[Nuclear factor A5 from the rat liver that requires a metal for specific interaction in vitro with distal element of the tyrosine aminotransferase gene promoter].

To detect nuclear protein factors which might account for a tissue-specific and inducible expression of the rat tyrosine aminotransferase (TAT) gene promoter, extracts from rat liver and spleen nuclei have been fractionated by heparin-sepharose chromatography and the fractions assayed for sequence-specific binding to the distal TAT gene promoter element (sequence between -313 and -210). Gel retardation experiments carried out in the presence or absence of Mg2+, Ca2+, or Zn2+ ions showed that there are at least two nuclear factors (A3 and A4) binding to the distal promoter element only in the presence of the chelator (20 mM EDTA). Incubation of the protein fractions with Zn2+ or Ca2+ instead of commonly used Mg2+allowed: (i) to avoid 3 2P-DNA-probe degradation by "contaminating" endogenous nucleases; and (ii) to detect another sequence-specific nuclear factor, A5. No other specific binding activities were found in the rat-liver nuclear fractions tested under these conditions. As the metal ions became inaccessible to chelation in excess of EDTA and EGTA when protein factor A5 was complexed to DNA we assumed that factor A5 is metalloprotein which requires Zn or Ca to maintain a structure of its DNA-binding domain. To identify the polypeptide possessing this domain, a protein gel blotting procedure was employed. By incubating gel blots with the 3 2P-DNA-probe in the buffer containing Zn2+, specific binding to the only polypeptide with approximate Mr 30 kDa was clearly revealed. Both gel retardation and gel blotting assays consistently showed that nuclear factor A5 is present in the liver, but not in the spleen extracts.