The nuclear matrix of duck erythroblasts is associated with globin mRNA coding sequences but not with the major proteins of 40S nuclear RNP

A residual protein matrix has been prepared from avian erythroblast nuclei by extensive extraction with salines and detergent and subsequent digestion with high concentrations of RNase and DNase. Ultrastructural examination reveals considerable internal structure, the most prominent feature being the remains of the nucleoli embedded in a network of fibres of fairly uniform diameter of 50 Å. The proteins which make up this structure have been examined by two-dimensional electrophoresis and are shown to consist of a characteristic set of about 30, mainly acidic components, including four prominent species of 43 000, 52 000, 66 000 and 68 000 molecular weight (MW). In parallel preparations of the nuclear matrix digested with DNase alone, much of the nuclear RNA is found associated with the residual structure, including globin-coding sequences. These results correlate well with the ultrastructural appearance of DNase-digested matrix preparations which show that superimposed on the 50 Å fibrous network is a 200–300 Å granular component, the combined fibrillo-granular structure resembling the interchromatin RNP previously identified in situ. However, the proteins of the DNase-digested matrix seen by two-dimensional electrophoresis are indistinguishable from the proteins of matrix preparations digested with both DNase and RNase. Furthermore, two-dimensional comparison between the proteins of the DNase-digested matrix and purified 40S nuclear RNP particles shows that the bulk of the proteins found associated with nuclear RNA in vitro are extracted during matrix preparation, and only two, with MWs of 43 000 and 73 000, remain. The latter species co-migrates with the poly(A)-binding protein.