intronId	orfName	aresName	comments	verified	verifId	length	startInOrf	endInOrf	ss5bp	bp3ss	bpSeq	bp	ss3Seq	ss3	preSeq	intronSeq	postSeq	splicedSeq
254	SNR17A	SNR17A_15_780106_780595_INTRON_15_171	"Not in a protein ORF, but in U3A snoRNA."	1	"Myslinski E, et al. Science 1990"	157	15	171	145	12	UGACUAACACAU	GACUAAC	UACAG	CAG	UCUUAUGUUUUCUUCUUGUUUCUACUUAAAAUCUGUGUCGACGUACUUCA	GUAUGUAAUAUACCCCAAACAUUUUACCCACAAAAAACCAGGAUUUGAAAACUAUAGCAUCUAAAAGUCUUAGGUACUAGAGUUUUCAUUUCGGAGCAGGCUUUUUGAAAAAUUUAAUUCAACCAUUGCAGCAGCUUUUGACUAACACAUUCUACAG	UAGGAUCAUUUCUAUAGGAAUCGUCACUCUUUGACUCUUCAAAAGAGCCA	ATCTGTGTCGACGTACTTCATAGGATCATTTCTATAGGAA
255	SNR17B	SNR17B_16_281516_281055_INTRON_15_144	"Not in a protein ORF, but in U3B snoRNA."	1	"Myslinski E, et al. Science 1990"	137	15	144	118	19	UGACUAACACAU	GACUAAC	AACAG	CAG	UUUUAUUCUCUUCUUGUUCUUUUUACUAAAAAAAUUGUCGACGUACUUCA	GUAUGUUUUAUACCAUAUACUUUAUUAGGAAUAUAACAAAGCAUACCCAAUAAUUAGGCAAUGCGAUUGUCGUAUUCAACAACCAUCUUCUAUUUCACCAGCUUCAGGUUUUGACUAACACAUUCAACAG	UAGGAUCAUUUCUAUAGGAAUCGUCACUCUUUGACUCUUCAAAAGAGCCA	AAAATTGTCGACGTACTTCATAGGATCATTTCTATAGGAA
256	YAL001C	YAL001C_1_151163_147591_INTRON_71_160	Uses AAG 3'ss	1	"Lefebvre O, et al. PNAS 1992;Clark MW, et al. Yeast 1994"	90	71	160	77	13	UUACUAACGACA		UGAAG	AAG	UGACGAACUCGUACAAAUAGUGUCUGAUAAAAUUGCUUCAAAUAAGGGAA	GUAUGUUCAUGUCUCAUUCUCCUUUUCGGCUCCGUUUAGGUGAUAAACGUACUAUAUUGUGAAAGAUUAUUUACUAACGACACAUUGAAG	AAAUCACUUUGAAUCAGCUGUGGGAUAUAUCUGGUAAAUAUUUUGAUUUG	AATTGCTTCAAATAAGGGAAAAATCACTTTGAATCAGCTG
257	YAL003W	YAL003W_1_142172_143158_INTRON_81_446	Contains snoRNA U18	1	"Hiraga K, et al. FEBS Lett 1993;Clark MW, et al. Yeast 1994"	366	81	446	332	34	UUACUAACAAGC		AAUAG	UAG	ACUUUGAAACAAUUAAACGCUUCUUUGGCUGACAAGUCAUACAUUGAAGG	GUAUGUUCCGAUUUAGUUUACUUUAUAGAUCGUUGUUUUUCUUUCUUUUUUUUUUUUCCUAUGGUUACAUGUAAAGGGAAGUUAACUAAUAAUGAUUACUUUUUUUCGCUUAUGUGAAUGAUGAAUUUAAUUCUUUGGUCCGUGUUUAUGAUGGGAAGUAAGACCCCCGAUAUGAGUGACAAAAGAGAUGUGGUUGACUAUCACAGUAUCUGACGAUAGCACAGAGCAGAGUAUCAUUAUUAGUUAUCUGUUAUUUUUUUUUCCUUUUUUGUUCAAAAAAAGAAAGACAGAGUCUAAAGAUUGCAUUACAAGAAAAAAGUUCUCAUUACUAACAAGCAAAAUGUUUUGUUUCUCCUUUUAAAAUAG	UACUGCUGUUUCUCAAGCUGACGUCACUGUCUUCAAGGCUUUCCAAUCUG	GACAAGTCATACATTGAAGGTACTGCTGTTTCTCAAGCTG
258	YAL030W	YAL030W_1_87288_87754_INTRON_103_215	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	113	103	215	51	62	AUACUAACUUUC		UUUAG	UAG	AACGACCCCAGAAUGUACAGUCUAAGUCAAGGACUGCGGAACUACAAGCU	GUAAGUACAGAAAGCCACAGAGUACCAUCUAGGAAAUUAACAUUAUACUAACUUUCUACAUCGUUGAUACUUAUGCGUAUACAUUCAUAUACGUUCUUCGUGUUUAUUUUUAG	GAAAUUGAUGAUACCGUGGGAAUAAUGAGAGAUAACAUAAAUAAAGUAGC	GGACTGCGGAACTACAAGCTGAAATTGATGATACCGTGGG
259	YBL018C	YBL018C_2_186436_185960_INTRON_48_122	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	75	48	122	56	19	CUACUAACGUAC		UAUAG	UAG	GUGAUGGGGAAAAAGACUUUUAGAGAAUGGCAAUAUUUCAAGUUAUCAAU	GUAUGUAUAUUUUUGACUUUUUGAGUCUCAACUACCGAAGAGAAAUAAACUACUAACGUACUUUAAUAUUUAUAG	UACUUCAUUCGAUCAAGAUGUGGACGAUGCACAUGCUAUUGAUCAAAUGA	CAATATTTCAAGTTATCAATTACTTCATTCGATCAAGATG
260	YBL026W	YBL026W_2_170585_171000_INTRON_55_182	"Two possible branch points, the second one (farthest 3') is probably used."	1	"Davis CA, et al. Nucleic Acids Res 2000"	128	55	182	92	36	GUACUAACGUUU		CUCAG	CAG	UUUUCUUCUCCUUUUUCAAGACUUUAGUUGACCAAGAAGUGGUCGUAGAG	GUAUGUUCAUAAUGAUUUACAUCGGAAUUCCCUUUGAUACAAGAAAACUAACGGGUAUCGUACAUCAAUUUUUGAAAAAAGUCAAGUACUAACGUUUGUUUACCCCUGUUUAUUGUGUUUCCACUCAG	UUAAAAAACGACAUUGAAAUAAAAGGUACACUACAAUCAGUUGACCAAUU	ACCAAGAAGTGGTCGTAGAGTTAAAAAACGACATTGAAAT
261	YBL027W	YBL027W_2_168385_169338_INTRON_3_386	NULL	1	"Van Dyck L, et al. Yeast 1994;Song JM, et al. Yeast 1995"	384	3	386	343	41	UUACUAACAUCA		CACAG	CAG	GAUCUUUUCACCAAAUCGAAUAAAAAGUCACCAAUAAAUUAGAGGAAAAU	GUAUGUUUAACAGUGAUACUAAAUUUUGAACCUUUCACAAGAUUUAUCUUUAAAUAUGUUAUGAAUGUCAUCCUUUGGAGAGAAAUAGAUAAGGAAAAAAAUUGAGGAUACAGCAUCCGGUGGUCGCAUAGUUGGUAGCAACAUCCAUAGAAGAACCUCAGAUAAAUUUCAAGCUUGUACGAAUUGCCGCGUUUAUUACAAACUAUAGAAUUAUCGCAGCAAUGGUACGUGUCUGUUCCUGCAAGCGUUAAUUCGAUUGAUAGAUAAAGUAAUUCAUUAACCUUUGCGAAUAUGCUCUUUACUGUUAGGUUUCAGGAUUUUAAAAAUGAAGCAACUUUACUAACAUCAAUAUGCAAAUAAAUCUGCAAAAACUUUUUUUCACAG	GGCUAACUUGCGUACUCAAAAGAGACUUGCCGCUUCUGUUGUCGGUGUUG	CCAATAAATTAGAGGAAAATGGCTAACTTGCGTACTCAAA
262	YBL040C	YBL040C_2_142830_142074_INTRON_23_119	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	97	23	119	63	34	UUACUAACAGAG		GACAG	CAG	GCGCAAGUUGAGGCAUAAUCAGUAAGCAAUGAAUCCGUUUAGAAUCUUAG	GUAUGUUACUAUUUGGAGUUUCAUGAGGCUUUUCCCGCCGUAGAUCGAACCCAAUCUUACUAACAGAGAAAGGGCUUUUUCCCGACCAUCAAGACAG	GUGAUUUAUCACAUCUAACCAGUAUACUGAUCCUGAUUCAUAAUAUCAAG	GAATCCGTTTAGAATCTTAGGTGATTTATCACATCTAACC
263	YBL050W	YBL050W_2_125087_126081_INTRON_31_146	uses AAG 3 splice site.  EST	1	"Davis CA, et al. Nucleic Acids Res 2000;Scherens B, et al. Yeast 1993;est gi|620456|gb|T36639.1|T36639"	116	31	146	77	39	UUACUAACAUUG		UUAAG	AAG	CAUUAACCUGAAAGUUAAAAAUGUCAGACCCUGUAGAGUUAUUGAAAAGA	GUAUGUAGUAGGGAAAUAUAUCAAAGGAACAAAAUGAAAGCUAUGUGAUUCCGUAAUUUACGAAGGCAAAUUACUAACAUUGAAAUACGGGAAUUGAUAUUUCCCGUUGUGUUAAG	GCUGAGAAGAAGGGUGUUCCUUCAUCGGGUUUCAUGAAAUUGUUUAGCGG	CTGTAGAGTTATTGAAAAGAGCTGAGAAGAAGGGTGTTCC
264	YBL059C-A	YBL059C-A_2_110500_110086_INTRON_35_119	"New intron, uses guaagu 5' site. EST from Evan Hurowitz, Pat Brown Lab, Stanford University."	1	est gi|621177|gb|T37360.1|T37360	85	35	119	57	28	UUACUAACAUUG		UUUAG	UAG	AGACAAGUACUACAACAUGCAUCCACAGUUAGAAGCUGAACGUUUUCAUU	GUAAGUAUCCAGAUUUUACUUCAUAUAUUUGCCUUUUUCUGUGCUCCGACUUACUAACAUUGUAUUCUCCCCUUCUUCAUUUUAG	CCUGUUUGGACUUCAUCAAUGCACUCGAUAAAUGCCAUCAAAAGGAAUAU	AGAAGCTGAACGTTTTCATTCCTGTTTGGACTTCATCAAT
265	YBL059W	YBL059W_2_110555_111205_INTRON_287_355	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	69	287	355	51	18	UUACUAACAUAA		CAUAG	UAG	UACACUUAUAACAUGUAGAAUUGCCAUGAAGAAAAUGAUAACUGCAAAAG	GUAUGCAUAGGCAAUAACUUCGGCCUCAUACUCAAAGAACACGUUUACUAACAUAACUUAUUUACAUAG	UGCCAUUGAACACUUUUCAAGCAAACUACGCCAGCCGGACGCAGACAAUA	GAAAATGATAACTGCAAAAGTGCCATTGAACACTTTTCAA
266	YBL072C	YBL072C_2_89435_88518_INTRON_1_308	5' utr intron.	1	"Logghe M, et al. Yeast 1994"	308	1	308	281	27	UUACUAACAAGC		UACAG	CAG	UUGCUUUUUGGUACUCACAAGAAGACGUUAUAAACACACCAGGACAAAAA	GUAUGUGCUAUGGUCAUAUGAGUAAUGGAACUACAUAUUAUUUUGAAUGCUACAGGACCUCUCUUUGAAUGGAAUAGAUAGUGGAAAAAGUAAACUUAACUAAAAGGGAUGAUAUAAAUUGUGACAGGAGCAGUGCACUAAACUGAAUCCUUUGUGUACCCCAAAAAUCAAGCCUCUUAUGAAACGCCGAGUUUUUCACAAGAAGAGAUGAAAAGAAACCAAAGCAUAUUUCAAGAUAAGAAAAAAAUUCCGCAACUUUUGUACGUUCUUUAUUUUACUAACAAGCGUCAUUAAAUUUUCUAUUACAG	UUACAAAAUGGGUAUUUCUCGUGAUUCUCGUCACAAAAGAUCCGCUACCG	TAAACACACCAGGACAAAAATTACAAAATGGGTATTTCTC
267	YBL087C	YBL087C_2_60732_59815_INTRON_43_546	NULL	1	"Leer RJ, et al. Nucleic Acids Res 1984"	504	43	546	460	44	UUACUAACAAAA		ACUAG	UAG	AACUAAUAAUGUCCGGUAACGGUGCUCAAGGUACUAAGUUUAGAAUCUCA	GUAUGUUAAAAUUUUUAUUUUCCACAAUGCAAUUUGGUUAAAUUGAUCAUAAAGUAAAGUUCCAAGAUUUCAUUUUGCUGGGUACAACAGAAUUAAACAGAGGUUUAAAAGACGCUAAACACUAAGUGUGAAGCCUGAUCAUAUACCUAUCGGUGUUAUUUUCCAUAAGAAUGGUAGAUGUGCCAUCACUGGUACCGCCCCGCCAAAGAUGCAAUUACACACAUAAAUUCAGUUUUUAAAUGGUUAAGCGGGCUGUAUUUGCAGAUGAAGUGAUACCUGUCAAUAUUCAUGGACUCAAAAAUUUCUGGUUUCAAAAUCAUACACGGCAAGCAUAUCCUAACUCCCUCUUUUGCCCAUACUAAUGGAUAACCAUCGAAAUGUUAUUUCUACAAAAAUCACGCUUAACUCUAUUUUUCAAGAUUAACCACAUCUGCUAACUUUCUCCCUAUGCUUUUACUAACAAAAUUAUUCUCACUCCCCGAUAUUGAGAUCUUUUUUAACUAG	UUAGGUCUACCAGUCGGUGCCAUCAUGAACUGUGCUGACAACAGUGGUGC	GTACTAAGTTTAGAATCTCATTAGGTCTACCAGTCGGTGC
268	YBL091C-A	YBL091C-A_2_46858_46559_INTRON_35_122	"prediction, Blandin et al.  Extends SGD coding sequence 5' based on homology.  Intron pattern NOT found -- very unusual bp"	0	NULL	88	35	122	73	15	UUACUAAUAUGU	UACUAAU	UUCAG	CAG	UUCAGACGAGUAAACAAUGAGAAUAGUGCCAGAAAAGCUGGUGUUCAAGG	GUAUGUUUGACGAGAAUUGCUAGUGUGCGGGAAACUUUGCUACCUUUUUUGGUGCGAUGCAACAGGUUACUAAUAUGUAAUACUUCAG	CUCCCCUUAAUAAACAAUCAACAGAGUAUAUAAAGCUCGAGAACGAUGGU	AGAAAAGCTGGTGTTCAAGGCTCCCCTTAATAAACAATCA
269	YBL092W	YBL092w_2_45639_46364_INTRON_1_333	5' utr intron.	0	"Planta RJ, et al. Yeast 1998"	333	1	333	295	38	AUACUAACAAAC		AUUAG	UAG	UCUUUUACAAAGAUAAUCACCAAACAGGGACAAUACACUGAACGAUAAAA	GUAUGUGACAUAUAGAAUGCUAGAAUGAAUAGCCUAGACUGCAUUGUUAUGAGAGCAACGUUUGAUAUUUGUGGCGAUUGGAACAAACAUAGUACAUGCCAAAAUGAGAUGAAAUGUCCAAUUUGAACUGAUUAACAUACACGCGCAAGCUCGUAUUUGUUUACUGGUACACCUAGAGUUAGCCGAUCAAAGAGACAGUGGCAGAUAUAUGGGAAAAUUUUCUCCGGAAGAUUGCAUGCGAGAGUCUCAUAACCAGUCAUUUCCCAAGAUACAAUUCUCGGAGCUGUUAUACUAACAAACUUUUAAUUUUCAUUUUUUUUUUUUUUUGAUUAG	AUGGCCUCCUUACCUCACCCAAAGAUUGUCAAGAAGCACACCAAGAAGUU	CAATACACTGAACGATAAAAATGGCCTCCTTACCTCACCC
270	YBR048W	YBR048W_2_332790_333771_INTRON_46_556	EST	1	"Folley LS, et al. Genetics 1994;Eide LG, et al. Yeast 1996;est gi|621721|gb|T37904.1|T37904"	511	46	556	492	19	UUACUAACAUGC		UACAG	CAG	AAAAGAUGUCCACUGAAUUAACUGUUCAAUCUGAAAGAGCUUUCCAAAAG	GUAUGAAAGAAUUAUAACCUGAAUGAGGUAAUCAAUGAAAUAUUCAGUACGGAAAGGAAAAUUGCUCGAGGUAAUAUUAUAAUUUUAAUGGGAAUUUCCAGAUUUAUCAACAUAAACGUUAGCAAGCGCAGUACCAUCAAGUAAAAGUUUACUGGUGAAAAGCAGGACCUCGAAUGAUUGAGAUUUCGUUACACAGUACGAGUAAAAUAUAAAUUAUUUCAAGAAGAAGAGAACUUUUGAUCUGAAAAUGAAAAUGUAACCACGGAGAAAUGUUGAGAAUACAUAAAUAACCAUGAGGCCAAAACACCUUAAUAUGAAGUAUAACUUUUACUGUGCUCAAUGACUAUUUCACCCGACUAAUGCCAAGUAAGGAGGAUCUCCAUCAUACGGAACAAUUUUCCAACCGCCACGACACAGUUAACGAUUUCCUUUUCGCCUAAAAAUAGUAGGAAUGAAGUUCAUGAUUAUAUUUUAGAUCAACCGGUUUACUAACAUGCUAUUUUUCAUACAG	CAACCUCACAUCUUCAACAAUCCAAAGGUCAAGACUUCCAAGAGAACCAA	CTGAAAGAGCTTTCCAAAAGCAACCTCACATCTTCAACAA
