A YEAST GENE-PRODUCT, G4P2, WITH A SPECIFIC AFFINITY FOR QUADRUPLEX NUCLEIC-ACIDS

G4 nucleic acids are quadruplex structures involving guanine-rich sequences that form in vitro under moderate conditions. Experimental evidence exists supporting biological functions for these elements; however, direct demonstration of G4 nucleic acids in vivo has not yet been achieved, Here we purify and characterize a yeast protein, G4p2, which has a specific affinity for G4 nucleic acids, G4p2 binds equivalently to RNA and DNA in G4 form. The K-eq for G4p2 binding to a G4 DNA oligomer is 2.2 x 10(8) M(-1) under near physiological conditions, We have cloned and sequenced the gene encoding G4p2 and have shown it to be identical to MPT4 and STO1, MPT4 was isolated in a screen for multicopy suppressors of staurosporine sensitivity in POP2 cells, Pop2 is a complex regulatory factor that participates, in part, in the repression of certain genes in the absence of glucose (Sakai, A., Chibazakura, T., Shimizu, Y., and Hishinuma, F. (1992) Nucleic Acids Res. 20, 6227-6233), STO1 was isolated as a multicopy suppressor of TOM1, an uncharacterized mutation that leads to temperature sensitive cell cycle arrest at the G2/M boundary, Suppression of these mutations by G4p2 indicate this G4 nucleic acid binding protein may function in signal transduction pathways regulated by protein kinases, which control carbon source utilization, and in cell cycle progression.