Keyword [West nile virus]
Result: 21 - 40 | Page: 2 of 3 |
| 21. | Avian immune responses to feed restriction and West Nile virus |
| 22. | Bioinformatic approaches to study recombination in West Nile virus |
| 23. | Functional analysis of flavivirus methyltransferase using an improved infectiouscDNA clone of West Nile virus |
| 24. | Relationships between landscape pattern and land surface temperature and their applications to the study of West Nile Virus: As case studies in cities of Indianapolis and Chicago, United States |
| 25. | Analysis of the cellular proteins, TIA-1 and TIAR, and their interaction with the West Nile virus (WNV) 3' SL minus-strand RNA |
| 26. | The molecular basis of antibody-mediated neutralization of West Nile virus |
| 27. | Mechanisms of West Nile virus pathogenesis in the central nervous system |
| 28. | Prevalence of antibodies to West Nile Virus in selected farm animals in central Oklahoma |
| 29. | Identification of Amino Acid Residues Critical for TLR3 Inhibition by the Multifunctional West Nile Virus NS1 Protein |
| 30. | Ecology and epidemiology of West Nile virus in Mississippi |
| 31. | The use of human monoclonal antibodies to study the structure and function of the West Nile virus prM protein |
| 32. | West Nile virus activity in roosting areas of the fish crow (Corvus ossifragus) |
| 33. | A GIS model for predicting potential 'high risk' areas of West Nile virus by identifying ideal mosquito breeding habitats |
| 34. | Genetic variation of the American crow (Corvus brachyrhynchos) and the emergence of West Nile virus |
| 35. | Quantitative support for a theory of West Nile virus transmission using spatio-temporal modeling |
| 36. | An analytical study of the perceptions, prevention strategies, treatment and economic impact of equine West Nile virus |
| 37. | Study of intracellular innate immune response components in West Nile virus infected cells |
| 38. | The pathogenesis of West Nile virus in dogs, cats, and house sparrows |
| 39. | Dynamics of West Nile virus evolution during infection of wild birds, mosquitoes, and the human brain: Unraveling the complexities of selection, drift, and fitness |
| 40. | Spatially explicit modeling of West Nile virus risk using environmental data |
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