271	YBR078W	YBR078W_2_393082_394818_INTRON_59_388	Possible 2nd branch site is not used.	1	"Davis CA, et al. Nucleic Acids Res 2000;Van der Aart QJ, et al. Yeast 1994"	330	59	388	306	24	AUACUAACACUA		AGCAG	CAG	CAAGAACGCUUUGACUGCUACUGCUAUUCUAAGUGCCUCCGCUCUAGCUG	GUAUGUACACAUUCUCCUUUUUUUUCAUCUUUUUUUCUUUAUUUGCCUCUUUCCUCACAAAUCUCGAGUAGAUUCGUGGUCCUCUUCAUUCUUUUCUUUUUUCUUUGUCGAUUACUGGGCUUUUUUUCAUAGGUCUCGAUUGACGCGGACGGACAAUGCGAAAAAAAAAAAUUUCCAAAAGAGGAAACGGGUUUCGAGAUCUCGUGAGGAUGGUUUUGGAAUAUUCUUCAAUAUUUCUGCCUGUCAUAGGAUUAGGGCGAGUAAUGAAACAGAAUAAUACAUGUAUAAAUCGAUCGGGAAUACUAACACUACUUUUCUUUAUCUAAGCAG	CUAACUCAACUACUUCUAUUCCAUCUUCAUGUAGUAUUGGUACUUCUGCC	AAGTGCCTCCGCTCTAGCTGCTAACTCAACTACTTCTATT
272	YBR082C	YBR082C_2_407127_406586_INTRON_48_142	NULL	1	"Van der Aart QJ, et al. Yeast 1994"	95	48	142	70	25	UUACUAACAAAA		ACUAG	UAG	AACAUGUCUUCUUCUAAACGUAUUGCUAAAGAACUAAGUGAUCUAGAAAG	GUAUGUCUAAAGUUAUGGCCACGUUUCAAAUGCGUGCUUUUUUUUUAAAACUUAUGCUCUUAUUUACUAACAAAAUCAACAUGCUAUUGAACUAG	AGAUCCACCUACUUCAUGUUCAGCCGGUCCAGUCGGCGAUGAUCUAUAUC	GAACTAAGTGATCTAGAAAGAGATCCACCTACTTCATGTT
273	YBR084C-A	YBR084C-A_2_415219_414144_INTRON_3_508	NULL	0	NULL	506	3	508	492	14	UAACUAACAUGA	AACUAAC	AACAG	CAG	UGAUUUUACGCUUCACAUAGAAAGUUGAUUAAGAACUCCAAAGCAAAAAU	GUAUGUGAUGCAGUGAAUAAUGAAUCUAUGAAAGUUUAUCAGGAAUAAGAUAGAAUUGUUAUAAUAACUCCCUCUUGAGGAAUGCGAGUUUGAUGAGUUAUCACCUGAAACACCAGCGUUAUUGAAAAGUGAUAUGGGUAAUAUAUGCCAAGAACGAUACUGUGUUCCAUUUGCAUCAUGAAUAUGCUAGUGAAGCCAGAUGUUUCUAUAAUCGGAGUUUUAGCACUAAAAGGCAAAAGAGGAAACUUGUGGAAGAAUUUUUUUUCUGUGCAGUUUACCAUUAAGAUAUUUAUAGCGAUAAGUGAGACCAUUAAUAUGAGUAUUCAAUACGAGAACCAGUUACGUGAUAAAAGUUACUCGAGCUGCUGCAGUAUCCAGCAUACAUAAUAACCAUGUCAUUUUUCUAUAGCGAGUUUUAAAGUGUCUACCACCGCAAUUUCUAUCUUUCGACGCGAAUAGACUUUUUCCUUCUUACAGAACGAUAAUAACUAACAUGACUUUAACAG	GGCUAAUUUACGUACUCAAAAGAGACUUGCCGCUUCUGUCGUCGGUGUCG	AAGAACTCCAAAGCAAAAATGGCTAATTTACGTACTCAAA
274	YBR089C-A	YBR089C-A_2_426588_426148_INTRON_1_114	5' utr intron.	1	"Davis CA, et al. Nucleic Acids Res 2000"	114	1	114	101	13	GUACUAACUAAU		CUUAG	UAG	AUACGGUUCAGGUGAAAUGAAAUAGCCGCCCAUAACGGCAUGCUCAAGUU	GUAAGUCAGGACUCUAGCUUUCUACUGUAGUAUCCUCUAAAGGACUGCUGUUCUGUGCACCCCCUUCCUUUGUUUAUCAUAGCGCACGACAAGAGUACUAACUAAUUAACUUAG	AACAUUAACAUAUAUAAAACUAGCGCUAUGGCCGCAACUAAAGAAGCAAA	CATAACGGCATGCTCAAGTTAACATTAACATATATAAAAC
275	YBR119W	YBR119W_2_479296_480281_INTRON_9_97	EST	1	"Liao XC, et al. Genes Dev 1993;est gi|620287|gb|T36470.1|T36470"	89	9	97	50	39	CUACUAACGUUU		AACAG	CAG	CUGCUAUCAACAAAAGACGGCCUCAUCAAACCUAAAGAAACCAUGUCAGC	GUAUGUAUAUACCUUGUAAUUUACGUUUCCUUAAAUCUUCUUUCUACUAACGUUUUCAUUAUUCUAUACUCUAUGACCAAUAAAAACAG	ACUGUACUUUCAAAAUUUACCCAGUAGGCCAGCAAAUAAAGAAAAUUAUA	CCTAAAGAAACCATGTCAGCACTGTACTTTCAAAATTTAC
276	YBR181C	YBR181C_2_592732_591670_INTRON_7_358	NULL	1	"Leer RJ, et al. Nucleic Acids Res 1982"	352	7	358	330	22	UUACUAACAAAU		AACAG	CAG	UCAUUAAUUGAAACUAUCCAGUGUGAAUAGACGACUGAGCCAUCAUGAAG	GUAUGUAAUAUCACCCAAAUCCUUAGAAUUCUAAUGAAUCAGCACGCGCUAACCGGCUGUUUCUGACUGUUUGAUAAACGUAUACCCACAAAUUAGUGCACUAUAAUAAAAAUUCUCAAGAACAACGUUGUUUAAACGAGAUAAUUCCCUCUAAUAUACACGUACCGACACUUAGGAAAAUAUCUCGCUAAGUUCAAAUUAAGGAAUGAAAAAGGAAUUUACGAAAAGGGUUUAGAAAUAUCAAUGAAAAUAAGAAAAACCUGUAACGGAAGAAAGGACAGCAGGGAUUCGUUGGAAUUUGUCGAUAUUGGCUUCGGACAACUUUACUAACAAAUGGUAUUAUUUAUAACAG	UUGAACAUUUCUUACCCAGUCAACGGGUCUCAAAAGACCUUCGAAAUUGA	ACGACTGAGCCATCATGAAGTTGAACATTTCTTACCCAGT
277	YBR186W	YBR186W_2_600511_602318_INTRON_1552_1664	"extends ORF to 3', cap distal intron"	1	"Davis CA, et al. Nucleic Acids Res 2000"	113	1552	1664	77	36	UCACUAACUGUC	CACUAAC	UAUAG	UAG	UCUUCAAUAAAUAUCAGGACAUUUUGCGGAAAAUUGCUAUCAAAUGCUCG	GUAUGUUUUUUUCUUUUAUUCUACUUUUACGAUUCUUUUUCUUUCUUUCCUUCUUCAUAAAAAAGCACUUUCACUAACUGUCUUUGUCAAACAUAAAUAUGCGAUCAAUAUAG	ACCGUUGAUAUCAGUGGUAGAACAAUAAGGAAAUUGCCCUUGAUGUGUCU	AAATTGCTATCAAATGCTCGACCGTTGATATCAGTGGTAG
278	YBR189W	YBR189W_2_604466_605466_INTRON_8_420	NULL	1	"Vincent A, et al. Genetics 1992;Mizuta K, et al. Nucleic Acids Res 1991"	413	8	420	382	31	UGACUAACAAGA	GACUAAC	UUUAG	UAG	UAGACAAGAAAGAAAGCAACAAGACAACUAAGACUAAGCAACAAUGCCAA	GUACGUAUUAGACUAUAUCGAAGAGGAGGGAAAUUCUUCACUCUGACUCGUUGAUUUUGAAAGAGGUUCGGGUCCUCAUAAAUAUUUGAGAAUAUGAAAUUCCAUAAUAGUAUACCUUCAUUGAGUAGCACGACAACAGCCUGAAUUACUAUCCAUAUUAUGAAUAUCUUUAUUUACACUGAACUCCCGACACUUCAGUUAAACAGGGAUACAUUAGAGAUCAAGGUGAUCUAAUAGGGAACAUCUCUCUCGUAACAAUGGGACAGUAUUUUAUUUUCCAAGGCGGAUACCUAAUUAUGCGUUUUUAAUCAUAUCUCUACAAUAUUUAUGAGCACUUACUUGGGCCCUUGCAGACUUUUGUUCCGGGAAAACUUUUGACUAACAAGAAUCCAAUUUUACUUUUUUUUUUUUAG	GAGCUCCAAGAACUUACUCUAAGACUUACUCUACACCAAAGAGACCUUAC	AGACTAAGCAACAATGCCAAGAGCTCCAAGAACTTACTCT
279	YBR191W	YBR191W_2_606228_607098_INTRON_12_399	EST	1	"Jank B, et al. Curr Genet 1993;est gi|620307|gb|T36490.1|T36490"	388	12	399	340	48	AUACUAACAUGA		UACAG	CAG	UUUGGAAUAAGAGAACCAAGACAAAAAUAACUAGCAACAAUGGGUAAAUC	GUAUGUCAUUUAAUCCUAUGAAUCUACAGCACGAACGAAUCAUGGUAUCUCAAACCGAACAUAUCGUCACAGAAAUAAAAAGAUUUAAAGACGUGUCUAGUGUGAAUAAAGCAAACAUAUCAUUAGAGCAAAAUAUUGGGCAGAUAAGAUGAUGCUACACUGAUUCUGAGAAAAUUACGUGACAUGAUAGGCUUUUAACGGGCUGUAAGUCAUUAGUUUACAGUCGUUGCUUUGAAAAUUAGUUCAACAUUAGAAGUGUAGUAAUUACAAGCCCUUUUUCCAAACAUUCGGUUAUGUGCUGGGACGCAUCUCAGAAACUCGCAAAACAAUAGAAUACUAACAUGAUUUCUUAUAAAUCUUAAUUUUGAUUUAUUUCCUUAUAAUACAG	ACACGGUUACAGAUCUCGUACUCGUUACAUGUUCCAACGUGACUUCAGAA	CTAGCAACAATGGGTAAATCACACGGTTACAGATCTCGTA
280	YBR220C	YBR219C_2_663261_662457_INTRON_302_722	"Human override branch point designation, 121 nt away from HMM prediction."	0	NULL	421	302	722	389	32	UGACUAACCUUU	GACUAAC	AAUAG	UAG	GAAAAGGAAAAUCCUCCAUUUACAAAGUCUGCCAAUCAGUUCCUGGAGAU	GUACGUAACGACCCCUCAAACAAGAAUUGUACGACAUUACGUUCAAGAAAAUUUUAACGAGUAUCGUAAUAUUUACAAGAUCUUUUUAUGUACUACAGGAAGCAGAAACAAAAUGAGUAUCAAUACCAGUGUAAAUCUGUUAAUGAGAAUCAUCACAUUAUCCCAGUUUUUUCCAUGCAAGGGAAAAAUAUACUAUACGACAUUUCUAUACUUUAAUUAUCAAUUAAGGUCAUCUUUCUGUACGAAAACUAACCACGAUUGUCACUAACGACGUGUCCCUUACCCGACGCAGCUGCUGAUAGCGUACCGCACAGGCACAGCCAGCUCUUCUGUGAUUGGCAGAGAGGGGUCCUUCCUGCGGAAGACGCCGCAAAGGCACAUAUGACUAACCUUUUUUUUUUCGCAAUUAAUUUUCUAAUAG	UUUUUCAUUUUUUUUUUACAAUUUUGGCAGUUACGUCUCGAGCUAUUUAU	GCCAATCAGTTCCTGGAGATTTTTTCATTTTTTTTTTACA
281	YBR225C-A	YBR225C-A_2_727032_726576_INTRON_65_155	"prediction, Blandin et al.  Hypothetical ORF identified by homology.  There is another potential start site 132 bp upstream of predicted start"	0	NULL	94	64	157	75	19	UAAUUAACCUUC	AAUUAAC	CGUAG	UAG	UUCUCCCCAUUCAUUAUGACCCCAAAACUGUUAAACAAUUAACUAAAGAA	GUAUGUAAAAUUCAAGAAUAUAUCUGGCCCUGUCUUGUUCACCCCAGAAUAAAUCGCUAACACAAGUCUAAUUAACCUUCUUUCUCAUUCGUAG	AUUACUGUUGCAUCAUGUAUAGGAGCUGCCCAAGGUGCUCUCUUCAGUAU	TTAAACAATTAACTAAAGAAATTACTGTTGCATCATGTAT
282	YBR230C	YBR230C_2_680008_679507_INTRON_12_108	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	97	12	108	62	35	UGACUAACGUAU	GACUAAC	CCCAG	CAG	CAAUUAGAAACAUAACAUCUACCUCCAGCAUCUCAUAAUAUGUCUGCAAC	GUAUGUACACUAAUAUCUGAAACGUAUCGCCUAAUCUUUUCUCCCGGUUCUCUUUUGACUAACGUAUAUCAUCUAUGACCAUCUUUCUUUUCCCCAG	UGCUAAACACGACAGUAACGCUAGCCCAAAUUCUGACUCUGAAGACGGUC	TCTCATAATATGTCTGCAACTGCTAAACACGACAGTAACG
283	YCR028C-A	YCR028C-A_3_173432_172942_INTRON_243_325	EST	1	"Van Dyck E, et al. EMBO J 1992;est gi|254075|gb|S43129.1|S43129"	83	243	325	58	25	UUACUAACAUUU		UUCAG	CAG	GUUUUCAAUGAACCUCAAAUCAAUUUUUUGACAGAAUAUGUUAGAAAAGG	GUAUGUUAUUUAUUCUUCAAUUUUACUUACUUUACAAUUACGCGUUAUAAUUUACUAACAUUUCCUUUACAUAAUUUAUUCAG	CGCUUUGGUAUAUGUUGAAGCAGAUGCUGCUAACUAUGUCUUCGAGAGAG	ACAGAATATGTTAGAAAAGGCGCTTTGGTATATGTTGAAG
284	YCR031C	YCR031C_3_178212_177492_INTRON_8_314	NULL	1	"Li Z, et al. Mol Cell Biol 1995"	307	8	314	258	49	AUACUAACAACA		UUUAG	UAG	CUAUUUUAAACCCAAGGAGAGUAAGAAACCACAAGAACCCGCCAUGUCUA	GUAUGUUUAAUCACAUAGUGAACAUUUUUAAAGCAUCUCUAUUUUCCAUUGAUUGUUGUUGAAUGUUUCUGACGACGUGCAAGAUACAUUGAAAGUCAGAAACAUAAAGACAAUUCAACGAAUUCAUUGCCUCCAAAGUAAUUCAUAGCGAUUAGUAGAGCCUAUUGUGUCAAUGGCAGUAUAUUUUGUCAACUUUUUUUUCGAUGGAAAAGCAAAGAUACUAUGUAAGAAUUAAAAAAAAAAACUUUUGGAUACUAACAACAUUACGUUUGAUAUCGUCCGAUAUCGAUUUACUAUUUCCAUUUAG	ACGUUGUUCAAGCUCGUGACAAUUCCCAAGUUUUUGGUGUUGCUAGAAUU	ACAAGAACCCGCCATGTCTAACGTTGTTCAAGCTCGTGAC
285	YCR097W	YCR097W_3_293828_294314_INTRON_106_159	NULL	1	Miller AM EMBO J 1984	52	406	457	42	10	AUACUAACAAUU		UGUAG	UAG	AAGAAGUUGCAAAGAAAUGUGGCAUUACUCCACUUCAAGUAAGAGUUUGG	GUAUGUAAUAUGAGAAUCAAACUUAAAUAUAUCCUAUACUAACAAUUUGUAG	UUCAUAAAUAAACGUAUGAGAUCUAAAUAAAUUCGUUUUCAAUGAUUAAA	CACTTCAAGTAAGAGTTTGGTTCATAAATAAACGTATGAG
286	YCR097W	YCR097W_3_293828_294314_INTRON_106_159	NULL	1	Miller AM EMBO J 1984	54	106	159	43	11	UUACUAACAAUA		UUCAG	CAG	UAGGUACUGAGAUUGAUGAAAUCAAUCUCAAUACUAAUAAUCUUUAUAAU	GUAUGUUUUCAUUUCAAGGAUAGCCUUUGAAUCAAUUUACUAACAAUACUUCAG	UUUAUAAUGGAAAGUAAUUUGACUAAAGUAGAGCAACAUACAUUACACAA	ATACTAATAATCTTTATAATTTTATAATGGAAAGTAATTT
287	YDL012C	YDL012C_4_431513_431104_INTRON_46_131	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	86	46	131	48	38	GUACUAACGAGC		UUCAG	CAG	AUCUCAUGUCAGCUCAAGAUUAUUACGGAAACUCUGCCUCCAAACAAAGC	GUACGUUAAUUUUACAAGUUUUGCCUUUAGAAGAUCACAUCGUACUAACGAGCCCUUGUAUUUUCAUUACAUCACUUUCGAUUCAG	UAUUCUCGUCCUAGCGCUCCACCACCAGGAUAUGAAACGGCGUCUAGAGG	ACTCTGCCTCCAAACAAAGCTATTCTCGTCCTAGCGCTCC
