Animal cells have two tRNA splicing pathways: (i) a 5'-P ligation mechanism, where the 5'-phosphate of the 3' tRNA half becomes the junction phosphate of the new phosphodiester linkage, and (ii) a 3'-P ligation process, in which the 3'-phosphate of the 5' tRNA half turns into the junction phosphate. Although both activities are known to exist in animals, in almost three decades of investigation, neither of the two RNA ligases has been identified. Here we describe a gene from the chordate Branchiostoma floridae that encodes an RNA ligase (Bf RNL) with a strict requirement for RNA substrates with a 2'-phosphate terminus for the ligation of RNAs with 5'-phosphate and 3'-hydroxyl ends. Unlike the yeast and plant tRNA ligases involved in tRNA splicing, Bf RNL lacks healing activities and requires the action of a polynucleotide kinase (PNK) and a cyclic phosphodiesterase (CDPase) in trans. The activities of these two enzymes were identified in a single B. floridae protein (Bf PNK/CPDase). The combined activities of Bf RNL and Bf PNK/CPDase are sufficient for the joining of tRNA splicing intermediates in vitro, and for the functional complementation of a tRNA ligase-deficient Saccharomyces cerevisiae strain in vivo. Hence, these two proteins constitute the 5'-P RNA ligation pathway in an animal organism.