethyl- and fluoro-modified oligonucleotides correlated with high preorganization in these single-strands. Despite higher thermodynamic duplex stability, hybridization kinetics to complementary DNA or RNA was slower for propyl- and methoxyethyl-modified oligonucleotides than for the non-modified control. In contrast, the positively-charged aminopropyl-modified oligonucleotide showed rapid binding to the complementary DNA or RNA.     

Unfolding the unique c-type heme protein, Chlamydomonas reinhardtii cytochrome f

We have studied the unfolding reaction of cytochrome f from the green alga Chlamydomonas reinhardtii. Cytochrome f is different from all other c-type heme proteins in that it is a large, two-domain protein with predominantly beta-sheet structure. Moreover, the sixth axial ligand to the heme-iron is unique in cytochrome f: it is provided by the N-terminal alpha-amino group. Unfolding of oxidized and reduced cytochrome f by guanidine hydrochloride (GuHCl) was monitored by far-UV circular dichroism (CD), Soret absorption, and tyrosine emission: the same unfolding curves were obtained regardless of method. Neither oxidized nor reduced unfolded cytochrome f can be refolded at neutral pH. At pH 3.5 refolding takes place (upon dilution to lower denaturant concentrations or by electron injection to the unfolded, oxidized form), although the reaction is extremely slow. Reduced cytochrome f appears much more resistant towards denaturant perturbation than the oxidized form (in pH range 7-3.5). The heme in unfolded cytochrome f remains low-spin to pH 4 but turns high-spin at pH 3.5 (presumably due to protonation of the N-terminal amino group). Our results suggest that the unfolding process for cytochrome f is complex, involving kinetically trapped intermediates not resolvable by spectroscopy.