In trypanosomatids, all mRNAs are processed via trans-splicing, although cis-splicing also occurs. In trans-splicing, a common small exon, the spliced leader (SL), which is derived from a small SL RNA species, is added to all mRNAs. Sm and Lsm proteins are core proteins that bind to U snRNAs and are essential for both these splicing processes. In this study, SmD3-and Lsm3-associated complexes were purified to homogeneity from Leishmania tarentolae. The purified complexes were analyzed by mass spectrometry, and 54 and 39 proteins were purified from SmD3 and Lsm complexes, respectively. Interestingly, among the proteins purified from Lsm3, no mRNA degradation factors were detected, as in Lsm complexes from other eukaryotes. The U1A complex was purified and mass spectrometry analysis identified, in addition to U1 small nuclear ribonucleoprotein (snRNP) proteins, additional co-purified proteins, including the polyadenylation factor CPSF73. Defects observed in cells silenced for U1 snRNP proteins suggest that the U1 snRNP functions exclusively in cis-splicing, although U1A also participates in polyadenylation and affects trans-splicing. The study characterized several trypanosome-specific nuclear factors involved in snRNP biogenesis, whose function was elucidated in Trypanosoma brucei. Conserved factors, such as PRP19, which functions at the heart of every cis-spliceosome, also affect SL RNA modification; GEMIN2, a protein associated with SMN (survival of motor neurons) and implicated in selective association of U snRNA with core Sm proteins in trypanosomes, is a master regulator of snRNP assembly. This study demonstrates the existence of trypanosomatid-specific splicing factors but also that conserved snRNP proteins possess trypanosome-specific functions.Pre-mRNA processing is mediated by the spliceosome, which is assembled in a stepwise manner on pre-mRNA (1). Although pre-mRNA splicing is mediated by RNA, the splicing factors not only play key roles in the formation of the spliceosome but may even directly participate in catalysis (2).The human spliceosome contains 45 distinct snRNP 3 -associated proteins, and up to 300 distinct proteins co-purify with the complex (3). However, only 170 of these proteins were identified as part of active spliceosomes (4).In contrast to the mammalian and yeast systems, little is known about trypanosome snRNP proteins. In trypanosomes, all mRNAs are processed by trans-splicing. trans-Splicing is mediated by ligating a common spliced leader (SL) to all mRNAs from a small RNA donor, the SL RNA (5). Trypanosomes possess all the U snRNPs, but only U2, U4, U5, and U6 were suggested to function in trans-splicing (5, 6). U1 snRNP exists in trypanosomes, most probably for mediating the splicing of cis-spliced introns, but its role in trans-splicing has not been investigated (7,8).Over the past few years, progress has been made in describing a variety of trypanosome splicing factors, and their function was elucidated by down-regulation via RNAi. Among these factors are Sm proteins, Lsm prote...
