Shermalyn R. Greene

Expression and Self-Assembly of Norwalk Virus Capsid Protein from Venezuelan Equine Encephalitis Virus Replicons

ABSTRACT The Norwalk virus (NV) capsid protein was expressed using Venezuelan equine encephalitis virus replicon particles (VRP-NV1). VRP-NV1 infection resulted in large numbers of recombinant NV-like particles that were primarily cell associated and were indistinguishable from NV particles produced from baculoviruses. Mutations located in the N-terminal and P1 domains of the NV capsid protein ablated capsid self-assembly in mammalian cells.

Evaluation of the NucliSens Basic Kit assay for detection of Norwalk virus RNA in stool specimens.

Abstract Norwalk-like viruses (NLVs) are a genetically diverse group of human caliciviruses that are the most common cause of epidemic gastroenteritis and are detected typically in stool by reverse transcription (RT)-PCR or electron microscopy (EM). The application of a rapid nucleic acid sequence-based amplification (NASBA) assay for the detection of NLV RNA in stool is described using the NucliSens® Basic Kit. Primers and probes for the NLV Basic Kit assay were based on the RNA polymerase region of the prototype NLV, Norwalk virus (NV) genome and could consistently detect 104 RT-PCR detectable units of NV RNA in a stool filtrate. When compared directly with RT-PCR on a dilution series of NV stool filtrate, the NucliSens® Basic Kit assay was equally sensitive. Cross-reactivity studies with a representative panel of other enteric pathogens were negative. When applied to 15 stool specimens from NV-challenged volunteers, the NASBA Basic Kit application for NV detection yielded 100% sensitivity, 50% specificity, and 67% concordance, using RT-PCR as the ‘gold standard’. Despite the specificity of the NASBA primer/probe sequences for NV, other representatives from both NLV genogroups I and II could be detected by the Basic Kit assay in outbreak stool specimens, although the results were inconsistent. Our results suggest that the NucliSens® Basic Kit assay provides a rapid and sensitive alternative to RT-PCR for detecting NV RNA in stool specimens. However, improvements in test specificity and primer design will be needed before the assay can be used routinely in the clinical setting.

Molecular characterization of a chemotaxis operon in the oral spirochete, Treponema denticola

A chemotaxis gene cluster from Treponema denticola (Td), a pathogenic spirochete associated with human periodontal diseases, was cloned, sequenced, and analyzed. The gene cluster contained three chemotaxis (che) genes (cheA, cheW, and cheY) and an open reading frame (cheX) that is homologous with Treponema pallidum (Tp) and Borrelia burgdorferi (Bb) cheX. The Td che genes have the same transcriptional orientation with a sigma 70-like promoter located upstream of cheA and a stem-loop structure characteristic of a Rho-independent transcriptional terminator downstream of cheY. Primer extension analysis identified a transcriptional start point six nucleotides (nt) downstream of the -10 (TAAAAA) promoter sequence. Reverse-transcriptase-polymerase chain reaction (RT-PCR) data indicated that cheA through cheY are co-transcribed and suggested that transcription is terminated after cheY. The gene organization of the Td che operon is identical to that of the Tp che operon. Southern blot analysis indicated the presence of one copy of each che gene on the Td genome. The cheA, cheW, cheX, and cheY genes are 2403, 1332, 462, and 438nt long, respectively, and encode proteins with predicted molecular masses of 88.2, 49.7, 16.8, and 16. 0kDa, respectively. Functional domains of the T. denticola CheA and CheY proteins are highly conserved with those of the Escherichia coli (Ec) CheA and CheY proteins. Phylogenetic analysis of Td CheY indicated that it is closely related to Tp CheY and Bb CheY3.

Identification, Sequences, and Expression of Treponema pallidum Chemotaxis Genes

Treponema pallidum, the agent of syphilis, is a pathogenic spirochete that has no known mechanisms of genetic exchange and cannot be continuously cultivated in vitro. A probe based on the nucleotide sequence of the T. pallidum cheA gene was used to screen a T. pallidum genomic DNA library. A treponemal DNA region containing four open reading frames (orfs) was identified. The proteins encoded by these orfs have significant homology with proteins involved in bacterial chemotaxis. The orfs have been designated cheA, cheW, cheX, and cheY. The cheA, cheW, and cheY genes were individually-cloned and expressed in vitro. The observed molecular mass of each protein correlated well with its predicted molecular mass. Reverse transcriptase-PCR data indicate that cheA through cheY are co-transcribed. The organization of these genes suggests that they comprise an operon. We hypothesize that the ability to sense and respond to nutrient gradients is important for the survival and dissemination of T. pallidum in vivo. The presence of a putative che operon strongly suggests that T. pallidum has the potential for a chemotactic response.