288	YDL029W	YDL029W_4_399336_400634_INTRON_23_145	NULL	1	"Schwob E, et al Nature 1992"	123	23	145	109	14	AUACUAACCAUC		UAUAG	UAG	AAUAAACUAACAAAACUAUAUAAUAAUAAUGGACCCACAUAAUCCAAUUG	GUAUGUUGUUGAUAUUUUUAGUGUUUGUGGAGGCAAUUGAGCUCGGUGCCCCUUUUGGCUUUGCCUCUUUUGCAUUUUAGUUCUUUUACCCCUAUAUUAUUAAUACUAACCAUCUCGAUAUAG	UCCUUGAUCAGGGUACUGGUUUCGUCAAAAUUGGUCGUGCUGGCGAGAAU	GGACCCACATAATCCAATTGTCCTTGATCAGGGTACTGGT
289	YDL061C	YDL061C_4_341182_340627_INTRON_1_373	"5' UTR intron.  Original 5'ss (GTATGC) prediction is probabally incorrect.   There is a GTATGT about 40bp upstream (predicted, Planta RJ, et al.)"	0	NULL	409	1	408	371	38	AUACUAACAUUU		UAUAG	UAG	UAUUGGGAUUAGUAGUUUGAGAAAUUCUUUGAAAGAAACUAUAGCUAAAU	GUAUGUGGAAACGCGGAUUGAAGAGACAAGGGACGUGUAUGCAGAAUGAAGGAACAGCAGGAAAGUAUCUGCGCUGAUUUGGAUUUGUAACUAAAAUUUACAACUAAAAGAAUUGAAAAUUCGAGGAAAAUAUCUGUGGCUAGCAGUAGGGGGGAGCCUUUCUGGUGGCCCCAUGGUGGAAUAAGACGAUGUGUUUAUUGAAUGUAGCAACAAGCAUCAAACAUCAACAAAGCUUCAAAUUAUGUCAAAUACAAUGAGCCAUAGCAUAAGCUUAUAUUUAUUUCCUUUUAACUUCGAUAGUCGAAAAAUUCUAUUGUACACGUCCAUGGAACUCCUGGAAAACAUAAAAACUGCAAAAAUUAUAAUACUAACAUUUUUCUAUUCAAUUUUGAAAACUUAUUGGUUAUAG	AAUAUAUACAAAAUGGCUCACGAAAACGUUUGGUUCUCCCACCCAAGAAG	GAAAGAAACTATAGCTAAATAATATATACAAAATGGCTCA
290	YDL064W	YDL064W_4_337486_338069_INTRON_39_148	EST	1	"Davis CA, et al. Nucleic Acids Res 2000;Yasugi T, et al. Nucleic Acids Res 1996;est gi|622294|gb|T38477.1|T38477"	110	39	148	72	38	AUACUAACAAAU		AACAG	CAG	UUUGGAAGCAAUAUGAGUAGUUUGUGUCUACAGCGUCUUCAGGAAGAAAG	GUAAGUAGUAGUUUUCCUCCUUUUAUGCUUACAUUCUGUAGGCAUACACAAUUUCAUCCAGCGGUAUACUAACAAAUCGAUGAACUUAACUUGUUUUACUUGAAUAACAG	AAAAAAAUGGAGAAAGGAUCAUCCAUUUGGAUUUUAUGCCAAACCAGUUA	CAGCGTCTTCAGGAAGAAAGAAAAAAATGGAGAAAGGATC
291	YDL075W	YDL075W_4_322225_322987_INTRON_58_478	EST	1	est gi|171954|gb|M15162.1|YSCMIT30I	421	58	478	392	29	UUACUAACAAAA		AAUAG	UAG	GUUUGAAAGACGUUGUCACUCGUGAAUACACCAUUAACUUGCACAAAAGA	GUAUGUGAAAGAAUAAAAAUAUAAUGCCCAAGGGCUUGUCAUCUGAAUGGUUAAUUAAGAAGAUAUUUCUAUAGUCAAGGAAUACAAUAUCAAGAAUUUGUACCACAGAAACCUAUCAACAAAGAUCAUUGAUCAAGAUAUAUUUUAUAAUACGGAAUUUGAAGACCAUAAUCAAUAUUAUAACAUCCAAGAGGGGAAAGAUACACUUCGGCUGGACUUAAAGAGCGAUGAAGACAGAAAUAGUUAUCUUAAAUAGUGGAAUCCUAGAUUUUAAGUCGACAAUUAUCCAUAUCCCAAGUUUGACUAAAUAUGAAUCAGAACAAAUUGGGUCUCCAAUAUACAAAACCAUUCAUCAAGAUUACACUAAUAUUAAAAUGAACAAUCGUUACUAACAAAAAAUUUACCAUUUUAUUUUUAAUAG	UUGCACGGUGUCUCCUUCAAGAAGAGAGCUCCAAGAGCUGUCAAGGAAAU	CCATTAACTTGCACAAAAGATTGCACGGTGTCTCCTTCAA
292	YDL079C	YDL079C_4_314747_312950_INTRON_413_704	"Internal possible 5', GUCAGU, is not used."	1	"Davis CA, et al. Nucleic Acids Res 2000;Hardy TA, et al. Biochem Biophys Res Commun 1995"	292	413	704	281	11	AUACUAACAUAG		UUUAG	UAG	GAAAAUGAUUAAUUUUGAUUAUAGGUAUAUUAAAACCAAGGAAAGGACUA	GUAUGUAUAAUUAUUUUUUAUUUUUUUUUUUUAUGUUCUUGCCAGUGGAGGAAUGUUUCUUUCGUCACAACCGGAGUGAAUAGUGGAACUACUGUCAGUUCAUAGUAUCGCGACACAAAAAAAAAUAAUUAAAAGAAAAAAAAAGAGAGUGUAAAAUAAAGAUUUAUGAAAUUGCAUCCCUAAUCUUAGAAACUUGCUUACGAAAUAUCAGGAAGCAUAGCGGAACAUUUUUCCAUAUUACAUCAACUACCAUUUUUUAUGGGAAUCACAUUAUAUACUAACAUAGGUUUAG	UUCAUAAACGGGUUUAUAAACAUGACCGCAAAACUGAUGUCGACCGAAAA	TAAAACCAAGGAAAGGACTATTCATAAACGGGTTTATAAA
293	YDL082W	YDL082W_4_308423_309387_INTRON_5_369	EST	1	est gi|621661|gb|T37844.1|T37844	365	5	369	326	39	AUACUAACAAUU		AUCAG	CAG	AGGGGUUUGAGAAAAGCAUAGUACAGCACAGCAGGAAUCGUACACAAUGG	GUAUGUCUACUAUAAAAUAAUUCAAAUCACUUUUGUCAUUUCAUAGACCAAAGAAGCUCGCUUGUUACCUUAGAGGAUUAUACUAGUGCACAAAGGCAUGCAUAAUACAACACACGUUAUUGAUGAACCUAGAGAGGCUAAAGUUAUUUUCUAAUAAAUCAUGAGAUUUUUCUCCUUUUUACAAUAACUGAGCAGUCAUAGUAAUGGCCAAGCAAAUUCGAGACAGGACCUUUGUACCACUAUUUGCUGAACUCAUUGUUAGAGUCUUCUUAGAUAAUAUGAUAAAUUUGGUGUCUAAUUGAAACGUCCACUUUUCUGUAUACUAACAAUUUUUAAAAUGGGAUCUACCAAUUGAAUUAUAUCAG	CCAUUUCCAAGAAUUUACCAAUCUUAAAGAAUCAUUUCAGAAAGCACUGG	GCAGGAATCGTACACAATGGCCATTTCCAAGAATTTACCA
294	YDL083C	YDL083C_4_307788_306925_INTRON_25_456	NULL	1	"Molenaar CM, et al Nucleic Acids Res 1984"	432	25	456	391	41	UUACUAACAUGU		AACAG	CAG	AAUACAGCAAGAGAAUAAGCAACAAGAUGUCUGCCGUCCCAAGUGUCCAA	GUAUGUUAAAUAAUUUAAACGAUGUCACGAAUUUGUGAGGGAUAUUGAAACCAUGCAGUGAGAUAAUUUCAAUUUAAGAACCAUAUCACCUGAAUAAGACGGGUGGGGCAAGCACUAGAUGCGAAUCAUAGUUUUAGAACAACGGAUCACCAUUUCACACGUUAAAGACCGAGUAGAAAUAACCAAUAAAUUGUGUGGGAAAAUAUUAUACUUAAUUUCUCUGUGGAGUAAAGUAAUGAGCGUCUUUUGCGGUCUUAUUUAUUCAUUCGCUCCCCUUGCAAUGAAUUUUGAACAGAAUGCUCCAAAGAGGAAGUGCCAGGGUACCUCACUUGUUUCACCCUUUUACACAGUUCAUAAUAUUUUUGAGGAUUUUGAAUUUCUGUUUUACUAACAUGUGACACGAAAUGUUUUUCAUUUUUGGUUUUAUAACAG	ACUUUUGGUAAGAAGAAAUCAGCUACCGCUGUUGCCCACGUCAAGGCCGG	CTGCCGTCCCAAGTGTCCAAACTTTTGGTAAGAAGAAATC
295	YDL108W	YDL108W_4_267697_268698_INTRON_29_109	NULL	1	"Simon M, et al. EMBO J 1986"	81	29	109	55	26	AUACUAACGUUG		CGCAG	CAG	UUCCCGGCCUCAGAGCGAACAUAUGAAAGUGAAUAUGGAGUACACAAAGG	GUAUGUGGGGGUUAUAUAUUGUCGUCUUUCUUUUAACAUUCAAUAAUGAUACUAACGUUGAUUAAUGAUGAUUCAUCGCAG	AAAAGAAAGUUGGUGAGGGUACUUAUGCGGUUGUUUACUUGGGUUGUCAA	GAATATGGAGTACACAAAGGAAAAGAAAGTTGGTGAGGGT
296	YDL115C	YDL115C_4_255042_253994_INTRON_1_88	"5' utr intron, (maybe, don't know really since this intron is farther upstream of start codon than other 5' utr introns (238nt). No good coding frames are made using this intron, indeed, splicing destroys a decent frame.)  uses AAG 3'ss, skipping normal 3"	1	"Davis CA, et al. Nucleic Acids Res 2000"	88	1	88	46	42	UGACUAACUAAG	GACUAAC	AAAAG	AAG	GUUUAUCAGAGUAAAGAGAAGAAGGGAUGAGGAUUCUGUGCAGGCAUUAU	GUAUGUGUUGUUAUUCUACCGAUAUAACAAAAAUGCGUUUGACUAACUAAGUUCAUCUGGGACAAUUCAGUAAUUGAUGAGGGGAAAAG	AGUGAAGAAGCAGAAGUUCAUAUUUAAAUUAUCAAAGACUGUGAGCUCUG	GGATTCTGTGCAGGCATTATAGTGAAGAAGCAGAAGTTCA
297	YDL125C	YDL125C_4_239605_239018_INTRON_98_208	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	111	98	208	89	22	AUACUAACAAUC		AACAG	CAG	UGCUCCUGCUACGCUUGAUGCUGCCUGUAUUUUUUGCAAGAUUAUUAAAA	GUAUGUCACAUUACUAAUAAAGAGCUUACACUCACACCAAUGAUGGCGAUAGUCUCUAUGUAGUACAUAUACAUAAAGCAGAAUACUAACAAUCGAUCCGCUAUGCAACAG	GCGAAAUUCCAUCCUUCAAAUUGAUUGAAACAAAGUACUCGUAUGCUUUC	TTTTTGCAAGATTATTAAAAGCGAAATTCCATCCTTCAAA
298	YDL130W	YDL130W_4_229906_230527_INTRON_115_415	EST	1	"Remacha M, et al. J Biol Chem 1988;est gi|621429|gb|T37612.1|T37612"	301	115	415	243	58	UUACUAACAAAC		AUUAG	UAG	CUGACAACUUAUUGACUAUCACCAAGGCCGCUGGUGCUAAUGUCGACAAC	GUAUGUACAAAAAUGCAACCUAAAACGACUUUGUGUGACUACGAAGAGAAAGAUUAGACAACAAUCGUCCCGAGAAAUGCGCAAUUUUGAAUAAUGGGGGACAGAAAAAUUCCAUGUAACGUUUCCCUCUAACAUGAUGAGAUACUAGGGGGCAAUACAUGUAGAAAUAUUUCUCCAUUAACGUAUUUAACGGAAAGCACAAGUCAGGAUCGAAUUACUUCUUCAAGGAUCUCAUUUUACUAACAAACUCAACGAAUAACGACUCUUCCUAUGGAGCUUGUUAUAUGUAUCAUUGAAUUAG	GUCUGGGCUGAUGUUUACGCUAAGGCUUUGGAAGGUAAGGACUUGAAGGA	CTGGTGCTAATGTCGACAACGTCTGGGCTGATGTTTACGC
299	YDL136W	YDL136W_4_217600_218367_INTRON_4_408	"computer prediction, Wolfl S, et al."	0	NULL	405	4	408	368	37	UUACUAACAGUU		AAUAG	UAG	UUUGGUAGUACAGUGAGAACACGAUAAAGAACCAAAUAGGACUAAAAAUG	GUAUGUAGAGAUGAAUAUACAUGAAACGGACGUGAUAUAAUGUGCUAUGGAAGAAAAAAGUCUCCUUUAAUGUCUGCAGGAUAAAUAAUCAAGUGGUCUGAAGAAAAUUUACAGCUACAGUAUUACUGCAAACCUUGCAGGCAAAUAUCAGAGAGAUCUCACCAGCUACAACUUGGUAACAGAAAUUUAUAAGUUUAUGGCACUUGUUAAAAUUGUUUGGAAGUUUUCGAAAUUAUAAUAUUGGUCUUCAGAAACCUGGAACCACAUGUGAACUAUUUUUUUUGGAUAAUGCAUUGCACAGAGCGUAUUAGUGUAUACGAGAAUCUAAAAAUUUGAAACUGGCUCAUAAAAACAGGAACUUUUACUAACAGUUAUGAUUUUUUGUUCCCAUUUUCUUAUCAAUAG	GCCGGCGUUAAAGCUUACGAACUAAGAACCAAAUCCAAGGAACAAUUAGC	ACCAAATAGGACTAAAAATGGCCGGCGTTAAAGCTTACGA
300	YDL137W	YDL137W_4_216158_217074_INTRON_1_332	5' utr intron.   EST 102431	1	est gi|621148|gb|T37331.1|T37331	332	1	332	315	17	UUACUAACAUCA		AAUAG	UAG	UUUCUACGCAGACUCAAGUUGCAAUAGGCUAAAGAUAAGGCAGACACUUU	GUAUGUAACGAGUUUCAUUAGGAGGGAUAGACGCACGACACUAUCUGGUACUACGUGUUAUAUCAUACCCAGAAGGAAGGACUCUCUCCACUGAACGGUGGGAUGAGUUCCUAAAGGCGCCCCUUUAUUUGAUCAGGAAGCCGUAUUGAUUAUCUAAUAGGGCCUAGUUAUCCUAAUUGUGGGGAGUCGAGCAGUACGGCUCUGAUGUUUUUCGAACGAAGAUAAGGAGUUGACAUACAAAGUCAACAGAAGUUCUUCUUGUUAGCGUCUCUGUGCUCAAUAUCUCUCUUUUUUUCUUUAAGUAGUAAUUACUAACAUCAGCCAACCAAUAG	AGAUAAAAAAAAAAGGAAUUAAGAUUUCAUAGAGAAAAGAUGGGUCUAUA	AAAGATAAGGCAGACACTTTAGATAAAAAAAAAAGGAATT
301	YDL189W	YDL189W_4_122079_123590_INTRON_1_99	5' utr intron. AAG 3' ss	1	"Davis CA, et al. Nucleic Acids Res 2000"	99	1	99	82	17	GUACUAACAACU		UCAAG	AAG	GUUUUGGCGUAGGCAAUUGAGCCAUAUUGUACCAGCAAGCCGUGGUGACA	GUAUGUUGAAACGUGCAUCUUAUAAUGGGCGCACGAUUUAUUUUAUUUUAAUUAAUUUUUUAGUUAUUUCGUAUCGUACUAACAACUAAGAUAUUCAAG	UCUCUUCAAGUAUAUAAGGAGUUAGGGCAGAAGUAGGUGAUGACAGCACU	ACCAGCAAGCCGTGGTGACATCTCTTCAAGTATATAAGGA
302	YDL191W	YDL191W_4_117665_118518_INTRON_4_494	"predicted, Planta RJ, et al."	0	NULL	491	4	494	443	48	AUACUAACGUUA		AAUAG	UAG	CACUAUUAUUGACCGUAGAAUAGGUACAGUGAGACAGUAUAUUCGAAAUG	GUAUGUUUGAGAUGAACAAAAUAAUAAAGACUGACAACUGCAGAACAGAGAGGAUCAUAGCAACCUAGUGCAAGAAAGAGCCUCGAAGCGUUAAACUUUUGGAACGUAAUUCAUCCGUUGGCUAUGUCUAUUCAAUACAGUUAGAAUACGAAAGCUGUAAUCAAGUAUAUCGGAUUAUUCGCAAGCAAAGAAUCAAGGAAAAGAAAGUGAAAAUAGCAUACAUCUUUAAAUUCAGAGGUUUUGCUGAAUUUUAAUAGGGAAGUUUACGUUAUGAUUGUUGGCCGUAGAUCGCCUAGCGUUUGACCAAAUUUAAUUCUCCUAAUUUUUUUAUUGUAAAAAAGCCUUCCAACGAAAUAAAUUAGUUAUUGGUUUUUUUUCUCUGUUACGAGGGAUAUAUGAUGCCUGUGCUUGUUAGUUCAUUAUAAGUGCUAAUAAAAUACUAACGUUAAUAAAAAUUUGGAAUAUUAUUUCAUUUUUUAUCCUAUUAAUAG	GCCGGUGUUAAAGCUUACGAACUAAGAACCAAAUCCAAGGAACAAUUGGC	GAGACAGTATATTCGAAATGGCCGGTGTTAAAGCTTACGA
303	YDL219W	YDL219W_4_65243_65766_INTRON_66_136	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	71	66	136	51	20	UUACUAACACCU		GACAG	CAG	CAAAAAGUCAGCCAAGCAUCUGUAGUCGUCGAUUCAAAAGUUAUUUCAAG	GUAUGUUACCGGUUUUUUCAGCUUCGUUAGUGCACCAAUUUUUUUUACUAACACCUCUAUCUAUGUGACAG	UAUUAAACAUGGUUAUAUGCUCCUAGUAGGUAUUUCCAUUGAUGAUUCUA	GATTCAAAAGTTATTTCAAGTATTAAACATGGTTATATGC
