Differential binding of zinc fingers from Xenopus TFIIIA and p43 to 5S RNA and the 5S RNA gene.

Zinc fingers are usually associated with proteins that interact with DNA. Yet in two oocyte-specific Xenopus proteins, TFIIA and p43, zinc fingers are used to bind 5S RNA. One of these, TFIIIA, also binds the 5S RNA gene. Both proteins have nine zinc fingers that are nearly identical with respect to size and spacing. We have determined the relative affinities of groups of zinc fingers from TFIIIA for both 5S RNA and the 5S RNA gene. We have also determined the relative affinities of groups of zinc fingers from p43 for 5S RNA. The primary protein regions for RNA and DNA interaction in TFIIIA are located at opposite ends of the molecule. All zinc fingers from TFIIIA participate in binding 5S RNA, but zinc fingers from the C terminus have the highest affinity. N-terminal zinc fingers are essential for binding the 5S RNA gene. In contrast, zinc fingers at the amino terminus of p43 are essential for binding 5S RNA.     

A finger protein structurally similar to TFIIIA that binds exclusively to 5S RNA in Xenopus

A 5S RNA binding protein (p43) in Xenopus is a major constituent of oocytes and comprises part of a 42S ribonucleoprotein storage particle. We have cloned and sequenced p43 cDNA from X. laevis and X. borealis as well as the cDNA for X. borealis TFIIIA. Like TFIIIA, p43 has nine zinc fingers, seven of which are exactly the same size as their counterparts in TFIIIA. Amino acid homology between the two proteins is restricted mainly to conserved residues characteristic of zinc fingers. In contrast to TFIIIA, which binds specifically to both 5S RNA and 5S RNA genes, p43 binds exclusively to 5S RNA.     

Nucleocytoplasmic transport of 5S ribosomal RNA

Nucleocytoplasmic transport of 5S ribosomal RNA in Xenopus oocytes occurs in the context of small, non-ribosomal RNPs. The complex with the zinc finger protein TFIIIA (7S RNP) is exported from the nucleus and stored in the cytoplasm, whereas the complex with the ribosomal protein L5 (5S RNP) shuttles between the nucleus and the cytoplasm. Nuclear import- and export-signals appear to reside within the protein moiety of these RNPs. Import of TFIIIA is inhibited by RNA binding, whereas nuclear transfer of L5 is not influenced by RNA binding. We propose that the export capacity of both, TFIIIA and L5, is regulated by the interaction with 5S ribosomal RNA.