Regulation of Pichinde virus replication in Vero and BHK-21 cells P. R. YoungS. R. LeeC. R. Howard OriginalPaper Pages: 63 - 66
Photodynamic inactivation of Junin virus M. Fernández CoboE. L. PasianZ. M. de Martinez Segovia OriginalPaper Pages: 67 - 69
Molecular and topographic analysis of the glycoproteins of lymphocytic choriomeningitis virus M. J. BuchmeierP. J. SouthernM. B. A. Oldstone OriginalPaper Pages: 71 - 72
Some biochemical properties of Lassa virus RNA and polypeptides I. S. LukashevichN. N. LemeshkoE. P. Stcheslyenok OriginalPaper Pages: 73 - 77
Ribonucleoprotein complexes associated with virions of Pichinde virus and Pichinde virus-infected cells P. R. YoungC. R. Howard OriginalPaper Pages: 79 - 83
Cross reactivity between Junin and Tacaribe viruses as determined by neutralization test and immunoprecipitation E. B. DamonteS. E. MersichC. E. Coto OriginalPaper Pages: 85 - 88
Viral nucleoprotein can be demonstrated on the surface of lymphocytic choriomeningitis virus-infected cells W. ZellerM. BrunsF. Lehmann-Grube OriginalPaper Pages: 89 - 92
Expression of Lassa virus nucleocapsid gene fragments in bacteria J. C. S. CleggG. N. BarberJ. D. Oram OriginalPaper Pages: 93 - 95
Dissecting the molecular anatomy of persistent infection with lymphocytic choriomeningitis virus V. ValsamakisP. SouthernM. B. A. Oldstone OriginalPaper Pages: 97 - 99
Studies on the mechanism of lymphocytic choriomeningitis virus homologous interference M. BrunsW. ZellerF. Lehmann-Grube OriginalPaper Pages: 101 - 104
Analysis of lymphocytic choriomeningitis virus gene expression in acutely and persistently infected mice S. J. FrancisM. K. SinghP. J. Southern OriginalPaper Pages: 105 - 108
Relationship between Junin virus infection of thymus and the establishment of persistence in rodents M. A. CalelloR. D. RabinovichM. C. Weissenbacher OriginalPaper Pages: 109 - 112
Antiviral antibody production in parenchymatous organs of lymphocytic choriomeningitis virus carrier mice. Enumeration of antibody-producing cells and immunohistochemical investigation of mononuclear cell infiltrates D. MoskophidisJ. LöhlerF. Lehmann-Grube OriginalPaper Pages: 113 - 116
Perturbation of endocrine functions during persistent infection of mice with lymphocytic choriomeningitis virus L. S. KlavinskisM. B. A. Oldstone OriginalPaper Pages: 117 - 119
The dual role of lymphocytic choriomeningitis virus-specific antibodies A. R. ThomsenO. MarkerM. Volkert OriginalPaper Pages: 121 - 124
Mechanism of action of cyclosporine A on the lymphocytic choriomeningitis virus infection of mice M. -F. SaronB. ShidaniP. Truffa-Bachi OriginalPaper Pages: 125 - 128
The effect of lymphocytic choriomeningitis virus-induced suppression of the delayed-type hypersensitivity reaction on virus clearance and pathogenicity O. MarkerA. R. Thomsen OriginalPaper Pages: 129 - 131
Studies concerning the relationship of Pichinde virus-induced natural killer cells and cytotoxic T lymphocytes K. L. RosenthalC. SteinerC. M. Walker OriginalPaper Pages: 133 - 136
Induction of allospecific and virus-specific memory cytotoxic T cells during acute arenavirus infections H. YangR. M. Welsh OriginalPaper Pages: 137 - 139
Numbers of cytolytic T lymphocytes (CTL) and CTL precursor cells in spleens of mice acutely infected with lymphocytic choriomeningitis virus U. Assmann-WischerD. MoskophidisF. Lehmann-Grube OriginalPaper Pages: 141 - 143
Questionable role of mononuclear phagocytes in the elimination of lymphocytic choriomeningitis virus from spleens of acutely infected mice F. Lehmann-GrubeU. Assmann-WischerD. Moskophidis OriginalPaper Pages: 145 - 148
Progressive extension of the endemic area and changing incidence of Argentine Hemorrhagic Fever J. MaizteguiM. FeuilladeA. Briggiler OriginalPaper Pages: 149 - 152
Clinical, epidemiologic, and therapeutic aspects of Lassa fever J. B. McCormick OriginalPaper Pages: 153 - 155
Evolutionary biology of a Lassa virus complex J. -P. GonzalezA. J. GeorgesJ. B. McCormick OriginalPaper Pages: 157 - 159
Serological and biological evidence that Lassa-complex arenaviruses are widely distributed in Africa M. P. KileyR. SwanepoelJ. B. McCormick OriginalPaper Pages: 161 - 163
Serology and virulence diversity among Old-World arenaviruses, and the relevance to vaccine development P. B. JahrlingC. J. Peters OriginalPaper Pages: 165 - 167
Heterogeneity of Junin virus strains R. H. KenyonK. T. McKee Jr.C. J. Peters OriginalPaper Pages: 169 - 172
Current status of the treatment of Argentine Hemorrhagic Fever D. EnríaS. G. FrancoJ. Maiztegui OriginalPaper Pages: 173 - 176
Damage of human polymorphonuclear leukocytes by Junin virus R. P. LaguensP. H. GonzalezJ. Chambo OriginalPaper Pages: 177 - 180
Use of monoclonal antibody for the detection of Lassa virus antibody and antigen in patients with Lassa fever H. SchmitzH. -R. Wolf OriginalPaper Pages: 181 - 182
Effect of Ribavirin and immune serum on Junin virus-infected primates M. C. WeissenbacherM. M. AvilaM. Rodriguez OriginalPaper Pages: 183 - 186
Splenic dendritic cells and Junin virus R. M. LaguensJ. G. ChambóR. P. Laguens OriginalPaper Pages: 187 - 189
The use of lymphocytic choriomeningitis virus reassortants to map viral genes causing virulence Y. RiviereR. AhmedM. B. A. Oldstone OriginalPaper Pages: 191 - 192
Characteristics of the inflammatory process in murine lymphocytic choriomeningitis P. C. DohertyN. A. BowernJ. E. Allan OriginalPaper Pages: 193 - 195
Production or prevention of neurologic disease by continuous lines of arenavirus-specific cytotoxic T lymphocytes G. A. Cole OriginalPaper Pages: 197 - 199
Cloned cytotoxic T cells specific for lymphocytic choriomeningitis virus induce acute disease and primary footpad swelling in infected mice J. BaenzigerH. HengartnerR. M. Zinkernagel OriginalPaper Pages: 201 - 203
Lymphocytic choriomeningitis virus-induced disease of the central nervous system and the “antigen-sink” hypothesis D. C. PevearF. MelioC. J. Pfau OriginalPaper Pages: 205 - 208
Studies on immunity to lymphocytic choriomeningitis virus R. M. ZinkernagelTh. LeistL. Stitz OriginalPaper Pages: 209 - 211
Neurochemical changes in brains of mice infected with Pichinde virus A. D. T. BarrettJ. A. JohnsonG. R. Taylor OriginalPaper Pages: 213 - 215