Botulinum neurotoxins (BoNTs) are synthesized by Clostridium botulinum and exist as seven immunologically distinct serotypes designated A through G. For most serotypes, several subtypes have now been described based on nominal differences in the amino acid sequences. BoNT/A1 is the most well-characterized subtype of the BoNT/A serotype, and many of its properties, including its potency, its prevalence as a food poison, and its utility as a pharmaceutical, have been thoroughly studied. In contrast, much remains unknown of the other BoNT/A subtypes. In this study, BoNT/A subtype 1 (BoNT/A1) to BoNT/A5 were characterized utilizing a mouse bioassay, an in vitro cleavage assay, and several neuronal cell-based assays. The data indicate that BoNT/A1 to -5 have distinct in vitro and in vivo toxicological properties and that, unlike those for BoNT/A1, the neuronal and mouse results for BoNT/A2 to -5 do not correlate with their enzymatic activity. These results indicate that BoNT/A1 to -5 have distinct characteristics, which are of importance for a greater understanding of botulism and for pharmaceutical applications.
Extraction and purification of DNA is a prerequisite to detection and analytical techniques. While DNA sample preparation methods have improved over the last few decades, current methods are still time consuming and labor intensive. Here we demonstrate a technology termed IFAST (Immiscible Filtration Assisted by Surface Tension), that relies on immiscible phase filtration to reduce the time and effort required to purify DNA. IFAST replaces the multiple wash and centrifugation steps required by traditional DNA sample preparation methods with a single step. To operate, DNA from lysed cells is bound to paramagnetic particles (PMPs) and drawn through an immiscible fluid phase barrier (i.e. oil) by an external handheld magnet. Purified DNA is then eluted from the PMPs. Here, detection of Clostridium botulinum type A (BoNT/A) in food matrices (milk, orange juice), a bioterrorism concern, was used as a model system to establish IFAST's utility in detection assays. Data validated that the DNA purified by IFAST was functional as a qPCR template to amplify the bont/A gene. The sensitivity limit of IFAST was comparable to the commercially available Invitrogen ChargeSwitch® method. Notably, pathogen detection via IFAST required only 8.5 μL of sample and was accomplished in five-fold less time. The simplicity, rapidity and portability of IFAST offer significant advantages when compared to existing DNA sample preparation methods.
Using a transfer plasmid pSXIVVI+X3/4 with an initiation codon, an occuluded recombinant Trichoplusia ni nuclear polyhedrosis virus carrying a HBcAg fusion gene under the control of the SynVIX promoter, fusion of the synthric and linker-modified polyhedrin promoters, has been constructed, the fusion gene consists of nucleotide sequences of polyliners, truncated HBcAg coding region and part of baculovirus DNA. Analysis of infectec cellular proteins on SDS-PAGE showed that the molecuar weight of the expressed protein was 20.5ID, which was equivalent to the value calculated from the predicted amino-acid sequence, The fusion protein could be identified by Western blotting with a HBcAg monoclonal antibody, which was also able to self-as-semble into core-like particles as confirmed by electron microscopy, The multiple colong sites at both ends of the trunvated HBcAg sequence in the plasmid construct allows the expression of synthetic oligonucleotides coding for immunogenic epitopes linked to the N and /or terminus of the HBcAg protein, thus forming a particle-like complex.
Botulinum neurotoxins (BoNTs) naturally exist as components of protein complexes containing nontoxic proteins. The nontoxic proteins impart stability of BoNTs in the gastrointestinal tract and during purification and handling. The two primary neurotoxin complexes (TCs) are (i) TC1, consisting of BoNT, nontoxin-nonhemagglutinin (NTNH), and hemagglutinins (HAs), and (ii) TC2, consisting of BoNT and NTNH (and possibly OrfX proteins). In this study, BoNT/A subtypes A1, A2, A3, and A5 were examined for the compositions of their TCs in culture extracts using immunoprecipitation (IP). IP analyses showed that BoNT/A1 and BoNT/A5 form TC1s, while BoNT/A2 and BoNT/A3 form TC2s. A Clostridium botulinum host strain expressing recombinant BoNT/A4 (normally present as a TC2) from an extrachromosomal plasmid formed a TC1 with complexing proteins from the host strain, indicating that the HAs and NTNH encoded on the chromosome associated with the plasmid-encoded BoNT/A4. Strain NCTC 2916 (A1/silent B1), which carries both an ha silent bont/b cluster and an orfX bont/a1 cluster, was also examined. IP analysis revealed that NCTC 2916 formed only a TC2 containing BoNT/A1 and its associated NTNH. No association between BoNT/A1 and the nontoxic proteins from the silent bont/b cluster was detected, although the HAs were expressed as determined by Western blotting analysis. Additionally, NTNH and HAs from the silent bont/b cluster did not form a complex in NCTC 2916. The stabilities of the two types of TC differed at various pHs and with addition of KCl and NaCl. TC1 complexes were more stable than TC2 complexes. Mouse serum stabilized TC2, while TC1 was unaffected.
