Characteristics of rabbit globin mRNA purification by oligo(dT) cellulose chromatography

Abstract

We have purified rabbit globin mRNA using oligo(dT)-cellulose and sucrose gradient centrifugation. Both α- and β-globulin mRNA molecules behave heterogeneously with respect to their elution properties during chromatography on oligo(dT)-cellulose. Those fractions eluted at the lowest ionic strength are most active in directing cell-free globin biosynthesis. By making use of hybridization with synthetic [ 3H]DNA complementary to globin mRNA, we have shown that this technique can be used to quantitate the extent of mRNA purification. Thus, globin mRNA is approximately 90-fold purified from reticulocyte polysomal RNA and originally constituted slightly more than 1% of the polysomal RNA. Since more than 98% of the globin mRNA sequences are bound to oligo(dT)-cellulose, we suggest that most polysomal globin mRNAs contain a poly (A)-rich region and that this region is not of uniform length nor preponderately associated with either the α- or β-globin mRNAs. In addition, we observe that the 9S globin mRNA most resistant to dissociation from oligo (dT)-cellulose is most active in directing globin biosynthesis.