Abstract
Using a rapid purification scheme, we have isolated from calf thymus cells two single strand-specific DNA-binding proteins, with apparent molecular masses of 48 and 61 kDa. These proteins remained undetected in earlier studies on DNA-binding proteins from calf thymus because they are extremely sensitive to proteolytic breakdown occurring during purification. The proteins are immunologically and biochemically related. They also share a number of functional properties. Both proteins bind noncooperatively to single-stranded DNA and almost totally ignore double-stranded DNA. Both proteins stimulate DNA synthesis catalyzed by mammalian DNA polymerase alpha in the presence of an excess of "activated" DNA as primer-template. The stimulation factor was between 2 and 100 depending on the protein/DNA ratio. We have analyzed this effect in more detail with specifically primed single-stranded phage fd DNA as template and concluded that the proteins block nonproductive polymerase-binding sites on single-stranded DNA sequences, thereby increasing the probability for an association of polymerase with 3'-OH primer ends.
Highlights
Using a rapid purification scheme, we have isolated due to properties of the SSB protein-DNA complex [9] and from calf thymuscells two singsletrand-specific DNA- not to a direct interaction of SSB proteins with the polymbinding proteins, with apparent molecular masses of erase
We discovered in calf thymus cells two new SSB proteins
DNA polymerase a [21, 22]; (ii) the SSB proteins could hold from previous work [25, 26], we found a severe inhibition of the single-stranded DNA sections in an extended configura- DNA synthesis by competing single-stranded DNA
Summary
We discovered in calf thymus cells two new SSB proteins These SSBproteins have apparent molecular masses of 48 and 61 kDa. The two proteins are biochemically and immunologically related. The two proteins are biochemically and immunologically related They share immunological properties with a calf thymus SSB protein of molecular mass 25 stimulation factor was between 2 and 100 depending kDa, probably corresponding to the previously described UP on the protein/DNA ratio. We have analyzed this effect 1 protein (I), suggesting that the latter may be a derivative in more detail with specificallyprimed single-stranded of the 48- or 61-kDa SSB protein.
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