304	YDR005C	YDR005C_4_458099_456832_INTRON_7_86	NULL	1	"Boguta M, et al. Gene 1997"	80	7	86	48	32	UUACUAACAUUG		CUUAG	UAG	GCUCAUUACUCCAAACGGAUUUUUUUGCCUAAAGAAUCACGACAAUGAAA	GUAUGUUAUCACUCUAAAACUGCCAUGCUCUUUAUUCGAAAUUACUAACAUUGUACCUGAACCCUCCUUUUCUUCCUUAG	UUUAUUGAUGAGCUAGAUAUAGAGAGAGUGAAUCAAACUCUCAAUUUCGA	AAAGAATCACGACAATGAAATTTATTGATGAGCTAGATAT
305	YDR025W	YDR025W_4_491510_492319_INTRON_46_384	NULL	1	"Folley LS, et al. Genetics 1994"	339	46	384	316	23	UUACUAACCUUU		UUUAG	UAG	GCAAGAUGUCCACUGAAUUAACCGUUCAAUCCGAGAGAGCUUUCCAAAAG	GUAUGAAUUUAGCGAUAAUGUCUCAAGGGAUUUAAAGAAAUUUUACCUAAAGUAACUUUGCUGAUAUAUAUCGUCUGAGGAAUUGUUUAGAAUAGAUGAAAACUUAGCAGGUAUCCUAUUGAAUUCUUAGCAUGUUUAUUGUUACGACUAAUAGAAUUUGCCAGUCAAAAUUUACAAUAUUUGCGUUAAUUAACUACAAAACCGGCGGUGCCGAAGGCUUGAUAAAGGUAGCACAUUUUUAUACUGAUUCAUUACGUUUACGAUAGUUGAUUGGGUAAAAUUUCUUUUUAUUUCACUUAUGCGAAUAACUUACUAACCUUUGUAUCAUCCUUUUUUUAG	CAACCACACAUCUUCAACAACCCAAAGGUUAAGACUUCCAAGAGAACCAA	CCGAGAGAGCTTTCCAAAAGCAACCACACATCTTCAACAA
306	YDR059C	YDR059C_4_569765_569229_INTRON_48_137	NULL	1	"Seufert W, et al. EMBO J 1990"	90	48	137	58	32	UUACUAACAUGA		CGAAG	AAG	AAAAUGUCUUCCUCCAAGCGUAUUGCCAAGGAAUUAAGUGAUUUAGGGAG	GUAUGUUAAAAAUAAAAUGAAUGAUUUUUCUUGAUCUGUAAAGAAAAAGGAUUACUAACAUGAGUUUCUUUUUUGAACUUUUUUCCGAAG	AGAUCCUCCUGCUUCAUGUUCAGCAGGACCUGUAGGGGAUGACCUGUAUC	GAATTAAGTGATTTAGGGAGAGATCCTCCTGCTTCATGTT
307	YDR064W	YDR064W_4_579453_580447_INTRON_22_560	"predicted, Planta RJ, et al."	0	NULL	539	22	560	486	53	UUACUAACAUUC		AACAG	CAG	ACUAAAUCAAUCAACAACAAUCAGUCAAAAUGGGUCGUAUGCACAGUGCC	GUAUGUUUAUUAACACCAUAGCGAGAUAUUAAUGCAAAAGUUGCAUUGAAUAGUUCGCUAAAUCAGAUGACACUCUAAUGUGGAAUUCAAAAGUGGAUUUCUAAUAUAAUUUGUCUCUGUCGGAUCACAAUUCUAUUACAAGUUCCGGUGUGUACACAGGUAUAGUUUAUACUGGAGAGUAGUUUCUACUCGCUGUACAUUAGCUGGGUGAUUCCAAUUUCUUUUACAAAUAUGUUGCAUUAGUUUAACAGGUUAUACUAUCUGCCGUUUCUCAGUAUAAUUUACGCCGGAAAAUUACUGAUGGCUAGCCGCCUUUAUGAAUUAGUUUUCACAAAGCUCAUAACAUAACACGUUAACCUAUCGGAGGAGAACCAAGAUUGAAGAAUCACCCGGAAUAGUUAUACUUUAAUGGAAUUGUAUGGUCUGAACGAGGAAAUAUGUCAUGAUACACUUUUCUUCAAGCCAUAUGAAUCUUCAUGUUACUAACAUUCGAUAAAUUUUUUGGAAUAUCCAAUUCCACUAAAUAUUACUUUAAACAG	GGUAAAGGUAUUUCUUCUUCUGCUAUUCCAUACUCUAGAAAUGCUCCAGC	TGGGTCGTATGCACAGTGCCGGTAAAGGTATTTCTTCTTC
308	YDR092W	YDR092W_4_629869_630598_INTRON_31_298	Skips numerous good looking possible 3' sites.	1	"Davis CA, et al. Nucleic Acids Res 2000"	268	31	298	113	155	AUACUAACGCAA		UAUAG	UAG	UCAUUGUAACAUAGUUAGAAAUGGCAUCAUUACCCAAGAGAAUAAUCAAG	GUAUGUUCAAACAAGAGCAGUGGAUUAUAUACGAAAUCUGAAGUGACGUUUUCGUCUGAGCCGUCACACUCUACACUGUUUCCUCUUGAUAAUGGCUAGAACUUACAUACUAACGCAAAACUUCCAAAACAAGAAGGCUUUUUUUGUCCAGUUUGUAGCAGCGUUCCGCCUUCCCUUUGUCCAUAUCCGCAAACGCUCAUAUGGAGGGAAUUCAACAGAACAAACUACUAGGGCAGAAAACGCAAAGUCUUUGUGAACUUUCAUAUAG	GAAACUGAGAAAUUAGUAAGUGACCCAGUACCUGGCAUUACAGCAGAACC	TACCCAAGAGAATAATCAAGGAAACTGAGAAATTAGTAAG
309	YDR129C	YDR129C_4_715372_713333_INTRON_22_132	NULL	1	"Adams AE, et al. Science 1989"	111	22	132	92	19	AUACUAACAAAC		AUUAG	UAG	AUUAGCCCUAAGGAGUACACCAAAACACAAUGAAUAUUGUCAAAUUACAA	GUAUGUAUGCCUUUCUCGAAUUCCCACACUGCUGAGCACAGUGAAAAAGUUUUUUCUACCUUUUAGGUUGUAAUAAACGUUUCAUAUACUAACAAACUCUUCUGCGAUUAG	AGAAAAUUUCCAAUUUUGACUCAAGAGGAUCUUUUUUCCACAAUUGAAAA	TGAATATTGTCAAATTACAAAGAAAATTTCCAATTTTGAC
310	YDR139C	YDR139C_4_733917_733611_INTRON_150_222	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	73	150	222	61	12	UUACUAACGACC		GAUAG	UAG	GAAGGGAUUCCACCAUCUCAACAAAGACUUAUAUUCCAGGGAAAACAAAU	GUAUGUUCAUUCAGUGGUUAAUUAUCUUUUAAGUUUAUUUACGUUUUUGAGACCUUACUAACGACCAGGAUAG	UGAUGAUAAAUUAACAGUAACGGAUGCACAUCUAGUAGAGGGAAUGCAAC	ATATTCCAGGGAAAACAAATTGATGATAAATTAACAGTAA
311	YDR305C	YDR305C_4_1073479_1072737_INTRON_88_176	"Prediction, Resisted PCR. Possible strain to strain differences"	0	NULL	89	88	176	53	36	UUACUAACUAUA		UACAG	CAG	AUAAGCCAAUAUAUUUCAGCAAGUUUCUUGUAACUGAACAAGUUUUCUAU	GUAUGCACUCUCAUAUGUUUUUUUGUACCCCAUUCGCACCAUUGCGUUACUAACUAUAUGGAGACCUUAUAAUCUCUGCUUCUUUACAG	AAGUCAAAAUAUACGUAUGCAUUGGUAAACUUGAAACCAAUUGUACCCGG	TAACTGAACAAGTTTTCTATAAGTCAAAATATACGTATGC
312	YDR367W	YDR367W_4_1212837_1213603_INTRON_31_131	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	101	31	131	71	30	UUACUAACCUGU		CAUAG	UAG	UGUAACCAUUAACCUUAGUUAUGAGAUCAUCUCUUCUAACCCUUCCAAAA	GUAUGUUUCCGGCAAACGCUAUAAAUUUUUGUUAACUUGUAAGGAUUCGAAGCAAAGCACAAUUUUACUAACCUGUUCUCAAACAUAUUUUUUUUUCAUAG	UCUUUUUUGGGGUUUAUGCCGCUAUACCUUGCAGUUGAGAUUGUCUUAGG	CTCTTCTAACCCTTCCAAAATCTTTTTTGGGGTTTATGCC
313	YDR381C-A	YDR381C-A_4_1238839_1238301_INTRON	"prediction, Blandin et al.  Hypothetical ORF identified by homology.  Must skip several good 3' ss to stay in frame"	0	NULL	194	27	220	49	145	AAACUAACAUUG	AACUAAC	AACAG	CAG	UCUUUGAGCCGUACUAAGUAUACAAUGUCAAAUCCAUUUCAAAAUAUAGG	GUAUGUGUAAAAGAAAUAGGGAAACAUCUAUUCGUAAAGCCUAAACUAACAUUGGAUAUCUUUUUCUAUUUCCCGGACUUCUUUUUUGGUUAUUUCCUUAUUGGCCUAUCCCUUGAAGCAGAGUUUGAUUGCACCAUAUAUAUAACCAAAGUGAAGACGAAAGUAGGAAAACACUACCAAUGCGAUUUCAACAG	UAAGAAUUUACUAUACAUUUCUGCAGCCGGGAUUGCGUCUAUUUAUGUGG	AATCCATTTCAAAATATAGGTAAGAATTTACTATACATTT
314	YDR381W	YDR381W_4_1236547_1237993_INTRON_286_1051	NULL	1	"Portman DS, et al. RNA 1997"	766	286	1051	746	20	UGACUAACUUUU	GACUAAC	UAUAG	UAG	AGGUCAACGUCGAAGGUUUGCCAAGGGACAUUAAGCAGGAUGCUGUAAGA	GUAUGUUAAUACGUGAAAUGAGAGCUAUUUGUUUAGUUACUCGCAUCGUCUCGUGUGGAUACGAGAAAUAUUCUUUGUAAGGAAGGAUAUGGCACACGCUUUUGAUCAAGAAUUCUCUUUUUAGAGAUGAAGAAAGAGUCCGAAAUACUUCGCUAGAGAAAAUACAAAAAGAGUAUCGUUUUCAUAAGCCAACCAUACCAAUUUUUUUCAAUACUUCAAAUCAUGGCCUAUAAGGUUGGAAUUACCAGCUACCACUGAGAAUGGGUUUGUUCUUAUUGGCUGGGUUAACUCAAAUCAAUCUGACUAUCUGCUAAUCUGUCAAUCUUACAUUUUUAAGCUGGCGUAUUGUGUCGCCUCGACCGUGAUAGUUAGUUCCUAUUUUUAAUAAGCGUAUCAUCCAAUACUGAAGUUGUGGAAGGAUCAAUUAAUUUUGUAUCCUUUCAAGAGGGAGUAGCUUUCAGUUUCGAAUGGCACCAUUUUCAAAAAAUAGCUAUGGGAAACAUGUCUUUCAUGAACGUUCGAAAAGAUAUGAGUGCAUCGCUUCAUUUUUUUAUUAUGAUAGUUACAAAAAUAUUUGAUUUGAGACACCUAAUGAAACCAAAGAGGAACUCACCCAUCGUGGUACAUGUUUAUUUGAGGGUUUAUUUUUCCUACGCAAUGGUAUACUUUUAAUACUCUCAACUCCUUGAUUGUUUGUGUAUUGUCCCUUCCUUCUUUGAUUUUAUAUCAUAGAGAUAUAUGACUAACUUUUUUUUUUUUAUUAUAG	GAAUUUUUUGCAUCUCAAGUAGGUGGUGUUCAAAGAGUUUUGUUGAGUUA	TTAAGCAGGATGCTGTAAGAGAATTTTTTGCATCTCAAGT
315	YDR397C	YDR397C_4_1266887_1266355_INTRON_38_129	EST	1	"Davis CA, et al. Nucleic Acids Res 2000;est gi|1666486|emb|Y09266.1|SCREP441"	92	38	129	65	27	AUACUAACUUAG		CUUAG	UAG	UAUUAAUUAAUUGAUGGCUGGAGACUCCGAUAAUGUGUCGCUUCCCAAGG	GUAUGUUAGUUAUAUUGUUGUUGCAAAACUCAAGCUUUGAUGCGGGUACUGAGCGGUUAUACUAACUUAGAGAAAACACUGAAUGAUCUUAG	CGACCGUACAAAAGAUGAUAUCUGAAAUACUGGACCAGGAUUUGAUGUUU	TAATGTGTCGCTTCCCAAGGCGACCGTACAAAAGATGATA
316	YDR424C	YDR424C_4_1319830_1319376_INTRON_145_224	EST	1	"Dick T, et al. Mol Gen Genet 1996;est gi|1143274|gb|U36468.1|SCU36468"	80	145	224	64	16	UUACUAACAAGG		CUUAG	UAG	AGUGAGGUUUUCUUCCAUGAAUUGCAGCUAUUGUUAAGGCGUCUGACAUA	GUAUGUAAUUGUGCCAUGAUAUACAUGUUUUGUGUGUGUACAUUUGAAUAUAUAUAUUUACUAACAAGGAGAAAACUUAG	ACCGACAAGCUGAAAGAGGAUAUUUUAACCAUCAGUAAAGAUGCUCUGGA	TTGTTAAGGCGTCTGACATAACCGACAAGCTGAAAGAGGA
317	YDR424C	YDR424C_4_1319830_1319376_INTRON_26_121	EST.  Both introns must splice to produce the protein below.	1	"Dick T, et al. Mol Gen Genet 1996;est gi|1143274|gb|U36468.1|SCU36468"	96	26	121	59	37	UUACUAACUCGA		UGCAG	CAG	UAAAGAAGAGCAAAUUAAAACCAAAAUGAGCGAUGAAAAUAAGAGUACGC	GUAUGUCAGUUAAUCUCAGUCACAAUUUUGUGACUUUCAAUACAAUUUUUCUUUACUAACUCGAGGAAGAGUGAGGUUUUCUUCCAUGAAUUGCAG	CUAUUGUUAAGGCGUCUGACAUAGUAUGUAAUUGUGCCAUGAUAUACAUG	CGATGAAAATAAGAGTACGCCTATTGTTAAGGCGTCTGAC
318	YDR447C	YDR447C_4_1355542_1354818_INTRON_4_317	NULL	1	"Abovich N, et al. Mol Cell Biol 1984"	314	4	317	277	37	UUACUAACUUAA		UAUAG	UAG	GUAUAACCUAGAGAAGAAUAAAUAGAUAAAGAAAAAAGCAGAUAAAAAUG	GUACGUACCACGAGAUGUUGAUGAAGCCGGAUAUGAUGGACUGGGCGCUGAACACAUGAAAUGAGGGCAAGGUUUGCAGAGAGAUUGAAAGCGUUAUGGGAACGAGGGGACCAGCAGGGCAUUCUUAUUUAUGAGCAGAUUAGAAAACUCCAUUACUGAUUAGUUUAGAAGAGCGCUCAAUGAAGUAGUAGAUAUUUAAAAGAUCACCAAAUAACCAAUUGCUUUCGAAUGGCACAUUCUAUCUUAUCCAAUGGUCUUGAAGAGAGGUAUUUACUAACUUAAGUUGUCUCAUUUGAUUAUUGCUAUUUUUAUAG	GGUAGAGUUAGAACCAAGACCGUCAAACGUGCCUCCAAGGCUUUGAUUGA	GAAAAAAGCAGATAAAAATGGGTAGAGTTAGAACCAAGAC
319	YDR450W	YDR450W_4_1359912_1360787_INTRON_48_482	EST	1	est gi|621523|gb|T37706.1|T37706	435	48	482	390	45	UUACUAACGUUU		CGCAG	CAG	AAGAUGUCUUUAGUUGUCCAAGAACAAGGUUCCUUCCAACACAUUUUACG	GUAUGUUUAUUAUUACUAGUGAGCUAUGACAAAAUCGGCUAAAAACUUAAAAAUAUGACAGACAAGAAAGGAAAUUCAUUCACCUCUUUAAUCGUGGCGAUUAUUCGCUAACGACGUGAUUAAAUAUAAUAAUGAUGUUCCCGGGCUGGACUAAGAACGUAAUAAUAAGGCUGAUGAACAAAUUUAUGGUUUAUGCAUCAAAAAGGAACAUGAAUUUGGCAUAAGCGCACAUAAUUACGGAACAUUGCAAUAGCGGUCGGAGGUAAAGUACCGGGAAUGCUUUACAAUGAAUCAGCUAUUGGCGGAUAUUGACCAACCAACACUAAAAUUUUAUAUCCUGCUCCGAUUUUUGUCUUGGCCGUGAAAUCCAUUAUGCACAUUUUUUACUAACGUUUAUCAAUAAGUUCGGUUUCCCGUCUAAAUUUUUUUACGCAG	UUUGUUGAACACUAACGUUGACGGUAACAUUAAGAUCGUUUACGCUUUGA	TCCTTCCAACACATTTTACGTTTGTTGAACACTAACGTTG
320	YDR471W	YDR471W_4_1401759_1402553_INTRON_32_415	EST	1	est gi|620274|gb|T36457.1|T36457	384	32	415	363	21	UUACUAACAAAU		CGUAG	UAG	CAAAGAAAUCAAUAUAACCAUGGCUAAAUUUUUGAAAGCAGGUAAAGUUG	GUACGUAAAUUUAACAGAGCAAACGCUCUAAUUAAGAUAUCGAAUAAAAGGGGACUUUCAGGUGCAUAAGAUGGGAAAUUGUACAAUCUGAGGGACAAACAAUAUGGAAAGCAGUACAUGAUUGUAUUGUCAUUGUAGGAGGUACCAAUUGUGCCAGUAAAAAAGAGAGGGCCCGGGGAGCACCACAUUCACGACCAAUCGUGUCGAUCUGCAAAAAAGGCACAUGGAAAAUGUAAUUUAUCAGUGUUCAACACUGAGUUGAACAGAUAGCUAUCUAAUCAAUGUUAACUUUCCAGGGAACAAAAAGCUAAAUCCACUUCUCUUUUAUUUCAAAAUAUCAUUAGAAAUAGAAAAAUUUACUAACAAAUUUUCGUAUUAUCGUAG	CUGUCGUUGUUCGUGGUCGUUACGCUGGUAAGAAGGUUGUGAUCGUUAAG	TTTGAAAGCAGGTAAAGTTGCTGTCGTTGTTCGTGGTCGT