ABSTRACT Clostridium botulinum subtype A2 possesses a botulinum neurotoxin type A (BoNT/A) gene cluster consisting of an orfX cluster containing open reading frames (ORFs) of unknown functions. To better understand the association between the BoNT/A2 complex proteins, first, the orfX cluster proteins (ORFX1, ORFX3, P47, and the middle part of NTNH) from C. botulinum A2 strain Kyoto F and NTNH of A1 strain ATCC 3502 were expressed by using either an Escherichia coli or a C. botulinum expression system. Polyclonal antibodies against individual orfX cluster proteins were prepared by immunizing a rabbit and mice against the expressed proteins. Antibodies were then utilized as probes to determine which of the A2 orfX cluster genes were expressed in the native A2 culture. N-terminal protein sequencing was also employed to specifically detect ORFX2. Results showed that all of the neurotoxin cluster proteins, except ORFX1, were expressed in the A2 culture. A BoNT/A2 toxin complex (TC) was purified which showed that C. botulinum A2 formed a medium-size (300-kDa) TC composed of BoNT/A2 and NTNH without any of the other OrfX cluster proteins. NTNH subtype-specific immunoreactivity was also discovered, allowing for the differentiation of subtypes based on cluster proteins associated with BoNT.
ABSTRACT The Autographa californica multicapsid nucleopolyhedrovirus (Ac M NPV) lef-6 gene was previously shown to be necessary for optimal transcription from an Ac M NPV late promoter in transient late expression assays. In the present study, we examined the expression and cellular localization of lef-6 during the Ac M NPV infection cycle and generated a lef-6 -null virus for studies of the role of lef-6 in the infection cycle. Transcription of lef-6 was detected from 4 to 48 h postinfection, and the LEF-6 protein was identified in dense regions of infected cell nuclei, a finding consistent with its potential role as a late transcription factor. To examine lef-6 in the context of the Ac M NPV infection cycle, we deleted the lef-6 gene from an Ac M NPV genome propagated as an infectious BACmid in Escherichia coli . Unexpectedly, the resulting Ac M NPV lef-6 -null BACmid (vAc lef6KO ) was able to propagate in cell culture, although virus yields were substantially reduced. Thus, the lef-6 gene is not essential for viral replication in Sf9 cells. Two “repair” Ac M NPV BACmids (vAc lef6KO-REP-P and vAc lef6KO-REP-ie1P ) were generated by transposition of the lef-6 gene into the polyhedrin locus of the vAc lef6KO BACmid. Virus yields from the two repair viruses were similar to those from wild-type Ac M NPV or a control (BACmid-derived) virus. The lef-6 -null BACmid (vAc lef6KO ) was further examined to determine whether the deletion of lef-6 affected DNA replication or late gene transcription in the context of an infection. The lef-6 deletion did not appear to affect viral DNA replication. Using Northern blot analysis, we found that although early transcription was apparently unaffected, both late and very late transcription were delayed in cells infected with the lef-6 -null BACmid. This phenotype was rescued in viruses containing the lef-6 gene reinserted into the polyhedrin locus. Thus, the lef-6 gene was not essential for either viral DNA replication or late gene transcription, but the absence of lef-6 resulted in a substantial delay in the onset of late transcription. Therefore, lef-6 appears to accelerate the infection cycle of Ac M NPV.
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