An investigation of susceptibility of alveolar macrophages to HIV 1 infection

Alimohammadi, Azin

January 2002

No description available.

579

Human immunodeficiency virus

The effects on Langerhans cells and dermal leukocyte populations of agents which trigger herpes simplex reactivation

Manickasingham, Shrivanthi Prithiva

January 1996

No description available.

579

Herpes simplex virus

Characterising the turkey's immune response to an avian pneumovirus and using turkey IL-2 and IFN-#gamma# as vaccine adjuvants

Lawson, Michelle Anne

January 2001

No description available.

636.089

Rhinotracheitis virus; Immunology

The role of Langerhans cells in infection with herpes simplex virus

Williams, N. A.

January 1989

No description available.

610

Herpes simplex virus

Effects of a bacterial toxin on LMP specific CTL killing of EBV transformed B cells : the effect on systemic inflammatory response and clinical outcome

Ong, Kong Wee

January 2002

No description available.

616

Epstein Barr virus

Herpes simplex virus gene expression in establishment and maintenance of latent infection

Laycock, K. A.

January 1988

No description available.

572.8

Genetics of herpes virus

Studies on the epizootiology of feline immunodeficiency virus infection in cats

Hopper, Cherida Dawm

January 1993

No description available.

636.089

AIDS virus in cats

Studies on the major capsid protein L1 of human papillomavirus type 16

Zhang, Wei

January 1996

No description available.

572.8

Virus; HPVs

Nucleotide sequencing studies in Herpes Simplex Virus

Hodgman, T. C.

January 1984

No description available.

572

Herpes virus analysis

BUNYAVIRUS PERSISTENCE IN AEDES ALBOPICTUS CELL CULTURES.

FLORKIEWICZ, ROBERT ZIGMOND.

January 1982

Some viruses which infect plants, animals and man are transmitted by an intermediary arthropod vector. The viruses for which this is true are termed arboviruses (Arthropod-borne-viruses). In many instances the virus delivered to the new host results in the establishment of a disease state and/or the death of the infected host. In all instances, however, the arthropod (invertebrate) vector is apparently unaffected by the virus it is carrying. One family of viruses which are transmitted to their vertebrate host via an arthropod vector is the virus family Bunyaviridae, in this dissertation specifically the viruses Inkoo and Uukuneimi are described. The characteristics of Inkoo and Uukuneimi growth in both vertebrate baby hamster kidney (BHK-21, WI2) and invertebrate Aedes albopictus (mosquito) cell cultures has been examined. Vertebrate cells supported, to a high titer, the growth of both Inkoo and Uukuneimi virus while Aedes albopictus cell cultures supported high titer growth of Inkoo but not Uukuneimi. In both cases, however, the vertebrate cells were killed as a cosequence of infection where as, the invertebrate infection did not result in cell death or in detectable cytopathic effect. The invertebrate cells infected with either Inkoo or Uukuneimi continue to grow and also continue to express virus specific (actinomycin D resistent) RNA synthesis. The virus infected invertebrate cells are characterized as being persistently infected because of their resistence to homologous virus superinfection and by detectable virus specific RNA synthesis. Virus released from the Inkoo persistently infected cells displays a heterogeneous plaque morphology as well as temperature sensitive virus plaque mutants. Virus particles released from the Inkoo persistently infected Aedes albopictus cells are considered defective interfering-like. The RNA profile both intracellularly and of released virus particles from the persistently infected cell cultures is different from that observed during vertebrate cell culture infections. Cell death resulted from infection of BHK-21 WI2 cells with virus from Inkoo persistently infected Aedes albopictus cell cultures. The virus plaque morphology and RNA profile is similar to standard virus infection of BHK-21 WI2 cells. The experiments with tissue culture virus-cell systems aids in understanding the natural transmission of arboviruses between the vertebrate-invertebrate portions of the arbovirus natural life-cycle.

Arboviruses.

Host-virus relationships.