Secondary structure model for mouse βMajglobin mRNA derived from enzymatic digestion data, comparative sequence and computer analysis

Abstract

A model for the secondary structure of mouse beta Maj globin messenger RNA is presented based on enzymatic digestion data, comparative sequence and computer analysis. Using 5'-32P-end-labeled beta globin mRNA as a substrate, single-stranded regions were determined with S1 and T1 nucleases and double-stranded regions with V1 ribonuclease from cobra venom. The structure data obtained for ca. 75% of the molecule was introduced into a computer algorithm which predicts secondary structures of minimum free energy consistent with the enzymatic data. Two prominent base paired regions independently derived by phylogenetic analysis were also present in the computer generated structure lending support for the model. An interesting feature of the model is the presence of long-range base pairing interactions which permit the beta globin mRNA to fold back on itself, thereby bringing the 5'- and 3'-noncoding regions within close proximity. This feature is consistent with data from other laboratories suggesting an interaction of the 5'- and 3'-domains in the mammalian globin mRNAs.