Poliovirus metabolism and the cytoskeletal framework: detergent extraction and resinless section electron microscopy.

AUTOR(ES)

Weed, H G

RESUMO

The association of poliovirus metabolism with the cytoskeleton was investigated. Infected cells were extracted by using the nonionic detergent Triton X-100 in the physiological cytoskeleton buffer. The skeletal framework obtained was examined by transmission electron microscopy of resinless sections. The fibers of the framework were grossly distorted in infected cells. No virions or procapsids were seen but many virus-specific spheroidal bodies were associated with the framework. They had a diameter of 40 to 70 nm, were characterized by a dense core and a translucent periphery, and occurred in strings, often near the remnants of flattened vesicles. These spheres may correspond to virus-synthesizing bodies. The metabolism of poliovirus RNA was shown to be associated with the skeletal framework by pulse-labeling cells with [3H]uridine and measuring the RNA retained on the framework. 20S double-stranded RNA, a form of poliovirus RNA found only in the replication complex, was attached to the skeleton throughout a 60-min pulse-label. 35S single-stranded viral RNA, a form found in virions, in polyribosomes, and in the replication complex, appeared first on the framework but after a few minutes was also found in the soluble cytoplasmic phase, encapsidated in virions. In contrast to viral RNA, viral proteins exhibited a varied association with the skeletal framework. Viral proteins were pulse-labeled with [35S]methionine and chased with unlabeled methionine. Although all of the virus-specific proteins were found, to some extent, in the skeletal fraction, the derivatives of P2 (P2-X and P2-5) and a derivative of P3 (P3-2) showed a preferential association with the skeletal framework. Virions and procapsids, on the other hand, were not associated with the cytoskeleton; both they and their component proteins (P1-VP0, P1-VP1, P1-VP2, and P1-VP3) were found dominantly in the soluble cytoplasmic phase. The pathway of poliovirus assembly can be inferred from the above data. It is different from that found previously for the enveloped vesicular stomatitis virus and may be representative of encapsidated cytoplasmic virus assembly.

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