A DNA-binding activity specific to the major mouse satellite (satMa) has be
en detected in a nuclear matrix protein extract by electrophoretic mobility
shift assays (EMSA) after fractionation by ion exchange chromatography, An
antibody raised against the satMa-protein complexes recovered from prepara
tive EMSA recognizes on Western blots one major polypeptide with an apparen
t molecular mass of 120 kDa, The protein also has a similar affinity for a
matrix-associated region (MAR) fragment. We demonstrate that the protein is
a murine homologue of SAF-A which has been shown to bind selectively to MA
Rs and is responsible for the satMa-binding activity in the chromatographic
fractions. SatMa has significant homology to the mouse minor satellite fra
gments, but its binding of SAF-A shows much less affinity. No protected reg
ions of significant length were found by footprinting, but multiple T resid
ues scattered within the satMa sequence are protected, indicating that the
whole fragment is involved in the binding to SAF-A. Combined immunofluoresc
ence (SAF-A) and FISH (satMa) with in situ nuclear matrix procedures reveal
that SAF-A and satMa colocalize. SAF-A appears as bright dots in interphas
e nuclei, presumably associated with MARs, predominantly surrounding and co
vering heterochromatic areas. A scheme based on morphological observations
and biochemical data of SAF-A double satMa/MAR specificity is discussed.