Recent Environmental Protection Agency (EPA) decisions regarding resistance management in Bt-cropping systems have prompted concern in some experts that dual-gene Bt-corn (CrylA.105 and Cry2Ab2 toxins) may result in more rapid selection for resistance in Helicoverpa zea (Boddie) than single-gene Bacillus thuringiensis (Bt)-corn (CrylAb toxin). The concern is that Bt-toxin longevity could be significantly reduced with recent adoption of a natural refuge for dual-gene Bt-cotton (CrylAc and Cry2Ab2 toxins) and concurrent reduction in dual-gene corn refuge from 50 to 20%. A population genetics framework that simulates complex landscapes was applied to risk assessment. Expert opinions on effectiveness of several transgenic corn and cotton varieties were captured and used to assign probabilities to different scenarios in the assessment. At least 350 replicate simulations with randomly drawn parameters were completed for each of four risk assessments. Resistance evolved within 30 yr in 22.5% of simulations with single-gene corn and cotton with no volunteer corn. When volunteer corn was added to this assessment, risk of resistance evolving within 30 yr declined to 13.8%. When dual-gene Bt-cotton planted with a natural refuge and single-gene corn planted with a 50% structured refuge was simulated, simultaneous resistance to both toxins never occurred within 30 yr, but in 38.5% of simulations, resistance evolved to toxin present in single-gene Bt-corn (CrylAb). When both corn and cotton were simulated as dual-gene products, cotton with a natural refuge and corn with a 20% refuge, 3% of simulations evolved resistance to both toxins simultaneously within 30 yr, while 10.4% of simulations evolved resistance to CrylAb/c toxin.
Cattle have been recognized as hosts for Amblyomma maculatum, the Gulf Coast tick, for over 100 years. For nearly as long, A. maculatum have been known to harbor the spotted fever group Rickettsia (SFGR), now known as Rickettsia parkeri. However, human infection with R. parkeri was not documented until 2004. Results presented herein describe a laboratory and a field study evaluating cattle and the natural history of A. maculatum and R. parkeri in Mississippi. In the laboratory study, seroconversion to R. parkeri antigen occurred in calves exposed to R. parkeri by injection or by feeding R. parkeri-infected A. maculatum, and two out of six animals were transiently rickettsemic. All calves remained clinically normal during the study, except for gotch ear-like lesions in all tick-infested calves, regardless of infection status of ticks, suggesting that R. parkeri is not involved in the condition. In the field study, A. maculatum (n=34) removed from Mississippi sale barn cattle (n=183) and the cattle hosts were tested for R. parkeri. Cattle were not rickettsemic by polymerase chain reaction, but 49.7% demonstrated low titers to R. parkeri antigen when tested by indirect fluorescent antibody for SFGR. Of ticks removed from cattle, 11.8% were hemolymph positive and 8.7% were indirect fluorescent antibody positive. Approximately 22% (5/23) and 4% (1/23) of harvested tick extracts were positive for R. parkeri by polymerase chain reaction of the 17 kDa antigen gene and ompA gene, respectively. An amplicon for the ompA gene from one tick was successfully sequenced and showed 100% similarity with the homologous sequence of R. parkeri. Thus, cattle may harbor R. parkeri-infected A. maculatum and produce antibodies to SFGR. Cattle may play a role in the natural history of R. parkeri infection by expanding populations of A. maculatum and transporting R. parkeri-infected ticks to various locations, rather than as a reservoir for R. parkeri.
Although a variety of disease agents have been reported from bed bugs, the mechanical and biological disease transmission potential of bed bugs remains unelucidated. In this study we assayed survivability of the mildly pathogenic spotted fever group rickettsia, Rickettsia parkeri, in bed bugs after feeding on R. parkeri-infected chicken blood. Two groups of 15 adult bed bugs each were fed on infected or noninfected blood, and two groups of fourth-instar bed bugs also were fed on either infected or noninfected blood. One group of 15 adult bed bugs received no bloodmeal and was included as an additional control. Two weeks postfeeding, two pools of five live bed bugs from each group were surface sterilized, macerated, and placed in Vero cell cultures in an attempt to grow live organism. The remaining five individual bed bugs from each group were dissected, their salivary glands were removed for immunofluorescence assay (IFA) staining, and the remaining body parts were processed for polymerase chain reaction (PCR) analysis. Results indicated that no immature (now molted to fifth instar) bed bugs were positive for R. parkeri by IFA or PCR, indicating that organisms did not survive the molting process. After 4 wk of cell culture, no organisms were seen in cultures from any of the treatment or control groups, nor were any cultures PCR positive. However, two of the adult bed bugs were IFA positive for rickettsia-like organisms, and these two specimens were also PCR positive using R. parkeri-specific primers. These IFA and PCR results indicate that remnants of Rickettsia parkeri (possibly whole organisms) survived in the bugs for 2 wk, but the viability of the organisms in these two specimens could not be determined.
Cell suppression is the preferred method of DL used by STD prevention programs. More Research is needed to evaluate the effectiveness of this strategy as a means of balancing the public health utility of the data tables and the protection of confidentiality.
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