Biochemical properties of the 145,000-dalton super-T antigen from simian virus 40-transformed BALB/c 3T3 clone 20 cells |
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Authors: | F Chaudry G J Belsham A E Smith |
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Abstract: | SV3T3 C120 cells contain a 145,000-dalton form of simian virus 40 (SV40) super-T antigen but little if any normal-sized large-T. The subcellular location of super-T, its DNA binding properties, and its interaction with nonviral tumor antigen (NVT) were examined. Immunofluorescence microscopy and subcellular fractionation indicated that super-T is almost exclusively nuclear. Chromatography on double-stranded DNA-cellulose showed that super-T binds to double-stranded DNA and has an elution profile indistinguishable from normal-sized large-T. Super-T also binds specifically to a fragment of SV40 DNA which contains the origin of DNA replication. However, immunoprecipitation of super-T or large-T either with anti-tumor cell serum or with anti-NVT serum from fractions obtained by sucrose density centrifugation of 32P-labeled or [35S]methionine-labeled extracts revealed clear differences in the sedimentation characteristics of these proteins. The bulk of labeled 145,000-dalton super-T sedimented between 4S and 10S, whereas the bulk of 32P-labeled large-T from normal SV40-transformed cells sedimented as two peaks at 23S to 25S and 16S to 18S. By contrast, the sedimentation properties of NVT from the SV3T3 C120 cells were similar to those normally observed with other SV3T3 cell lines. The reason for this apparent difference in complex formation between super-T and NVT and that normally observed with large-T is unclear, but it probably has no deleterious effect on the ability of super-T to maintain transformation. |
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