Chemosphere 1998 Apr 01;3610:2367-73. doi: 10.1016/s0045-6535(97)10205-3.

Differential effects of heavy metals on the binding of Xenopus upstream binding factor(xUBF) to DNA.

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Xenopus upstream binding factor (xUBF) is a transcription factor for RNA polymerase I which contains multiple DNA-binding motifs. Among these DNA-binding motifs, HMG box I is essential for promoting RNA polymerase I-dependent rRNA gene transcription. Gel shift assay indicated that the binding of recombinant HMG box I to a 136-bp linear DNA probe was significantly inhibited by Cd2+ at 1 microM. The formation of larger protein-DNA complexes was particularly sensitive to Cd2+. The interaction between HMG box I and DNA was completely inhibited by 10 microM of Cd2+, yet this interaction was not inhibited by the same concentration of Ca2+. Hg2+ at 0.1 microM began to cause abnormal band shifting, and protein-DNA bands disappeared to the wells of a polyacrylamide gel in the presence of 10 microM of Hg2+, reflecting that a drastic change in the conformation of HMG box I-DNA had occurred. The binding of HMG box I to DNA was slightly disturbed by As3+ at 1 microM and was significantly affected at 10 microM. Our results suggest that inhibition of the normal binding of UBF to its target DNA may be one of the mechanisms of heavy metal-induced inhibition of RNA synthesis.

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Species referenced: Xenopus
Genes referenced: ubtf