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J Virol. 1969 October; 4(4): 356-363
Copyright © 1969 American Society for Microbiology. All Rights Reserved.

Chromatography of Arbovirus Ribonucleic Acid Forms on Columns of Benzoylated-Diethylaminoethyl Cellulose

Laboratory of Biochemistry, Cell Biology Section, National Institute of Dental Research, and Laboratory of Pathology, National Cancer Institute, National Institutes of Health, Bethesda, Maryland 20014

ABSTRACT

Benzoylated-diethylaminoethyl cellulose (BD-cellulose) column chromatography was found to be useful in resolving most of the ribonucleic acid (RNA) forms from the replicative cycle of group A arbovirus Semliki Forect virus (SFV). The elution patterns were independent of molecular weight and appeared to be related to the degree of secondary structure in the molecule. Fractions of RNA were taken from a sucrose density gradient of cytoplasmic extracts of SFV-infected chick cells pretreated with actinomycin D. In a linear salt gradient, 16S material cochromatographed with the rapidly eluted ribonuclease resistant core of the double-stranded SFV-RNA and with the homopolymer duplex polyinosinic acid: polycytidylic acid. This fraction, therefore, probably contains an SFV-RNA form similar to the completely double stranded replicative form (RF) of several RNA viruses and bacteriophages. Faster moving (>20S) sucrose gradient fractions eluted more slowly, suggesting a decreasing proportion of secondary structure with increasing sedimentation value. The fractions, therefore, seemed to contain replicative intermediate (RI) structures. The two single stranded forms of SFV-RNA (42S and 26S) could only be eluted from BD-cellulose in the presence of urea or dimethyl sulfoxide, suggesting the presence of minimal secondary structure. Under these conditions, the single-stranded viral RNA forms could not be resolved. Molecular sieve chromatography of the single-stranded RNA forms, performed by passage through an agarose column, also failed to resolve these forms. The viral RNA forms containing a high degree of secondary structure, probably the RF and the RI, could, therefore, be rapidly separated from each other and from the single-stranded forms.