J Biol Chem 1988 Nov 15;26332:17136-41.

Xenopus transcription factor IIIA-dependent DNA renaturation.

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Kinetic and titration analyses are used to elucidate the mechanism by which Xenopus transcription factor IIIA (TFIIIA), a protein required for 5 S RNA synthesis by RNA polymerase III, promotes DNA renaturation. TFIIIA promotes 50% renaturation of complementary strands (303 bases) in 45 s. Analyses of the renaturation kinetics indicate the rate-limiting step in this TFIIIA-dependent reaction is first order. TFIIIA-dependent DNA renaturation is a stoichiometric rather than a catalytic process. The renaturation rates for specific and nonspecific DNA are very similar, indicating lack of sequence specificity in this TFIIIA-dependent process. In the nanomolar concentration range of protein and DNA, renaturation occurs at a ratio of about one TFIIIA molecule/single strand (303 bases). Elevated reaction temperatures strongly stimulate TFIIIA-dependent DNA renaturation; at 45 degrees C, renaturation of the 303-base pair fragment nears completion in about 5 s. The ability of TFIIIA to rapidly promote DNA renaturation is unique when compared with Escherichia coli recA protein, single-stranded DNA binding protein, or bacteriophage T4 gene 32 protein. This mechanism by which TFIIIA promotes DNA renaturation is compatible with features of 5 S RNA gene transcription.

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Species referenced: Xenopus laevis
Genes referenced: gtf3a rad51