321	YDR500C	YDR500C_4_1450856_1450201_INTRON_8_396	"predicted, Planta RJ, et al."	0	NULL	389	8	396	355	34	UUACUAACGAUA		AACAG	CAG	GUGUAGAUAAAGAACAAAGAGGUAAACGAAUAUAUAAGUAAAGAUGGGUA	GUAUGUACAGGAAUUAUUAAUUGAUGAGUCAACGUUCAAUCACAUCCGGUCUGAUUUAGAGGAUUACAUGAGAAAGAAGCACUGAAAAAAUUUUCCACCAGGAGAGGCCAGGUAAACUAAGACCUACGUUAUUCACUAUGCCAAAAGAUUUAAAAAUAUAGAAUGAUGAAUGUUGCCAGAGCCAUUGAUGAUAAGAAAUUGCACAUAACGGAUGCAUAAAGAGCGAAUAAAAAGAUUUGAGUGUCAAUACAAAAAGGUGAGAAGAAAUAGUGUAAGACAGCAACACACAUCUAGACCGCCAAUGAAGUUGUUCUGAAUCCAGCAGUAGAGUUUAUUUAGUUCAAAGUUUUACUAACGAUAAUUAACUUUUAUGUUUUCAUUUUAAACAG	AGGGUACUCCUUCAUUCGGUAAGCGUCACAACAAAUCUCACACCUUGUGU	TATATAAGTAAAGATGGGTAAGGGTACTCCTTCATTCGGT
322	YEL012W	YEL012W_5_131772_132551_INTRON_6_128	NULL	1	"Kaiser P, et al. J Biol Chem 1994"	123	6	128	77	46	UCACUAACAAAG	CACUAAC	AACAG	CAG	AGUAUUUCAUAAGGAAUAUUGGAAGAAAGGAGCGUAAUACGAAAGAUGAG	GUAUGUUUGAUAAGAUAUAUACGUAUAUUUAUAUAUCACUCUUCUGAGAAAGUAUGCCAUAGAAUGAGGAUCACUAACAAAGAAAAUGUCAAUGAACUUCAAAGAUAUCGUUUAAUGAAACAG	UAGCUCUAAAAGAAGGAUCGAGACAGAUGUUAUGAAACUGUUGAUGAGUG	AGCGTAATACGAAAGATGAGTAGCTCTAAAAGAAGGATCG
323	YER003C	YER003C_5_159117_157735_INTRON_32_124	"Human edited branchpoint prediction, 4 nt away from HMM prediction.  2 possible branchpoints"	1	"Smith DJ, et al. Mol Cell Biol 1992"	93	32	124	74	19	UAACUAACGCGU	AACUAAC	UGUAG	UAG	GACCAGAAAAUUUUAAAACAUGUCCAACAAGCUGUUCAGGUUAGAUGCAG	GUAUGUGCCAUUUUUCGUCAAAUAUUUUGAAUACUUUGAGUAUUUUUUUUUUUUUUUUUUGGUACACUAACUAACGCGUACGACUCUAUGUAG	GCUACCAACAAUACGACUGGGGUAAAAUCGGCUCUUCUUCAGCUGUCGCU	GCTGTTCAGGTTAGATGCAGGCTACCAACAATACGACTGG
324	YER007C-A	YER007C-A_5_166884_166236_INTRON_12_114	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	103	12	114	88	15	UUACUAACAUCA		GAUAG	UAG	UAAAAGACAAAGACGGUAAACUAAAACAGCAGAGAGGAAAUGUUUAAGAA	GUAUGUCUAACAUGAGAAUGAAUAUUGCGUAAUUCACUGGUUUUACCAGGGGUUAGUGUACACUUUUGACUCAGUAAGCAAUUACUAACAUCAUCAUCGAUAG	AUUCACAAGAGAAGAUGUCCAUUCACGUUCAAAGGUCAAAUCUUCAAUUC	AGAGAGGAAATGTTTAAGAAATTCACAAGAGAAGATGTCC
325	YER044C-A	YER044C-A_5_239773_238459_INTRON_64_151	EST	1	"Menees TM, et al. Mol Cell Biol 1992;est gi|171919|gb|M84764.1|YSCMEI4A"	88	64	151	44	44	UUACUAACUUUU		GACAG	CAG	AACUGGAAGAUAUGGAACAAAAGGAAACAUCGGAAGUUGACUGGAUAAUC	GUACGUGAAAUUGUCACAUCCUUAACCUAUUUUCUCUUUACUAACUUUUAGUAAGAGGUGUAAUCUCCUCGAAUAUUAUCUAUGACAG	UGUUUUGCUUUAAUUCAAUCCAGGAAUCCUACGUUGUGGAAGAGGGCACU	CGGAAGTTGACTGGATAATCTGTTTTGCTTTAATTCAATC
326	YER056C-A	YER056C-A_5_270183_269421_INTRON_38_434	"prediction, Planta RJ, et al."	0	NULL	397	38	434	344	53	GUACUAACAUAU		AAUAG	UAG	AGAACAACCAAAGAUGGCCCAACGUGUUACUUUCAGAAGAAGAAAUCCAU	GUAUGUUAAAGGCACACUUAUAAAUUACGAGAAAUUCUGACGAGAUGAUGAUUAUUCAACUAAAAAAGAGCAAGAGAGGAGAGGAUACCAUGUCAGGGGUCCUAGUAUAGUUAUCAAAAGCAAUUUACCCCGUUUUUGUAAUCCACUAUCAAUAACUUAUUCUGCGCGAAAUAUUGUGUCCAGAAAUAAUACAAUAUUAGUAGCAAUGAGAAGAAAAACGAUAGUUAAUAAGAGCAGCCACUUUUAACCCUGAUACUGACUAGAGCUAAUAAUCUCAAUCUGUGUUACGAAAAUUUCUUUUAAAGUUUUCUCGAACUCCUUCCUAUUGAAACAUUUCGUACUAACAUAUUUUUCAAAUGAGAAAGUAUACCAACUUUCUGAAAACAUUUUCAAAUAG	ACAACACCCGUUCUAACAAAAUCAAGGUUGUUAAGACCCCAGGUGGUAUU	TTTCAGAAGAAGAAATCCATACAACACCCGTTCTAACAAA
327	YER074W	YER074W_5_306319_307192_INTRON_4_469	"prediction, Planta RJ, et al."	0	NULL	466	4	469	424	42	UUACUAACAAUU		CUCAG	CAG	UUAGUUCAAAACAAAGAUUUCAAGAAACCAACAUAGAUUAAGCAGAAAUG	GUAUGUUAAAAAGUGCUCAGAUGAAAGAUGACGUCCCAUAUUCCAUGUUAAAGUUGCCAUGAGUUAGUAUAAAAGGCAAUAAAGGUACCAUAACGAGAAAAGAAAGUAAAAGAAGAAAUGUUUUGCAAAUUUAAGGUGGCGUAACAGCAACUAUUGGCUAAUAUAUUAAUGGCAAUCAUUGUGAAAAGAAAUGUGAAAUCCGUAUCGUAAUUGGUUAAAUUUAUAACUCAAAUUUAAACACUCGAAUAGCUGACCCGUAAUAUUUUAUCCCGCUUUAAGAGUUCAACGCUAAAAAAUGAUAUCUAGCUAACCAUUAUGCUACAGGAACCUUUUUUGGACUAUUAUCCCUAUCAUGAAAACUGGAAGGAUCUUUCAAGGACGCCAUUUCCAAAGAUUUCCCCCACACUGGAACCUAUUUUACUAACAAUUUUUAAAAUGGUUUUUUACCUAAAUUGUUUUUUCUCAG	UCUGACGCUGUUACUAUCCGUACUAGAAAGGUUAUCUCCAACCCAUUGUU	ACATAGATTAAGCAGAAATGTCTGACGCTGTTACTATCCG
329	YER074W-A	YER074W_A_5_307649_308119_INTRON_95_196	"prediction, Blandin et al.  Hypothetical ORF identified by homology.  The first intron was also predicted by Leslie"	0	NULL	102	95	196	59	43	AUACUAACUUUA		UGCAG	CAG	AUUGAUUAAUGCCGUUGCAGUACUGAGCGAAGAAAGGUUCUUAAGAAGAA	GUAUGUAAACAGGAGAGGCAACCAUAAACAACUUAUUUUAAAGCAACAAUUAAUACUAACUUUAUUGAAUAUGCUAAUACAUUAUUUCACCGAUUUUUGCAG	UUGGCCUUGGAAGAUCAAAUGAUGAGACACCUGUUUUUGGUCAGGAUCAA	AGAAAGGTTCTTAAGAAGAATTGGCCTTGGAAGATCAAAT
328	YER074W-A	YER074W_A_5_307649_308119_INTRON_305_415	"prediction, Blandin et al.  Hypothetical ORF identified by homology."	0	NULL	111	305	415	88	23	UUACUAACGUUU		UGUAG	UAG	GAAGUCCAAGGUUGUUCAAUUGAUUGGCGCCGUACAGACAUUACUGAGGA	GUAUGUUAUGUUGAUGGAGAACGGUUAAAGUUACAUUUCAUCAGUUUUUUCCCGUUCUUUUUCACCUUUUGUGAGAAAAUUUUACUAACGUUUCGUAUAUUAUUCUUGUAG	UACCAUUAAUUGGAAUAAAUAUACUGGUGAUUGUUUAUGAAUUACUAUUG	CGTACAGACATTACTGAGGATACCATTAATTGGAATAAAT
330	YER093C-A	YER093C-A_5_348396_347908_INTRON_125_199	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	75	125	199	56	19	UUACUAACACCG		AGCAG	CAG	CACCCUGAUUACCAUGAGGCUUAUCUCCAGGGCCAUAAAAGUACGAAAAU	GUAUGUAUUUUGUCCUAGUUCAGUGGCCAAAACUAAUAAUAGGAUAUAGUUACUAACACCGUCUACUGAAAGCAG	ACGUCCCCAGCAUAUUUCAACAAAAUUACAAGCUUCCACCUUUUUCCCAA	GGCCATAAAAGTACGAAAATACGTCCCCAGCATATTTCAA
331	YER102W	YER102W_5_362729_363698_INTRON_1_360	"5' utr intron. predicted, Planta RJ, et al."	0	NULL	360	1	360	337	23	UUACUAACAAAU		AAUAG	UAG	AUUUUUACUUACCAAACAUUGAAAGGAGACUGAACACACCACGAUAAAAC	GUAUGUUCUGAUACCCAGCAAAUGAGAAAGUAGAAGGAGAAACCUAAAAACCUGUGGCGGUCAAGACUGCUAGCAAGAUGGAUAUUUAGAUCAUAAAUUCUAACGCAUGCAUCCUGAGCAAUGAAAUCAUGCAACCUAACAUUUGAGGUUAAUAUAUGAGAAUUAACUAGCGUUGAGGAGGUACUGCAAUUUAAAAGACCGAAGAAUUAUCGAUGCAAGGAAAAAUGGGUCUAGGAUGAAUACGAGCAAUUGAAAUACAUUUGGAAUACCUUGUGAAAAUAUCACAUACUUUCGCCUUCUAUCUCGAUGCGUUAUUACAAGAAAAUAGUUUUACUAACAAAUUAACAAAAAUUAAAAUAG	UGUAAAAAUGGGUAUUUCUCGUGAUUCUCGUCACAAAAGAUCAGCCACUG	TGAACACACCACGATAAAACTGTAAAAATGGGTATTTCTC
332	YER117W	YER117W_5_396765_397649_INTRON_43_513	NULL	1	"Berroteran RW, et al. Yeast 1995"	471	43	513	419	52	UUACUAACAGAU		AAUAG	UAG	CAGCAAAAAUGUCAGGUAACGGUGCUCAAGGUACAAAAUUCAGAAUUUCU	GUAUGUUAAAACCGAAACAAGUGGAAAUACCCAUUUAAAUCACACAAGAUGUCGUCAAUCAACAAAUAAAAAAGUAUAUUCCCGAGACUGAAUGUUACAAUUGAGACAAGCAAUGUUCAAGAAAUGUGGGAGUCUAUCAAUGAAUAUAGUGGAUAGCCAAAAUGGAAGAUGCCAAAUUUAUCCUUAAUGGCUUCUCCAUGCCUACAUCCAGAUAGCGAAAUCUACUUCUGGGCCUUAAAGCGUUAAAUGGAUGCCUUUCCAACUGAUUACUGAGAAGGUUACUUUUGUUAAGACUAUUGGAAGUUCUAUGCGGAAUAUACAAACUCCAAAAAUGUCCAAUUGUUGUAAGAUCAUUUAUGUCCAAGAAAUAUAUUUGUGUUGAUGGUUCCAUUCUUGCCAAGAUAGGAUUGAUUUACUAACAGAUUAAUUGUGUGCUCAUUUUUAUGUGUCACUUACAUUUUUUUUAAAUAG	UUAGGUUUACCAGUUGGUGCUAUCAUGAACUGUGCUGACAACAGUGGUGC	GTACAAAATTCAGAATTTCTTTAGGTTTACCAGTTGGTGC
333	YER131W	YER131W_5_423587_424307_INTRON_1_361	"5' utr intron. predicted, Planta RJ, et al."	0	NULL	361	1	361	328	33	UUACUAACUUCA		UUUAG	UAG	UCAAUUUACUUUCAAAAAGAAAGAUAAAUACACAUAAUCAAACAGGAAAA	GUAUGUUAUAAGAGCGAAUAAUGUGAUAAAGGAGCAAAGUGGAAGGAAAGAAUUAUAAAGAAUGACGUUGCCGUAAAGCCAAUUUUUCAACCAACAAAAUUGCAAUAGUUUCAAGCAAAUUAUGGUGUGUCCGGGAUUGGCGGUAGUAAAUUGUAAAACAAUAGCUGGUCAAUAGUUGAUAUUCAUACCGACACUAUAAUCCACAAAAGAUGGGUGACAUUGAUGGCUGAAAUGGUAGAGGCAAGAAAAUUUUUUAAAGCAAUAAGGCAUAGACGUUUCUAUUAAUCCUUUGUUUUAUUCAGUAUUUUCGAUAUUUCCUCUUUACUAACUUCAAUUUACUGAAUUUGUAUGUAAUUUUUAG	AUGCCAAAAAAGAGAGCUUCCAACGGUAGAAACAAGAAGGGUAGAGGUCA	CACATAATCAAACAGGAAAAATGCCAAAAAAGAGAGCTTC
334	YER133W	YER133W_5_432491_433954_INTRON_178_702	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000;Feng ZH, et al. J Biol Chem 1991"	525	178	702	495	30	UUACUAACUUAU		UUUAG	UAG	CUAUAUUCAUAAAGCAACCCAUUUUACUAGAGUUAGAAGCCCCAAUUAAA	GUAUGUUAAUGUUGAACUUCGCAGUCAAGAGAUAGAAUGCCUAGAGCUUCAGGUGUUUUAUGUGUUCUACUCCUGUUGCGGCAGUAAGAUAGUUACAGCAGUUAUUUCCGUUUGACUGAAAGAAUUUACCAAGCAUCUGAUGUUAGCCUACUCAUAUGUCGAGAUAGCCGAGAUAAUGUGUGUGUUUAGCUCUUCAUUUUUCUAUCUUAUUAGGCAUUUUUUUACCAAGAUUUCCUUAUGUUUUGUAUCAUCAUCCGGCCGGCGCCUCCCAUAUUCAGAAAAAUCCCCCUUGCUCACACUAAAAAAAGAAGGCAUUUUUUCGUUAUGAAGAAAACGAAUCUUUUUUUUUUUUGAGCCCGAGAGAAAGGUCGGACGAAAACCAAGAAAUGUGGAUUUGCAGAAGGCAUUGGGAGAAAUGAAGCGUUUUUGACAGCAGUAAUUGUUCUCUUAAAGUCAACGGAAUGAGCUAGAUUUAGUGACAAAUUCAUUUACUAACUUAUUUUUUUCUAUUUUUUUUUUUUUUAG	AUAUGUGGUGACAUUCAUGGGCAAUACUAUGAUUUACUACGUCUAUUUGA	AGTTAGAAGCCCCAATTAAAATATGTGGTGACATTCATGG
335	YER179W	YER179W_5_548416_549512_INTRON_133_224	NULL	1	"Kobayashi T, et al. Mol Gen Genet 1993"	92	133	224	64	28	UUACUAACUAAU		UAUAG	UAG	AUGCCUCAGAUCUUCAAAAAUUGAAGUCUGGUGGGAUAUACACAGUCAAU	GUAUGUUAUAAUAACAUUUUUAAAACCUCUGCUGUAGAGGUUCUUUCCCCCUUUCUUUUACUAACUAAUAAUUUGGAAAGGAACUUUUAUAG	ACCGUUUUGUCAACAACAAGAAGACAUCUAUGUAAAAUUAAAGGGUUAAG	GTGGGATATACACAGTCAATACCGTTTTGTCAACAACAAG
336	YFL034C-A	YFL034C-A_6_64931_64242_INTRON_13_333	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000;Planta RJ, et al. Yeast 1998"	321	13	333	305	16	UUACUAACAUAA		AACAG	CAG	CACAGUAAACCUAUAUCGUUUCACAAAUAUCAACCACAAUGGCUCCAAAC	GUACGUUAAUUUUCGUUCCUAUGUCACAAUUAGAGAACAUGAAAGAAAAUAAAAUCUUUAAAAAGUUUGUCUAUUCCUACAGUUCAUUGAACAGUCCCGCUUUCACAGCGAACUAGUGGAUUCCAUCUCGAAGUUACAUUUUUAUGUAUUCAGCUAUUCUGUAUUUUAAAAAUUCACCCCUUAUAGCUUUAACAGAGGCAAUGCGCUUUCUCUAGCUAUAUGAAGUGAUUGUUAAUAGCAGUAGGCCAGACAUUUUUUCCUCGUCCAAACGACAAGGAUGAUUUCAUCUCAGUUGGGAUUACUAACAUAAAACUGUAACAG	ACUUCCAGAAAGCAAAAAGUUAUCAAAACCUUAACCGUUGACGUUUCCUC	CAACCACAATGGCTCCAAACACTTCCAGAAAGCAAAAAGT
