6.5.1.3 ATP + (ribonucleotide)n + (ribonucleotide)m - 6.5.1.3 ATP + (ribonucleotide)n + (ribonucleotide)m catalyzes RNA end-joining 6.5.1.3 ATP + (ribonucleotide)n + (ribonucleotide)m catalyzes the transfer of AMP from the E-AMP complex to diverse compounds, generating the product indicated between parentheses, ATP(Ap4A), NTP (Ap4N), P3 or P4 (p4A or p5A), ADP (Ap3A) 6.5.1.3 ATP + (ribonucleotide)n + (ribonucleotide)m participates in repair, splicing and editing pathways, reseals broken RNAs or alters their primary structure, catalyzes intramolecular and intermolecular RNA strand joining through ligase-adenylate and RNA adenylate intermediates 6.5.1.3 ATP + (ribonucleotide)n + (ribonucleotide)m RNA editing, essential for proliferation of Trypanosoma brucei 6.5.1.3 ATP + (ribonucleotide)n + (ribonucleotide)m RNA editing, posttranscriptional insertion and deletion of uridylate residues in mitochondrial transcripts 6.5.1.3 ATP + (ribonucleotide)n + (ribonucleotide)m RNA editing, posttranscriptional process by which uridine residues are added and deleted from mitochondrial mRNAs 6.5.1.3 ATP + (ribonucleotide)n + (ribonucleotide)m RNA editing, posttranscriptional RNA processing in which uridylate residues are inserted into and deleted from pre-mRNAs to create start and stop codons, also acts to reseal mRNAs cleaved at incorrect sites 6.5.1.3 ATP + (ribonucleotide)n + (ribonucleotide)m RNA editing, unique U insertion and U deletion process, involves cycles of pre-mRNA cleavage, terminal U addition or U removal, and religation, band IV is the RNA editing ligase needed to seal in U deletion 6.5.1.3 ATP + (ribonucleotide)n + (ribonucleotide)m RNA-editing