The preparation of endotoxin-free genetically engineered murine B1 antisense RNA

Abstract

One of the major limitations in the production of genetically engineered RNA from Escherichia coli (E. coli) is contamination by endotoxin. Here we report the first method that is capable of removing endotoxin from genetically engineered RNA. As a proof of concept, we transformed E. coli with a plasmid containing a tandem short interspersed nuclear elements from the mouse genome (SINE B1 elements). We then evaluated several extraction methods (SDS-NaCl centrifugation, SDS-NaCl filtration, TRIzol and SDS hot-phenol) and refinements thereof, and measured the resulting RNA yield, RNA purity, RNA integrity and endotoxin content. SDS-NaCl filtration with 2 mol/L NaCl, incorporating DEPC as an RNA protective agent, effectively removed endotoxin and resulted in a good RNA yield. Triton X-114 phase separation further reduced the endotoxin content of SDS-NaCl filtration-extracted RNA. RNA extracted by SDS-NaCl filtration with Triton X-114 phase separation did not cause adverse reactions in BALB/c mice and did not induce fever in rabbits when injected into these animals. The RNA met the requirements of nucleic acid reagents for in vivo experiments on animals.