337	YFL034C-B	YFL034C-B_6_63992_63015_INTRON_21_134	MOB2	1	"Davis CA, et al. Nucleic Acids Res 2000;Luca FC, et al. Mol Biol Cell 1998"	114	21	134	58	56	UUACUAACUAGC		AACAG	CAG	GCAAGCCAACCAAGCAUUUAUCAGCACAUCAUGUCCUUCUUCAACUUCAA	GUAUGUUCACACUGUUGUCGUUUUAUUUUCUUCUGGACCUGCGUUAUCAUUUUACUAACUAGCCAACACACCUAAUCAAAUCAUUUGAUCCUACGUGUAUACUUUGCAAAACAG	AGCAUUCGGAAGAAACUCAAAGAAAAAUAAAAACCAGCCCCUUAAUGUUG	ATGTCCTTCTTCAACTTCAAAGCATTCGGAAGAAACTCAA
338	YFL039C	YFL039C_6_54695_53260_INTRON_11_318	First spliceosomal class intron discovered in yeast	1	"Ng R, et al. PNAS 1980;Gallwitz D, et al. PNAS 1980"	308	11	318	265	43	GUACUAACAUCG		UUUAG	UAG	GCUUUUUUCUUCCCAAGAUCGAAAAUUUACUGAAUUAACAAUGGAUUCUG	GUAUGUUCUAGCGCUUGCACCAUCCCAUUUAACUGUAAGAAGAAUUGCACGGUCCCAAUUGCUCGAGAGAUUUCUCUUUUACCUUUUUUUACUAUUUUUCACUCUCCCAUAACCUCCUAUAUUGACUGAUCUGUAAUAACCACGAUAUUAUUGGAAUAAAUAGGGGCUUGAAAUUUGGAAAAAAAAAAAAACUGAAAUAUUUUCGUGAUAAGUGAUAGUGAUAUUCUUCUUUUAUUUGCUACUGUUACUAAGUCUCAUGUACUAACAUCGAUUGCUUCAUUCUUUUUGUUGCUAUAUUAUAUGUUUAG	AGGUUGCUGCUUUGGUUAUUGAUAACGGUUCUGGUAUGUGUAAAGCCGGU	TGAATTAACAATGGATTCTGAGGTTGCTGCTTTGGTTATT
339	YFR024C-A	YFR024C-A_6_203420_201947_INTRON_48_165	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	118	48	165	71	47	UUACUAACUAGU		GCUAG	UAG	GCAAUGGGUAUUAACAAUCCUAUUCCAAGGAGUUUAAAGAGUGAGACAAA	GUAUGUUUUAUACGGGUUUGGCUGGGAAACCUUUAAAAAAGUUCUCCCUUAAUUUGUUCAUCAUUUACUAACUAGUAAUAAACAAUUAAUAAAGAAAAGCAGCGAAGAUUUUGGCUAG	UUUUGUCAAACCAAACCAAGUUUUUGGUGCGGACCAAGUCAUUCCUCCAG	AGTTTAAAGAGTGAGACAAATTTTGTCAAACCAAACCAAG
340	YFR031C-A	YFR031C-A_6_221405_220494_INTRON_5_151	EST	1	"Moore J, et al. Mol Gen Genet 1995;est gi|622023|gb|T38206.1|T38206"	147	5	151	112	35	AUACUAACAGAA		UUCAG	CAG	AAUAACCAUUUCUGAGCAAACUAAGAAACCAUUAGAUCAAUAAGCAAUGG	GUAUGUCAGCACCGUGAUUUAACAACCAUGUGAUUGUCGUAAUGGCGCAAUGUCAUCACACCCUUUUACAGUCUUUUUAUUCCUUUUGUUGAAAAUGUAUCGUGUAUACUAACAGAACUGUGUUUUUUCUCAUUAUUUUUUAUUCAG	GUAGAGUUAUUCGUAACCAAAGAAAGGGUGCUGGUUCUAUCUUUACCUCC	ATTAGATCAATAAGCAATGGGTAGAGTTATTCGTAACCAA
341	YFR032C-A	YFR032C-A_6_223758_223245_INTRON_1_331	"5' utr intron. predicted Planta RJ, et al."	0	NULL	331	1	331	282	49	UUACUAACCUUU		UCCAG	CAG	CAUUUUUCAUUCAAUAUUCAAGAACCCCGGAACAACAAUACAGUUAGAAA	GUACGUUAUAUUAUCAUGAAGUCCCCAUUUCGCCCAUUGGAAAUGCAGGUAGCCAAAUCUGAGGUGCGCUGAGUGGCAUAUAGUGGAGGAUAUAAAGAAAAAAAGAGAGAAGGGAAAAUAAUGGAAAGUUACCAGUGUUUGAACUUAUAGCGAACGCUCUUUCUCGAACGUUCAAUUACCUUUAGCAUACCCUUGUUCGAAGUUGCCCCCGCUAGCACCACUUCAGAUUGGCAGUUAGCUGCCACGCUACUCCCCUCCACCGUUAUGAAUCAUUUUUACUAACCUUUAAUGACCAUUCGCAAUUUCUGCGUACAUUCAUCGUCUUCUCCAG	AAAAUGGCUAAGUCUAAGAACCAUACCGCUCACAACCAAACCAGAAAGGC	AACAACAATACAGTTAGAAAAAAATGGCTAAGTCTAAGAA
342	YGL030W	YGL030W_7_439087_439634_INTRON_4_233	EST	1	"Fried HM, et al. J Biol Chem 1981;Dabeva MD, et al. J Biol Chem 1987;est gi|621874|gb|T38057.1|T38057"	230	4	233	190	40	CUACUAACAAGU		AACAG	CAG	AGUGUUUAAGAACCUACAGCUUAUUCAAUUAAUCAAUAUACGCAGAGAUG	GUCAGUAUAACAUGAUUUUAUAACUAUUUCGCUUUAUUCUUUCAUGGGAUUAGCAAGAAGGCUUGGAAUACAAACAUGAAUUUUCAAAGUUUAUUCCUGCUCUUGUGUUUGAGAGAGUCCGUUCAAAGGAUGCUUCUCCAUGACUGUGAAAUAAAAGUGAGAUAUGCAAAAACUUUGAAUAAUCUACUAACAAGUUAAUACGUUAUUUUUUAUCGUUUACAUUUCAACAG	GCCCCAGUUAAAUCCCAAGAAUCUAUCAACCAAAAGUUGGCUUUGGUUAU	AATCAATATACGCAGAGATGGCCCCAGTTAAATCCCAAGA
343	YGL031C	YGL031C_7_438393_437938_INTRON	5' utr intron.	1	"Mitra G, et al. J Biol Chem 1984;Fried HM, et al. J Biol Chem 1981"	456	1	456	412	44	UUACUAACAUUU		UAUAG	UAG	GCUGUUGCUAUUGCCAAGUUAAGCAAGACACCAAGACAAUAACUUGAGAG	GUAUGUCCCUAUAUGAUGAUGAUUCAUAAUUAAUGGCGACCGAGGGCAGCGUUGUGCUAGAAAGCAAUGUAUUAAUAUAUGAGAGAGCUUCAGAUAGCCAAUACACCGGAAUUUAGACUUUGACAGGAUUGUGGCUUGUUCCAGUAUAACUUAUAAUAUAUGUCAACCUUUGAGCAGGAAACCCAAUGAAAAUGCUUCAUUACAUAUAUACGAUAUGGAGAAGCAUGAAAAAUAACAGCGUGAGAUGUUAUCCAUGUUGCAAGAACCUAGUAAAAUGAAUUCUGAAUUUGCAAAAAGUCCAUAUUUCCACGUUCUCCUCUUCCUACAAUUUUGCGAACGCCUGAACAACCAUGCGGAUUACCAUUAUUUAUAUUGACAAGAUGGCUACCUAUGAAAAGCAUAGACUUACUAACAUUUUUUUUUUCAAAUAUGUUUGAAAAACGUGGAUUAAUAUAG	UGAUAAAAUGAAGGUUGAAAUCGAUUCUUUUUCAGGUGCCAAAAUCUACC	CCAAGACAATAACTTGAGAGTGATAAAATGAAGGTTGAAA
344	YGL033W	YGL033W_7_435621_436347_INTRON_56_125	Unique 5' splice site. GuuaaGu.	1	"Leu JY, et al. Cell 1998"	70	56	125	44	26	UUACUAACAAUU		AUCAG	CAG	ACCGAAAAAGAAAUCAAACGAUAGAGCCAUUCAGGCAAAAGGCUCAGAAG	GUUAAGUAUUUUUUUACAUGCUCAUCAAAUACCGCCAUUACUAACAAUUGUACCCCGGGUAUUUUAUCAG	CUGAACAAUUAAUAGAAGAUUACUUGGUGUCACAAUAUAAACCAUUUUCU	TCAGGCAAAAGGCTCAGAAGCTGAACAATTAATAGAAGAT
345	YGL076C	YGL076C_7_365994_364333_INTRON_12_470	"Weird branchpoint, EST, Two introns"	1	"Mizuta K, et al. Nucleic Acids Res 1992;Mizuta K, et al. Curr Genet 1995;est gi|621650|gb|T37833.1|T37833"	459	12	470	428	31	AUGCUAACAAAA	UGCUAAC	UACAG	CAG	UAUAAAUCCAAAUAACCAACCAAGCAAAUUAAGAUCACAAUGGCCGCUGA	GUAUGUAUACGAAAUCGUCUAUUUUAUUACUAUUUCCUAAAGUAUCCAGAGAAGUAUACUAGUUUCCGCAAGUUACGUUGAGAAAAAGGAGCAAUUCUGCUCUAAUAGCAUUUGCACUCACACUUACAUUUAUCUUCAACUUGUGACUAUUCACAAGAUGAUUUUCCGUAGGGGAUUACCUUCACAGGGUCAAAGACAAUUUUAGUUGAUGAAUUUGAGGAAAAAUUUGAAAUAUCUUGAUUGUUGCCAAAAAUUUCAUCGCCGACCUUGAUUAGAAUAUUUUCUCAAAUUUUCAUUUCCUAAGUGUCUCUGUUUCACUCCCUUCAUUCGAAUGAAAAGUGGUGUUUUCAAUUCGAUGUAACUUCGUAGAAAAAAGUUUUACUUGAUGGUCAUACAAACCUAAUUCAUUCUAUUUUCGGUUAUGCUAACAAAAAUAUUUUAUUAUUUGUAUUAUUACAG	AAAAAUCUUGACCCCAGAAUCUCAGUUGAAGAAGUCUAAGGCUCAACAAA	AAGATCACAATGGCCGCTGAAAAAATCTTGACCCCAGAAT
346	YGL076C	YGL076C_7_365994_364333_INTRON_565_1032	Contains snoRNA snR39	1	"Mizuta K, et al. Nucleic Acids Res 1992;Mizuta K, et al. Curr Genet 1995"	468	565	1032	430	38	UUACUAACAUCA		UUUAG	UAG	AACAAAAGACUGCUGAACAAGUCGCUGCUGAAAGAGCUGCUCGUAAGGCU	GUAUGUUAAACUUUUGCUUACAUUUAUAUUUUAUGCUGCAACACAUUUUCUUACUGGGAUAUAUGUGAGUUCACGUGCGUCGCCAAUUUUGAUAAGUAUCAUUCGAACAGUUGCAAUAUUCUCAACACCUGUGGUAUCAUUAGGCUAAUGGACUAUUUGUUACGUUCUGUUUGUUUUCUCAUUUUAUGAUGAAAAUCCAUUGUAUCCCAAUACAUAUUCGACUAGUCAUUGACGAUGCUGUCGUAACUUAUCACCAUCUUUCGACUGAUUAUAAGAAAAGAAAUAGAAAGUAAAAUAGACCAGAGAGUUAAGGUAUUAAGGUUACAAUUAUUGCCGUGUUUCCAGUGUCAGAAAAACCAUUGAGUGAUAAUGCCGUGUAACAAUUUUUAGCAUAAAAUACUGUGUUUUCCAUCUGGUAUUUUUUUACUAACAUCAAUUUACUGUUUUUUACUUUUUAUUUUCAUUUAG	GCUAACAAGGAAAAGAGAGCCAUUAUUUUGGAAAGAAACGCCGCUUACCA	AAAGAGCTGCTCGTAAGGCTGCTAACAAGGAAAAGAGAGC
347	YGL087C	YGL087C_7_346902_346404_INTRON_12_96	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	85	12	96	43	42	AUACUAACAAAU		AUCAG	CAG	UGUAUAUGCAACGUAGAAGAAAGCAGCGUUUACACAAAAAUGUCAAAAGU	GUAUGUUAUUAUAAGUUUUGAAAGGGAUUUCAACAUAUACUAACAAAUUCUUGAAAUGUACCCUCACUGUCCUAUUGUAAAUCAG	ACCAAGAAAUUUUAGGUUGUUAGAAGAAUUAGAAAAGGGUGAAAAAGGGU	TACACAAAAATGTCAAAAGTACCAAGAAATTTTAGGTTGT
348	YGL103W	YGL103W_7_310965_311925_INTRON_50_560	NULL	1	"Fried HM, et al. J Biol Chem 1981"	511	50	560	468	43	UUACUAACGAUU		UACAG	CAG	AAUGCCUUCCAGAUUCACUAAGACUAGAAAGCACAGAGGUCACGUCUCAG	GUAUGUAGUUCCAUUUGGAAGAGGGAAUGAAAGAACCAAGACGGUGACUUUUUUUUUAGUGUUGUGCAACCAAUAUGUCGUGUGUAUAUCAUGGUACAGGAGAAUGUCAAUCAGCUAAGUGUACUCAACAUAUUUCUUUGUGUUUUGAUUGCGAACUUUGUAUUACCAUCUCACUGUUGAGACGGCUUAUUUGAGGUAAUAGCUCGAGUAAAUGUACUCUUCCAUCGCAAACUGAGCAAAAAGAAAGUGUGCAUAGCCUUUGUCAUACUUCUCCUUUAUUAUACCAUGAUAUUCAGAACAGUCAUACUGUCUACUCAUUUUACGGCUAUAAAAGGUAACUUUCAUUUAGAUUAUGGAAAGCACUAAUUAUCGCUGUAUCAAAUGGUUGUAGAGAGCGCAAUUAUGAAAAAGAGUUACCACGUUUCUUUUGUUUCGAUAAAAUGUCCAGUUGAAAACCUGUUUUACUAACGAUUUAAAAAUUGUAUUUCAUUACAAUAUUUUUUUUGUACAG	CCGGUAAAGGUCGUAUCGGUAAGCACAGAAAGCACCCCGGUGGUAGAGGU	GCACAGAGGTCACGTCTCAGCCGGTAAAGGTCGTATCGGT
349	YGL137W	YGL137W_7_249872_252741_INTRON_19_218	NULL	1	"Duden R, et al. J Biol Chem 1994"	200	19	218	129	71	UUACUAACAGGA		GAUAG	UAG	AGACACCCAAUCGAAACAAUUAUACGGACACGAUGAAGUUGGAUAUAAAG	GUAUGUUACCAGAGCGCGUUUUGCCAAUGCAAUUGCGAACAAGCUCCGACAACUCCUAUGAUUAGGAAAUGAUCUCGUUCGCGAAGAAUACAAAGCCUGCAAAAAGCAAACAUUAAGAUUAGUUACUAACAGGAAGAUUUUUGAAAUAAAUGCAUUUGCUCUUGGCAUUUCCUUUAUUUGACACUGUACAUUUAUGAUAG	AAAACUUUUAGUAAUAGAUCCGAUCGAGUUAAAGGUAUCGAUUUCCAUCC	CGATGAAGTTGGATATAAAGAAAACTTTTAGTAATAGATC
350	YGL178W	YGL178W_7_167356_170575_INTRON_4_643	Intron completely contains ORF YGL177W.	1	"Davis CA, et al. Nucleic Acids Res 2000"	640	4	643	616	24	UUACUAACACAA		AUCAG	CAG	AUUCUACGCAAAUUUAUAAAUCAAUUACGAUUUUUCCAGUUUCUCUUAUG	GUAUGUAUUAUCUCUUAAUUCCCAAUAUUUUUCUUCGCCAAUGGAGCAUAAGCUUUAACGGGAUCUUCUAACAACAAAUAGCAUAAUAACCAAAAACCAGCUUCAGUGGGAUCAGCCUAUCGACACGCCUUUUUUAGCGGUCUAACAAUCUCCGUUUAUGUCGUAUGGAAUUUCUGAUACUUGACCCUACCUUAUUUCUCGAAUAUGCCUAUAAGGAUUUUCUCGAAAGAAGGGCUUCGGGAAAGAGGCGCCUCAGGCAAAAAUGAGCAAAAAAAAAAAAAAAAAGAAAAGAUUCGAAGAUCUAUGAAAAAUUUAUGCAGAUUCGUUGAGAGUUAUAAGGAUUUUACUCUUUAUGGUUAUAGGUUUCAUUCUAAAAUCAAGCAUAAAUUUUGUGUUUUGUCUUCCUCUUUUCCUGUCCUCUUUUUUUGCCAUCCUCUGUCGCCAUUGAAGUCGAACUUUAUAGAUAGAUUUACUCUUGAUUCUCACGCAUCUCAGGCCACCUGGACACUGUACAUGGUUGUGAUUGUUCUCUUUCUCAGUUAUCGAAAUUGAUCCUAGGCUUAUACUCCAAAAUCGGCUCUGCACACGCCUUAUUUUUGUGGUUUCACUUUACUAACACAACAUUCUUUUAUUCAAUCAG	AUCAAUAACGAACCAUUUCCAUCUGCCGACUCAGCAUCGAUUUUAACUAC	TTTTTCCAGTTTCTCTTATGATCAATAACGAACCATTTCC
351	YGL183C	YGL183C_7_157071_156547_INTRON_4_86	Intron discovered by J. DeRisi	1	"Gerton JL, et al. PNAS 2002"	83	4	86	44	39	ACACUAACUUAU	CACUAAC	AUUAG	UAG	AGACUAAACGGCGGAAACUUUAUGUGUAGUAUCAUAAACAUUCAACAAUG	GUAUGUCUAAUAAAACCAUCAUGGUACACAGGACUGAACACUAACUUAUAGACGGGUGCGUGCUACCCUCUUCUUAUUAUUAG	GGGCCAAAGAGACAGACAGUAUCACUCCAAGAGAAAAAGAACCGGAUUCU	ATCATAAACATTCAACAATGGGGCCAAAGAGACAGACAGT
