The domain within your query sequence starts at position 366 and ends at position 508; the E-value for the PAP_RNA-bind domain shown below is 5e-38.

NFFQKYKHYIVLLASAPTEKQRLEWVGLVESKIRILVGSLEKNEFITLAHVNPQSFPAPK
ESPDREEFRTMWVIGLVFKKTENSENLSVDLTYDIQSFTDTVYRQAINSKMFELDMKIAA
MHVKRKQLHQLLPSHVLQKRKKH

PAP_RNA-bind

PAP_RNA-bind
PFAM accession number:PF04926
Interpro abstract (IPR007010):

In eukaryotes, polyadenylation of pre-mRNA plays an essential role in the initiation step of protein synthesis, as well as in the export and stability of mRNAs. Poly(A) polymerase, the enzyme at the heart of the polyadenylation machinery, is a template-independent RNA polymerase that specifically incorporates ATP at the 3' end of mRNA. The crystal structure of bovine poly(A) polymerase bound to an ATP analogue at 2.5 A resolution has been determined [ (PUBMED:10944102) ]. The structure revealed expected and unexpected similarities to other proteins. As expected, the catalytic domain of poly(A) polymerase shares substantial structural homology with other nucleotidyl transferases such as DNA polymerase beta and kanamycin transferase.

The C-terminal domain unexpectedly folds into a compact domain reminiscent of the RNA-recognition motif fold. The three invariant aspartates of the catalytic triad ligate two of the three active site metals. One of these metals also contacts the adenine ring. Furthermore, conserved, catalytically important residues contact the nucleotide. These contacts, taken together with metal coordination of the adenine base, provide a structural basis for ATP selection by poly(A) polymerase.

GO process:RNA polyadenylation (GO:0043631)
GO function:RNA binding (GO:0003723)

This is a PFAM domain. For full annotation and more information, please see the PFAM entry PAP_RNA-bind