Construction of 4-thiouridine site-specifically substituted RNAs for cross-linking studies

Availability of 4-thiouridine (4-thioU)-containing RNAs is the prerequisite for 4-thioU site-specific cross-linking studies. This paper presents a method for constructing such RNAs. A 5'- and a 3'-RNA are synthesized via phage RNA polymerase transcription and/or RNase H site-specific cleavage directed by 2'-O-methyl-RNA-DNA chimeras. These two half-RNAs in combination correspond to the sequence of full-length RNA, with a single nucleotide gap at the junction that will be filled in with a 4-thiouridylate. A single p(4S)Up, which is derived from (4S)UpN (N can be any nucleotide) via 5'-phosphorylation (therefore, the phosphate can be radioactive) followed by RNase A digestion, is then ligated to the 3' end of the 5'-half RNA with T4 RNA ligase. The 3'-phosphate of the ligated product is subsequently removed by calf intestinal alkaline phosphatase to produce a 3'-hydroxyl group. The resulting 5'-half RNA and the 3'-half RNA with a 5'-phosphate group (which can also be radioactive) are then aligned with a bridging deoxyoligonucleotide and ligated with T4 DNA ligase. This method was previously applied to the P120 pre-mRNA that contains an AT-AC intron, yielding three RNAs each containing a single 4-thioU near the 5'-splice site. Subsequent cross-linking studies with these RNAs yielded detailed information regarding interactions between the 5'-splice site and other spliceosomal sn-RNAs and between the 5'-splice site and proteins during splicing. Because there is no sequence constraint surrounding the site of 4-thioU substitution, this method should be applicable to many other RNAs. (C) 1999 Academic Press.