A. Szebeni et al., INTERACTION OF NUCLEOLAR PROTEIN B23 WITH PEPTIDES RELATED TO NUCLEAR-LOCALIZATION SIGNALS, Biochemistry, 34(25), 1995, pp. 8037-8042
Nucleolar protein B23 is a putative ribosome assembly factor with a hi
gh affinity for peptides containing nuclear localization signals (NLSs
). The interactions of various NLS-containing peptides with two B23 is
oforms (B23.1 and B23.2) were examined using equilibrium dialysis and
Scatchard analyses. The KD for protein B23 binding to a peptide contai
ning the SV40 T-antigen NLS sequence was approximately 1 mu M with a s
toichiometry of 1:1 (peptide:protein). No significant differences were
seen between the two B23 isoforms in their affinities for any of the
peptides tested. Binding by a reverse sequence SV40 T-NLS peptide show
ed a nonlinear Scatchard plot: this peptide was unable displace the co
rrect sequence peptide, suggesting that the reverse sequence peptide b
inds to a different site on the protein. A peptide containing the sequ
ence required for nucleolar localization of the HIV-1 Rev protein had
an affinity for B23 approximately 10-fold greater than that of the SV4
0 T-NLS. However, with a sequence sufficient only for Rev location in
the nucleoplasm, the affinity for B23 was diminished to a level betwee
n that of the longer Rev sequence and the SV40 T-NLS. In competition b
inding assays, the ReV NLS peptide was able to displace the SV40 T NLS
, indicating that both peptides bind to the same site on protein B23.
There was no detectable binding to protein B23 by a peptide containing
the bipartite NLS of nucleoplasmin. Phosphorylation of protein B23 by
casein kinase II enhanced its affinity for the SV40 T- and Rev-derive
d peptides approximately 2-fold. This effect was not seen with cdc2 ki
nase phosphorylated B23. These data support the idea that protein B23
is a carrier and/or nucleolar receptor of proteins bearing NLS sequenc
es of the SV40 T-antigen class and that this interaction may be modula
ted by phosphorylation.