352	YGL187C	YGL187C_7_150529_149708_INTRON_1_342	5' utr intron.	1	"Schneider JC, et al. Nucleic Acids Res 1987"	342	1	342	300	42	AUACUAACAAUA		AAUAG	UAG	GCUAAUUGCGUAAAAAUUAGCAUAAACAGGAAAUAAGAUUAUUUUGAAAU	GUAUGUUAUAAUCCUCUUAUUGAAAAAUACAUGAGAUGUAGGAGAAGAACUACCAGGAAAGAAGAUAUUUAACAGAUCGAACGAAACGGAAAAGAACUAAGAGAAAACAAAUCUGGAUUUGACUUUAAGAAAAAAUUUAUUUGCAAGUUUAACUCGUUCCCUGCUUUUCUAUUUGGCUUGAGACGAUAAUUGCAUAAUUGUCCAAAUUGUCCAUCAUAUAAUGAAGAAUUCGAUGCGAAAUAUUCCCUGUCACUUUCCUUUAGUCAACGUAUUCUUCUCCCUGAAGAAACAGUAUACUAACAAUACUCACCCAUUUCGAUUUUGAUGUUGCCAUACAAAUAG	AUAACAAGCACAAUGCUUUCACUACGUCAAUCUAUAAGAUUUUUCAAGCC	AAATAAGATTATTTTGAAATATAACAAGCACAATGCTTTC
353	YGL189C	YGL189C_7_148970_148233_INTRON_1_368	"Original prediction is probably incorrect.  There is a GUAUGU 5'ss (vs GUAUGC) that is about 200bp upstream, that matches the RPS26A intron better.  5' utr intron.  (Planta RJ, et al.)"	0	NULL	368	1	368	313	55	UUACUAACUAAU		AUUAG	UAG	AUGAUUUAAUUUGUUCGCUAUUACAGAUAAAAGAACCAUAGUCUUAAGUA	GUAUGUUAACGACACAAAAGUGUGAAAGUAGAGAAGGGAAGAACGAUGAGAUCUUUGAAUUGGGAGAAAGUAAUAGUGACAAGAUAUUAUUAAAACAUGGCAAAUGUAACUUGUUUUCUGAAAGGAAACCAGUUAAUCACUAGAAGUGUGCCAAUCAUGAGUUCACACUAACUAAAGAAAAAGAAGGAAGUCGCCCAUCGUAUGCAAUGUACUUAUUAUUGAAGAAUAUUGUACCGAGAAAAUUUCAAAUGUUACGUAAAUAUCUCCUUCCCUUUUUGCCACGAUCAUUUUAAAAAAAUUGAGAAGUUACUAACUAAUUAUUUUAACUCUUUGCAAACCUGCAAUACUCGUGAUGAAUAUUUAAUUAG	AUCAUUCAAAAUGCCAAAGAAGAGAGCUUCCAACGGUAGAAACAAGAAAG	AAGAACCATAGTCTTAAGTAATCATTCAAAATGCCAAAGA
354	YGL226C-A	YGL226C-A_7_73156_72747_INTRON_22_170	NULL	1	"Reiss G, et al. EMBO J 1997"	149	22	170	103	46	UUACUAACAAGU		UUAAG	AAG	GAGAUAUCCCUGCAUAUUCAAGGUUUACAAUGACUUAUGAACAAUUAUAC	GUACGUUGCCUGUAACGCUGGUUGAUGCUAUUCUUUUGAUGUUUUUAACAACACACAGGACAAUGAAUAGUUCCCUUCCUGUUUUCUAAUUCAUAAUUACUAACAAGUAUAGCCAAUUCGCCUUCUCGGCAUUUGUGUAAUCACUUAAG	AAAGAGUUCCAUUCCUCAAAGAGCUUCCAGCCAUUUAUCCACUUAGACAC	TGACTTATGAACAATTATACAAAGAGTTCCATTCCTCAAA
355	YGL232W	YGL232W_7_62074_63001_INTRON_58_115	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	58	58	115	42	16	GUACUAACGAUC		AAUAG	UAG	AAAAACGUAACCGUAAUGGUAAGGAUGCAAAUUCCCAAAACAGGAAGAAA	GUAUGUCUGUCUGCACACGAAUUAGAGUUCUUUAAGUACUAACGAUCAAAAGUAAUAG	UUUAAAGUAUCUUCCGGAUUCUUAGACCCUGGUACGUCUGGAAUAUAUGC	ATTCCCAAAACAGGAAGAAATTTAAAGTATCTTCCGGATT
356	YGL251C	YGL251C_7_31636_27921_INTRON_59_210	"CHANGES SGD, old ygl251c 31061_27821. contains MER3 intron.  Activated by the MER1 splicing regulator.  Unique 5' splice site!  Skips some internal 3' sites."	1	"Nakagawa T, et al. EMBO J 1999"	152	59	210	69	83	UGACUAACAUUG	GACUAAC	UAUAG	UAG	AAAGUUUGAUCGCCUCGGUACAGGAAAAAGAAGUAGACCCUCUCCAAAUA	GUAGUAACGAAGCUUAGCAACACCCUUAUCAGUUUACACCAUAUCGGACAACAACAGUAUUUUGACUAACAUUGUUACCUCUUUCUUUUAUUAUCUAGCGGAAAUGCAACCAAAAGUGGUUUUUCUGGACUAGAAUUUCAGAGGACUUAUAG	AUAUUGACUUUAACGACCAGUCUGCUACAUUUAAAAGAAAUAAGAAAAAU	AAGTAGACCCTCTCCAAATAATATTGACTTTAACGACCAG
357	YGR001C	YGR001C_7_498029_497128_INTRON_36_97	"EXTENDS_SGD, 497802_497128, ORF has two introns.  This one uses a GUAAGU 5' site.  Splices well.  Both introns must splice for protein product below."	1	"Davis CA, et al. Nucleic Acids Res 2000"	62	36	97	43	19	UUACUAACUAAC		AAUAG	UAG	AGAAUCACUGAUAAAAUGUCCGACUCCGACUCCGACUCCGAUUAUGAAUU	GUAAGUACAGGAUAUUUUCAACACAGUAACGUAGAAUUACUAACUAACACGAAACUUAAUAG	GACACUUUCUGCUAAUGCCCUCGCUGCCCUUGAAGAAUUCAAAAGAGAGG	TCCGACTCCGATTATGAATTGACACTTTCTGCTAATGCCC
358	YGR001C	YGR001C_7_498029_497128_INTRON_577_669	"EXTENDS_SGD, 497802_497128, ORF has two introns.  Exon skipping not observed."	1	"Davis CA, et al. Nucleic Acids Res 2000"	93	577	669	69	24	UUACUAACUGUU		AAUAG	UAG	UAGAUUGUUAAUUGACCCACCUUUUUUAAAUGAAGAUUGUCAAACAAAGU	GUAUGUAUAUCAUAAACAUAUCCCUACUCAUUUUUUAAUCUUUUUUCCAGUAUCUUUUCAUCUUACUAACUGUUAUUCAUUGAUAUAAAAUAG	CCUCUAUCACUGCAAAGUGUUUAUUAGCGCCAAAUGACAACUCUAAAACU	TGAAGATTGTCAAACAAAGTCCTCTATCACTGCAAAGTGT
359	YGR027C	YGR027C_7_534779_534126_INTRON_1_312	5' utr intron.	1	"Nieuwint RT, et al. Curr Genet 1985"	312	1	312	280	32	UUACUAACAAGU		CAUAG	UAG	GAAAUCGUAUUCUUUGUUAUCGAAAACCGUCAAGCCCUGUUAGUUUUAGU	GUAUGUAUCUAUAAAUUUGAAACCAAUAUUAGGCGGAUAAGAUGAAAUAGUGACUGGCCAAUCCAGGAUUUAAUAUGUCAUAAAAGCCUGUUCUACCUUAAUGGGAUGAAUAUCCAUGUCUCUGUUAUAUGCUCCAUAGCACAGAUCUAGCUACCCAUGGUACUUUGAGAGAAGGAAACUACGUACUUAGUGGUGAUUUACAGUUAAAUUCAAUCUACAAUUCAAGUCAUUAGCAAAUAGUCUUUAUCCCAAAUUCUACUAGAGUUCGGUUUUUUACUAACAAGUAUGUUUUUACUUUUUACUUUAUCAUAG	AACAUUUAAUAAAUCAUGCCUCCAAAGCAACAAUUAUCUAAAGCUGCCAA	CAAGCCCTGTTAGTTTTAGTAACATTTAATAAATCATGCC
360	YGR029W	YGR029W_7_543547_544199_INTRON_87_169	"Not standard branch, TATTAAC."	1	Lisowsky T. Yeast 1996	83	87	169	66	17	UUAUUAACAAAU	UAUUAAC	AAUAG	UAG	CAAGAAGGCUUAAGUGGGAGGAAAAUAAUAUAUGACGAAGAUGGCAAACC	GUAUGUUGGAUUACGCAAAGCAAUUCAGGAUCUACUGAUCCAAUCAAGCUUGUGAUUUUUUAUUAACAAAUUCUCUAUAAUAG	UUGCCGAUCAUGUAACACCCUACUUGACUUUCAGUACGUGACCGGGAAGA	TATGACGAAGATGGCAAACCTTGCCGATCATGTAACACCC
361	YGR034W	YGR034W_7_555923_556666_INTRON_26_379	"Original 5'ss prediction is probably incorrect.  There is a GUAUGU about 120bp upstream with a new start that matches the protein sequence of RPL26A better.  (predicted, Planta RJ, et al.)"	0	NULL	477	20	496	448	29	UUACUAACAAAU		AAUAG	UAG	UAACAACGGCAAGACCAAAGAUAUAUCAAAUAUGGCUAAGCAAUCUCUAG	GUAUGUUUGGAGGAUACGAAUAACGAUAGAAAACAUGAGUGAAUUUCCGUCCACGAAAAAAUGUUAACAUAAAAUGCAAGAGAACAAUUAAUCGAAUAAUGUUAAAUUAUUGUAAAACAAUGUGUAUGAUGAGGAGGAAUGUACCUAAGCCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAACAGCUUUUGCAUAUUCAAUCCAGGCAUAGGGCGACUAUUUAGCACUCAACGAUUUUUAAGCUUGUGUAUUGCUGACAUAAAUUCCGGCUUUAGAAUCCAAUAUUGAAAAACGUGAGUACGCAGAGGAGAUAGAAGAAAAGUAGGAAGUUACCGUUUAUAUUGAUUUGUGAAAUGCAUACUCCGUUGGAUGUGGGGCAACAUAGAUUUAAGUGUGGAUGAAAAUUAUGUGCUCAUUGUGAAAAAAAAGUUUUGCUUUUACUAACAAAUUUUUUUAUUAUUUGUUUUCAAUAG	ACGUUUCCUCUGACAGAAGAAAGGCCAGAAAGGCUUAUUUCACUGCUCCA	TATGGCTAAGCAATCTCTAGACGTTTCCTCTGACAGAAGA
362	YGR118W	YGR118W_7_726968_727725_INTRON_66_385	EST	1	est gi|622692|gb|T38875.1|T38875;est gi|621654|gb|T37837.1|T37837	320	66	385	298	22	UUACUAACAGUU		UAUAG	UAG	CCAAGAGGUUUGAACUCUGCUAGAAAGCUACGUGUCCACAGAAGAAACAA	GUAUGUUGACUAUUUCAAAAUUAAAAAAAACUAUCAACCCCCUAUUGUGAUAUCGUUUUAGGUGAAGGAAAUGUUGUGAGCUCUGGAGUGAUAAAUUUAUCAAGUAACAUAUCCUGGCGCAAAUCAGUUUGGAGAGGCUUAAAAUGACACGUCACAGUGAUAAAAAGUAAUGAAUAGUGAACGGUCAGCUUCGGCCAUUCUUCCCAAUCUAUAGUGUGGAAAAUAAACCUUUUCUUCCCAAAAUAACUCAGAAAGUCACAGGAGGCCGUUUUUUACAACGGAAUCAUUUUUUUACUAACAGUUUUUUUUUAUUAUUAUAG	CCGUUGGGCCGAAAACAACUACAAGAAGAGAUUGUUGGGUACUGCCUUCA	CGTGTCCACAGAAGAAACAACCGTTGGGCCGAAAACAACT
363	YGR148C	YGR148C_7_788173_787307_INTRON_1_392	3'ss was originally misannotated (by us).  Skips possible CAG 3'ss and uses a UAG 13bp downstream.  5' utr intron.	1	"Baronas-Lowell DM, et al. Mol Cell Biol 1990;Mitra G, et al. J Biol Chem 1984"	392	1	392	327	65	GUACUAACAUCA		UUUAG	UAG	AAAUUUUUGGGUGGUCAACAAAAGAGGCGAGCAACAAUUUGAAUUGAAAC	GUAUGUCGCGUGCCCAUUAGGAAAUGAGAGAAUAUUGAGGACAACGAGGAGCUUCGCAGUGUAGGAAUUGAGAAAGAAGCGACCAUUUGAACAAUGCUGAGGUUAAUAAGAGGCCCACGAUAAAGGCGUUAUAUUAAUCAACGUUGAACAUCUUCCCAGAAAAGUACAUGCGAAUAAAUCAGGACCGUCGAAAGACGUACGGAACAUCAUUGGCAAAUAUACAUCGGGAUCUGUUGGAUAUGCUUGUCGUGAUGAAAUACUGUUCUCGUUGUCGGCUUGAUAAAUUUUCUCCCAUUUAAAACUCUUUGAACCAAAAUUGUGUACUAACAUCAAUUUGUAUAUAAACCAUGAGUGUAUUUCACCUUGUGGUUUUUCACAGCUUUUUAAUUUAG	AAGAACAAUGAAGGUUGAAGUUGAUUCCUUUUCCGGCGCUAAGAUCUACC	GCAACAATTTGAATTGAAACAAGAACAATGAAGGTTGAAG
364	YGR183C	YGR183C_7_859471_859058_INTRON_4_216	NULL	1	"Phillips JD, et al. J Biol Chem 1990"	213	4	216	192	21	UUACUAACAAUG		AGUAG	UAG	CAUAUCCUUCGCAAUUUCGUAAAGCAACAAUAGCAAUACGGACUAAAAUG	GUAUGUUGGUGUGUGUGUGUGCUGCUUCACAUUUCAGGCUAAAAAUGUUAUCCGUGGAAUCUUCCUUAGCCAAGUAUCAUGGGCUUUGGAAAUUAGUUUCCCACCGAUGAGCGCAACGACUUAGCGAAGCUUAUGAAAUUGGUGACAGCAGCUCUAUGAAUAUGUUCCAUGCGUUUCCAUUCAGGUUACUAACAAUGCAUAAAUUAUGAGUAG	UCUUUUUCAUCACUAUAUAAAACCUUUUUCAAACGAAACGCUGUUUUUGU	TAGCAATACGGACTAAAATGTCTTTTTCATCACTATATAA
365	YGR214W	YGR214W_7_920570_921783_INTRON_91_545	EST	1	est gi|621853|gb|T38036.1|T38036	455	91	545	429	26	AUACUAACUUUU		UUCAG	CAG	CCCAACUUUUGUUGGCUGCUAACACUCACUUAGGUGCUAGAAACGUUCAA	GUAUGUUAUACUCAUUCCCGAUUAUAUAAUAGAGUAAUGUGUGAUUGAAAACAGUUCGAGUGAAAGAAUAGCCACAACCAGGUUUCCCGCCAACCAAACGGAAUGCUGGGAUAGCAUUUUUCAGGCUGAAUAAGAAGAGAAAUAUAUGAACAAUCAUUAAAACAGUUUGAAACUCCAGCUAAUUAUCAGCGAAUAUUUUGCCAAUAGACUUUCUAAUUGUAUUAUGUUAUUAAAUUUUAAAUCGCUAAUGAAAAAAAAAAACAAACCUUUGGUAUUAAACCUCUUUCAAUGAAAUCAAUUAAUUCCGGUACCUAUUCUUCCGACGCUGUUAGCCAACUAUAAAUGCCAUUUUUUCAUAGUACAUUAAUUUGAAUCAGUUGAUCAUUCACAGCAUAUACCAAGUGUACGUUUUUGAAUCUUUUAUACUAACUUUUUCUUCUUUAAUUUUGUUUCAG	GUUCACCAAGAACCAUAUGUUUUCAACGCAAGACCAGAUGGUGUCCACGU	TAGGTGCTAGAAACGTTCAAGTTCACCAAGAACCATATGT
366	YGR225W	YGR225W_7_945138_946919_INTRON_1184_1276	extends 3' end of YGR225W.  Activated by MER1.	1	"Davis CA, et al. Nucleic Acids Res 2000"	93	1184	1276	77	16	AUACUAACAAAU		UACAG	CAG	AGGAUUGAAACUUCAUUCCACUUAUCAAGCUCAGGCACAGCAAGUCUGUG	GUACGUUAUUAAGAGCUUAUGCUUUCACAUACCCUUUUCUGGUAUAGCGCUUAUUUUUUCAUUAUGAAAAAUACUAACAAAUAUUUUCUACAG	GUAUUUCUCUGAAUGAACAUGCAAACCUGCUUGCAGUCGGCGGCAAUGAU	TCAGGCACAGCAAGTCTGTGGTATTTCTCTGAATGAACAT
