[Electron-microscopic study of potato aucuba mosaic virus].

The results of electron-microscopic investigation of the peculiarities of virus interrelations with cells of mesophyl of the potato leaves, which were infected with potato aucuba mosaic virus (PAMV) are presented. Aggregates of the virus particles have been revealed which are localized in cytoplasm between the cellular organoids and just near the cellular membrane. The significant destructural changes of the structure of chloroplasts and formations of virus-induced inclusions in them are observed. The cells contain cytoplasmic inclusions--round and oval electron-dence formations which are surrounded with a friable membrane. They occupy the large zones of cytoplasm, that is a typical sign of PAMV infection.

Effect of pH, ions, bovine serum albumin and heterologous antisera on the stability of immunosorbed flexuous potato viruses.

Electron microscopic studies on the stability of immunosorbed (trapped) virions of potato viruses X, S and Y0 (PVX, PVS and PVY0) revealed disintegration and dislodging of PVY0 virions upon incubation with (1) antisera to PVX, PVS, or both diluted in saline, (2) 0.86% NaCl (saline) or 0.1 mol/l CaCl2 but not with 0.1 mol/l CaSO4 or 0.1 mol/l MgSO4. PVX virions, on the other hand, showed partial dislodging upon incubation with an antiserum to PVS diluted in saline, but complete disintegration and dislodging with saline. 0.1 mol/l CaCl2 caused partial dislodging while MgCl2, CaSO4 or MgSO4 (all 0.1 mol/l) had no apparent adverse effect. PVS virions were not affected by saline, CaCl2, MgCl2, CaSO4 or MgSO4 (all 0.1 mol/l) and were only partially dislodged by antisera to PVX or PVY0. Disintegration and/or dislodging of the PVX and PVY0 virions was prevented when (1) they were fixed with glutaraldehyde prior to incubation or (2) the virus extract contained bovine serum albumin (BSA) or (3) heterologous antisera were diluted in 0.1 mol/l phosphate buffer (PB) before use except the PVS antiserum which still caused disintegration and dislodging of PVY0 virions. Prior fixation of virions prevented their disruption and dislodging by saline only in the case of PVY0 but not PVX. On the other hand, BSA reverted the adverse effect of saline but not that of the PVS antiserum on PVY0 virions. The results presented here suggest (1) a disruptive effect of Cl' on PVX and PVY0 virions particularly when it was associated with Na+ and (2) an interaction between the immunosorbed virions of PVX or PVY0 and the antiserum to PVS.