Sm. Morris et al., Decreased in vitro interaction between p53 and nuclear stress proteins in the p53-deficient mouse, ELECTROPHOR, 22(10), 2001, pp. 2092-2097
In a previous study, the strength of the interaction between the nuclear st
ress proteins (sps) 25a, 70i, 72c, and 90 and the tumor suppressor protein
p53 was determined by an in vitro fluorescence binding assay. The relative
binding of the individual sps with p53, derived from the bone marrow of tra
nsgenic mice heterozygous at the p53 locus (p53+/-), was reduced compared t
o the interaction of sps and p53 derived from wild-type (p53+/-) mice. In o
rder to determine if the genotype of the p53 donor or the genotype of the s
p donor determined the binding efficiency, p53 expression was induced by re
tinoic acid and sp synthesis by bleomycin. P53 derived from either wildtype
or heterozygous animals was cross-reacted with nuclear sps obtained from e
ither wild-type or heterozygous animals. Each of the sps, 25a, 70i, 72c, an
d 90, bound to wild-type p53 with a similar efficiency, irrespective of the
genotype of the sp donor mouse @53+/+ or p53+/-). In contrast, when the sp
interaction with p53 obtained from the heterozygous mouse was measured, th
e relative value of the fluorescence complex was significantly reduced. The
data suggest that the strength of the interaction between p53 and nuclear
sps is related to the genotype of the p53 donor, and not to the genotype of
the animals from which the sps are derived.