>Scer_snR19 Chr14 complement(230106..230673) [568 bp] {ON} U1 spliceosomal RNA; snRNA U1 homolog ATACTTACCTTAAGATATCAGAGGAGATCAAGAAGTCCTACTGATCAAACATGCGCTTCC AATAGTAGAAGGACGTTAAGCATTTATCATTGAACTATAATTGTTCATTGAAGTCATTGA TGCAAACTCCTTGGTCACACACACATACGGCGCGGAAGGCGTGTTTGCTGACGTTTCCAT TCCCTTGTTTCAATCATTGGTTAATCCCTTGATTCCTTTGGGGATTTTTGGGTTAAACTG ATTTTTGGGGCCCTTTGTTTCTTCTGCCTGGAGAAGTTTGACACCAAATTCAAATTGGTG TTAGGGGAGCTGGGGCCTTTCAAAAGAGAGCTTTGTAGAGGCATTCTTTTTGACTACTTT TCTCTAGCGTGCCATTTTAGTTTTTGACGGCAGATTCGAATGAACTTAAGTTTATGATGA AGGTATGGCTGTTGAGATTATTTGGTCGGGATTGTAGTTTGAAGATGTGCTCTTTTGAGC AGTCTCAACTTTGCTCGTTCCCGTTATGGGAAAAATTTTGGAAGGTCTTGGTAGGAACGG GTGGATCTTATAATTTTTGATTTATTTT >Scer_snR14 Chr5 complement(167426..167585) [160 bp] {ON} U4 spliceosomal RNA; interacts with U6; snRNA U4 ATCCTTATGCACGGGAAATACGCATATCAGTGAGGATTCGTCCGAGATTGTGTTTTTGCT GGTTGAAATTTAATTATAAACCAGACCGTCTCCTCATGGTCAATTCGGTGTTCGCTTTTG AATACTTCAAGACTATGTAGGGAATTTTTGGAATACCTTT >Scer_snR7-L Chr7 complement(939462..939675) [214 bp] {ON} U5 spliceosomal RNA, long form; associated with spliceosome AAGCAGCTTTACAGATCAATGGCGGAGGGAGGTCAACATCAAGAACTGTGGGCCTTTTAT TGCCTATAGAACTTATAACGAACATGGTTCTTGCCTTTTACCAGAACCATCCGGGTGTTG TCTCCATAGAAACAGGTAAAGCTGTCCGTTACTGTGGGCTTGCCATATTTTTTGGAACTT TTCTGCCCTTTTTCTCAATGAGTAAGGAGGGCGT >Scer_snR6 Chr12 (366236..366347) [112 bp] {ON} U6 spliceosomal RNA, interacts with U4; homology to snRNA U6, interacts with snr14 GTTCGCGAAGTAACCCTTCGTGGACATTTGGTCAATTTGAAACAATACAGAGATGATCAG CAGTTCCCCTGCATAAGGATGAACCGTTTTACAAAGAGATTTATTTCGTTTT >Scer_LSR1 Chr2 complement(680683..681857) [1175 bp] {ON} U2 snRNA, component of the spliceosome; pairs with the branchpoint sequence; functionally equivalent to mammalian U2 snRNA ACGAATCTCTTTGCCTTTTGGCTTAGATCAAGTGTAGTATCTGTTCTTTTCAGTGTAACA ACTGAAATGACCTCAATGAGGCTCATTACCTTTTAATTTGTTACAATACACATTTTTTGG CACCCAAAATAATAAAATGGACGGGAAGAGACTTTTTAAGCAAGTTGTTTTCCGCTAATG TCAGGTCTCACTACTTTTTGCTGCTATTTTTCTTCGCTCATGGTTTCTTCATAAGGCGTT TTTATGATGGTTTTTCGAAATTGGTTTTTGAGACGACGGTTGCTCAAGGTTATTGTTTTT GTTTTCTTCTGGTTGTTTTCTATTTTCTTTTTTTTAGCTTTCTGTTTCTCCCTTAGTTTG GCTTTTTGCTTCATACTCTTCCCTGTCTTTCCGAGCCGTTTATGTCCAACGCGGGATTTG GTTTTTCTTTATCGATGGGAAGAAATGGTGCTATAGTAGGTTGGGAGATAATATTTATGG TATGGGGTGCTAGTGCGGATGGGGCGCTCTTATTGTTGATTTCTTCGCTCGTCTTCTTTT TCTGGTGGCGCTGCAAGAGGAAGTTTTTCGACTTTGTTATGATTTTTGGTTTGCAAGGAA AGGTGTCTTACGATTCTTTTTTTGATGTAATAGGATAAGCTTGCTTATCCCCCAAGTATC GGCCAAAGTTGTTGATTTTCCTTTTGAAGTGTCCTCGGTTTGAGGGGGTGTAGGGTGGGG TTGGTCTACAATAAGAGTGTTCCATTGTTAACGTGCTGGCGTCTTTTACTATATTTTTTT TCCCAGTTTATTTTGTGCTTATTTTCTCATTGAGGAGAAGGAGCTCTTCTCGCAGGATAT AAATGGAGGTTTGCTAAAGGGGAGGAGATGTGTTTGTGAGAATACTGCTGAGAGAGTTCT GGAAGAGAAAAAAAGGAGGCAATGGAAGGCGTTTGCTGGGAAAAGAGAAGAGCCATGACT GCATCTGTTGTTTCAAGGCCAGTTTTATTAACCGCCTATGTCATAGAGGCGTTTTTTTTG GAGGGATTTGAAGAATGCCGGCGGCATCAAGAAACGGACTTGATGGTTGACGCCTGTTTT TAAAGTTAGAGACGTCGCGACCCTCGCACTTGTGGAGTCGTTCTTGACTTTTACTTTGGT CGCTTGATGTTTCTCTCGTCTTCCCGTTCGCTCTT