J Biol Chem 1997 Apr 25;27217:10994-7.

Phage display of RNA binding zinc fingers from transcription factor IIIA.

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Zinc fingers in transcription factor IIIA (TFIIIA) contribute differentially to RNA and DNA binding affinity. We investigated whether the same putative alpha-helix amino acids in TFIIIA zinc fingers are essential for both RNA and DNA binding. In published structures, zinc fingers make DNA base contacts through amino acids -1, +2, +3, and +6 of the recognition helix. Alanine substitution at these four positions were made in TFIIIA RNA binding zinc fingers, tz4-7 and DNA binding zinc fingers, tz1-3. Substitution in zinc fingers 4 or 6 of tz4-7 reduced RNA affinity 77- and 38-fold, respectively, whereas substitution in zinc fingers 5 or 7 had little effect. DNA binding affinity of tz1-3 was eliminated by alanine substitution in any one zinc finger. We determined which amino acids supported RNA binding by phage display of a library of zinc finger 4 mutants. Lysine at helix position -1 of zinc finger 4 was conserved in all selected tz4-7 fusions. Point mutation of Lys-1 to alanine in zinc finger 4 reduced tz4-7 RNA affinity 30-fold. We propose that RNA binding by TFIIIA shows similarity to DNA binding in the use of the recognition helix. Helix positions -1 and +2 may have particular significance for RNA binding.

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Species referenced: Xenopus
Genes referenced: gtf3a