367	YHL001W	YHL001W_8_104270_105084_INTRON_130_527	EST	1	est gi|620327|gb|T36510.1|T36510	398	130	527	351	47	UUACUAACAACU		UAUAG	UAG	AAUCCGCAGGUAAAUUGGCUGCUAUCGUUGAAAUUAUCGACCAAAAGAAG	GUAUGUUGAACCUAAAACCCACCGUGGACAAACUGAGGAGGAAAUUGUAAGGAAGAGAAAGUCCCCGUAUGUUCAGGGACCGCCAACGACUUCCUGAUUCAUGCCUGAAUAGUGAAACAUGUUAAACAAUGAGUAGAUGCUGAAAUAUGCAAUGGGACAGAGGGCCGGAGAUGUUUCUAUUCUUUUUUUGCAUAAACAACAGUGAAAUUUCUACAUAUUUUGUUACUGGCAAACUCCUUCCCUGGCAGUUAAUAACUCCCAUACUUAAGAAGAUAACUUCAGCACAUGUAGCCAUACCUCCUCAAUUGCCAAAUAAUCUUUUCCUGUUUUCAAAGUAUUUCAAUUUACUAACAACUUUUAUGAAUAAUUUUUUAAAUUAUUCGUUAUAAUUACUAUAG	GUUUUGAUUGAUGGUCCAAAAGCUGGUGUCCCACGUCAAGCCAUCAACUU	AAATTATCGACCAAAAGAAGGTTTTGATTGATGGTCCAAA
368	YHR001W-A	YHR001W-A_8_107819_108115_INTRON_7_69	NULL	1	"Brandt U, et al. J Biol Chem 1994"	63	7	69	49	14	AUACUAACAUUU		UACAG	CAG	AAUAUAUCGAUAAAUACAAUCCAUAAGACUUAAAACUAACCUCAAUGGCG	GUAAGUAUCCUAUCAUAUUAUGUGAGCUAGAACCGAAUUAGUAUACUAACAUUUAUAAUACAG	UACACUUCUCAUCUGUCUUCAAAAACUGGUCUACAUUUCGGUAGACUUUC	TAAAACTAACCTCAATGGCGTACACTTCTCATCTGTCTTC
369	YHR010W	YHR010W_8_126513_127484_INTRON_32_592	EST	1	est gi|621923|gb|T38106.1|T38106	561	32	592	531	30	UUACUAACUAUU		CACAG	CAG	AGCAUAACCAAAGAAAAAAAUGGCUAAGUUCUUGAAAGCUGGUAAAGUUG	GUACGUAUCAUUUUCAGUUUUUGGACAUCAACAAAAAACCGUGCAACUGUGGUAUUAGAAAUCCAAGUUAUUAGCAGUUGAUGUUGUAUAAUUUGAGUUUGAAUUCGAGUAUUGUAUCUUCAUAUGGGAGUAGGGAGGAAAAAGCGUGGAGAUGUUAGAUCUGGGAAAAAACCUUUAAAUUUGAAUGAUAGCUUAUUAAUAGAAAUAUUGGACAAAAAGAUGAAUGAUUUAGGAGCGAAACUAACGAUUAUUCAUAUUCAUUGAGCUAUACGAGGCAGUGGAAGGGUUAUCAAAAAGUUGUAAUUUAAAAGAAAAAAGCAUCAAUAGCCACCAAAUAAGAUGGUGAAAGUUCCGCGAUAUAUUUGCUAAGACCAUAGGCACAUGUACGCAGGCGACCAGGGCCUUUUAUUUACUGUAGUUCUUUCCAUGCCCUAUUAAAAAUUCGUGGGCCUAUGAUAAUUUUUCUCUCCCUAGUAUUGAAGAACAAAAUUGAGAAUUCGCCAAACUUUAAGAAGGGUUCACAUUUACUAACUAUUUCUUUUCCUUCCUUUUUUUACACAG	CUGUCGUUGUCCGUGGUCGUUACGCCGGUAAGAAGGUUGUUAUCGUUAAA	CTTGAAAGCTGGTAAAGTTGCTGTCGTTGTCCGTGGTCGT
370	YHR012W	YHR012W_8_129473_130440_INTRON_49_167	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	119	49	167	89	30	AUACUAACAUAU		AGUAG	UAG	UUAUGUUGUUGUUAGCAUUAAGUGAUGCACAUAUUCCUGAUAGAGCAACU	GUAUGUGUUAUUCUCCUUUCUUCUCUGGUUAGCUGUAGUGGAACCUAUAACGGCCAUUGCGCCACAACUUCCUUUAACAUUAAUACUAACAUAUUGAUAACGACUUCAAUUGCAAGUAG	GAUUUACCUGUAAAAUUCAAAAAAUUACUAAGCGUUCCUGAUAAAAUAUC	ATATTCCTGATAGAGCAACTGATTTACCTGTAAAATTCAA
371	YHR016C	YHR016C_8_138446_136872_INTRON_48_215	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	168	48	215	128	40	GUACUAACAACU		UACAG	CAG	AAAAUGGGUAUCAAUAAUCCAAUUCCUCGAAGCUUGAAAAGCGAGACCAA	GUAUGUUCAUAUAUAUGCUUCCUGCUGCCCCUCCUCUAAACUUAUGGAUGCAGCUAAAAUGUUCAAGAUAGCUCUCUAGUCUGUGUCCAUUGCUUAUGGGGCAUGAGUUUUCAAAAGUAAUGUACUAACAACUUUAUGAUUGAUUUAUUUCGAAUGUUUUAACUACAG	GAAGGCCGCGAAAGUUCUAAGGAGUUUUGUUAAACCAAAUCAAGUAUUUG	AGCTTGAAAAGCGAGACCAAGAAGGCCGCGAAAGTTCTAA
372	YHR021C	YHR021C_8_148660_147862_INTRON_4_553	NULL	1	"Fried HM, et al. J Biol Chem 1981"	550	4	553	495	55	UUACUAACAUCA		UACAG	CAG	GAAUACGAAAACACACCAGAUAAUUAGUGCAUAUAUAUUAGAUCAAUAUG	GUAUGUGAAAGAGAUAUUAAACAUAAGAUGUGAAGGAAACAGAAGAGAACAAUAUUUGAGGAAUGAAUUCGGAUGAAAUUCUAGUAGAAGAAAAAAGCCUAAAAUAAAAAGAAAGAAAGGAAAAUAAAGCAGUAAUCAACCUCUGACAUUUGAUAGGAGUAUGCGUUUCCGCAAAAUCAACAAAUCAUGCAUUAAACUGGUAACGGAGACUUUAAAGACGUGCAAAGAAAGCAAUUAAUUUUUAGAUAGGGAAUUGAAAGGCUCUGUAUAGCAGAAAAUUUGAGAUCUACUGUGGAGAUAAGCAUAUGGUGUUGAGUUAUGGGUAAUCUAACAAUAAUAGAAACUUAUAGCAGUUGAAGAUGGCGGAUCAUGAUGCCGGAUACUGCUGGGUAAUGAUUUAUCCUUCUUUUUUUGGAGCACAAAUGCUCACUUUUUCCUGUCUCCUCUAACUUUUCUGAUGUAUCCUACCCAACCCUACAGUUUUCAAAUUACUAACAUCAAUUUUUUUGUGAAACGACUUUCGUUUUCGUUUCUAUUUAUUUCAUUACAG	GUUUUAGUUCAAGAUUUGUUGCACCCAACUGCUGCUUCUGAAGCCAGAAA	ATATATATTAGATCAATATGGTTTTAGTTCAAGATTTGTT
373	YHR039C-A	YHR039C-A_8_187670_187164_INTRON_4_165	EST	1	"Supekova L, et al. J Biol Chem 1995;est gi|951103|gb|U21240.1|SCU21240"	162	4	165	57	105	UUACUAACAUGA		UUUAG	UAG	UUUUUUUUUCCUGCAAUCUCCAAAGUGUGCAAGGUAUACAAAGCAGAAUG	GUAUGUGCCAUUACAUUACGUGUCAACACUUCUGUCUCUAACAAGCGUUCUUACUAACAUGAAAAACUUUUUUAAAACUGUGCUCUCUUGUUGGACUGGUACCUCGUGACAAAGGUAUUGGUUUUUUCAUUGUUGCUCAGAACUAUGUAAUAUUCUCUUUAG	UCCCAAAAAAACGGAAUUGCCACCCUACUACAAGCUGAAAAGGAAGCCCA	AAGGTATACAAAGCAGAATGTCCCAAAAAAACGGAATTGC
374	YHR041C	YHR041C_8_189855_189122_INTRON_15_115	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000;Thompson CM, et al. Cell 1993"	101	15	115	66	35	UUGCUAACAACA	UGCUAAC	UAUAG	UAG	GUAAGUCGGCGCUCGAAAGCACAGUAGCAAUCCAUCAUGGGAAAAUCAGC	GUAUGUAAAGCUGGAGCGUCCUUCGUGGCGCAUCGGAAUUUCUUCAAUUGAACUACCUGUUGCUAACAACAGUUUUUUUUUUCUCUCUUUUAUGUAUAUAG	CGUUAUAUUCGUGGAAAGAGCCACUCCCGCUACACUAACGGAACUGAAGG	TCCATCATGGGAAAATCAGCCGTTATATTCGTGGAAAGAG
375	YHR077C	YHR077C_8_255757_252375_INTRON_7_119	NULL	1	"Cui Y, et al. Genes Dev 1995"	113	7	119	64	49	AUACUAACUUCU		AACAG	CAG	AAUCUAAUAUUGUAUCUGCAUUGAUAAUACAUUGGACAGAAAUUAUGGAC	GUAUGUUUGAUUUAUCUUACUGUGGCCAGAUCGGCCUUUCAGUACUUCUAAGGUUUUAUACUAACUUCUUUUAUUGAUCGUUGUAAACUACGGUAACAAUUAUGUAUCAACAG	GAUGGACGGAAAAAAGAAUUGCAUGAUUUGAACACCCGAGCUUGGAAUGG	ATTGGACAGAAATTATGGACGATGGACGGAAAAAAGAATT
376	YHR079C-A	YHR079C-A_8_262554_262193_INTRON_114_199	"prediction, Blandin et al.  Extends SGD coding sequence 3' based on homology.  Must use AAG 3' SS to stay in frame"	0	NULL	86	114	199	71	15	UUAUUAACAGAA	UAUUAAC	CAAAG	AAG	AAUGGCAACCUGAUAAAGAUGUUUGAGCAAUUGUCUAAAGAAAAGAAAAA	GUAUGUAGCUAUUUUUUCCAGUCGGCAAAAAUCGGUAUAACAAACAAAAAAUAUUUAGUUUCUGUUAUUAACAGAACUUGUCAAAG	UGAUGAGACACCAAAAAAAAUUUCCUCGACGUACAUUAAAGAGUUAAAGG	TTGTCTAAAGAAAAGAAAAATGATGAGACACCAAAAAAAA
377	YHR097C	YHR097C_8_298611_297387_INTRON_126_249	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	124	126	249	70	54	AUACUAACUUAA		UGCAG	CAG	CCUUCAGAGGACAGAGUAUCAAGCAGGGAUGAAACGCCCAGGAAUUAUAA	GUAUGUGUAGCUCCACUCCCAAAAUUGCACUACAGUGUAACUAACAGUCAUGACUACUUCAGAAUACUAACUUAACUCUUUUUCUCCUUUCAAAAUCGAUUGAGAUAAUCCAUAAUUAUUGCAG	UAACCCAUUUUUAAAUGAAGAUGACACUAGGAGGGCCCAUAACAGUAGCG	GAAACGCCCAGGAATTATAATAACCCATTTTTAAATGAAG
378	YHR101C	YHR101C_8_315970_314876_INTRON_111_197	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	87	111	197	52	35	UUACUAACUAGA		GAUAG	UAG	GAAUUGCAAAACCAGACCAAUGUUCCUGCAAUAUUCUUCUCUUACAAACU	GUAUGUAGAACAAGAAACAUUAAUCUUUAGUAACUUUCAUUUUUCUUACUAACUAGAUGUUAUACACAUAUUUGUACUUUUGGAUAG	AACUCCCGGUAUUUUAAAGUAUCAAGAGGAUUAUGAUAGGGCUGUGACUU	ATATTCTTCTCTTACAAACTAACTCCCGGTATTTTAAAGT
379	YHR123W	YHR123W_8_354817_356083_INTRON_51_141	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000;Hjelmstad RH, et al. J Biol Chem 1991"	91	51	141	59	32	UUACUAACUUUC		GAUAG	UAG	AUGGGAUAUUUUGUUCCGGAUUCACAUAUCGAAAAUCUAAAGUCAUAUAA	GUAUGUGAAGCGUCCAUUGGCUGCCUUUAAAGUGCAGAAGUCAGAAGCAUUGUUACUAACUUUCAACAAUUUUUAUUCCUUUUCAUGAUAG	AUAUCAAAGUGAAGACCGCUCGCUGGUAUCGAAGUAUUUCUUAAAGCCAU	GAAAATCTAAAGTCATATAAATATCAAAGTGAAGACCGCT
380	YHR141C	YHR141C_8_382752_381991_INTRON_5_445	NULL	1	"Kawai S, et al. J Bacteriol 1992"	441	5	445	395	46	UUACUAACAAUC		ACCAG	CAG	UUUAACGUAAAUUGAAGGAGAUUAAGCAAAAAAACAAUCAGUAAUAAUGG	GUAUGUGGACGAUUAGGAAUAGACAAACCAUGUUAUUUAUCUCCAUUAGGGCGUGAGAGUGUAAUUAGUACACAGGUACUACUAGAAUGCUAAAGAACUUUUUAAAAUAUCCUGAAUCGUAGGGCAAAUCCAUGUCAAGCAAGAAACUAAUAGUUAUUAAACUUCAUUUACUUUUGAGCUAGUUAAAUAUUUUCAUCAUUUCCUAAAGUACUGAACACCUGAAUGAUACUUUUAUUGGCCCUUUUAAUAAGAACUCUGGUUAGAAAAUAUAUUGAGGAUAUCAUUAGUAAUACUCAUUAGAUAUUUGUGAAUUUAGCCGUUUCCCCAUUACAGAAAAAAGAUACAACUAAUUACAUGUGCAGUCAAAUUACUUUUUUUUUAAGAUCAAUUACUAACAAUCAACUAUCAUGCUAAAUUUGCUGUGAUAUCAUUUUGAACCAG	UUAACGUCCCAAAGACCAGAAAGACCUACUGUAAGGGUAAGACCUGUCGU	AAAACAATCAGTAATAATGGTTAACGTCCCAAAGACCAGA
381	YHR203C	YHR203C_8_505526_504472_INTRON_15_283	NULL	1	"Synetos D, et al. J Biol Chem 1992"	269	15	283	228	41	UUACUAACAAGA		UAUAG	UAG	UAAGUAUAACAAUAGAUACACCACUAUUGAGGAAAGAUGGCUAGAGGACC	GUAUGUUGAUUUCCACCUAAAAAAAUGAAGAGUUGGCAAAACAAGAUAAUAGUUUUCUUUGAAGAUGGGUACCCUCUCAUGAUUGGUACAAGUGAUUUGCACCAAAGUGACGAUGCGGACUAAAGAAAGAAUAUAAGAGUUGUGUUUAUCUAUCUGGAAGAUAGAAUUCUGAUGAGAAACUUUAUCCUUGUUAAGUAACAGAUAAGCAUUGCGGGAUAUUUUUACUAACAAGAGUACGUUUAAUAAUGUUAAUACGAUUUUUCAUAUAG	AAAGAAGCAUCUAAAGAGAUUAGCAGCUCCACACCAUUGGUUAUUGGACA	GGAAAGATGGCTAGAGGACCAAAGAAGCATCTAAAGAGAT
382	YIL004C	YIL004C_9_348502_347943_INTRON_12_142	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	131	12	142	112	19	UUACUAACUAUA		UAUAG	UAG	AAAUGUGAUUGAAGAGCCUCACAACACUAGGCUACACAGAUGAGUUCAAG	GUAUGAGAAAUUAUUAGACUAUUCUAAAGUUAGAGUAGCGCUUUUUGUUAAACAUCUACCAUAACACCUCGAUAUUGGGAGUUAUUGACCACGAGUGAACUUCGUUUACUAACUAUAGCGUGUGUAUAUAG	AUUUGCAGGGGGAAACGCUUAUCAACGUGAUACUGGUAGAACACAGUUAU	GCTACACAGATGAGTTCAAGATTTGCAGGGGGAAACGCTT
383	YIL018W	YIL018W_9_316766_317930_INTRON_5_404	NULL	1	"Moore J, et al. Mol Gen Genet 1995"	400	5	404	367	33	UUACUAACAGGA		AACAG	CAG	UACUAUUUGUCAUAAACUCACCAAGAAACCACAAAGUUAUUGAACAAUGG	GUAUGUUUUUAUUAUAUCGCAUAAUUAUGGCAAAUGUUAUGAAGGAUUCCUCUAUGACUUAGAUGUUUUGAAUCGGUACAUUUUAUUUUCAGUAUCCUUCUGCAUAUUACAAGGCAACAUAGCAGCGGACAAGAAAGCUUUUUUGAUGUUCGUCUUCGAAACGAUUACUAUCAGGGUCUUUUAAAUGCUAUAUCGGGACUUAUUGAAAUUGACAUAUUACACUUAUGAAUGACGUUGGCUAUCAAAGUAUGAGAAUAAGCCUUUCCUACUAUUUUGUAUCAUGACAACAGGGUUCUGUCGCUUUGAAUGCGGCCUUUUACUUUGCCAUAUUUUGAUAAUGAAAAAACUUUCGAGAAAUAUUUACUAACAGGAUCGAGAAUUUUUUUCCUCAUUUAAACAG	GUAGAGUUAUUCGUAACCAAAGAAAGGGUGCUGGUUCUAUCUUCACCUCU	ACAAAGTTATTGAACAATGGGTAGAGTTATTCGTAACCAA
384	YIL052C	YIL052C_9_257061_256224_INTRON_38_509	"predicted, Planta RJ, et al."	0	NULL	472	38	509	437	35	UUACUAACAUUA		UACAG	CAG	AACAACCCUAAAAAUGGCUCAACGUGUUACUUUCAGAAGAAGAAAUCCAU	GUAUGUUACUGAACUAUUUUUUUGAGUUUUCAUGAAAACUUAUUAUGAACUUAUUAUGAACUUAUUUUGAACUUUCAUUGUGGGAAAAUGAGGUUAAAAGGCGAACGAGUGCUAUUUAGAGAAGCGUACCACUUAGAAAUAGGAAGAACCAGAUCAUCGAUAGGGGAAUCAACUAUGCAAGAACUUUCAAAUAUAUUGGCAUGACAUUAAAACAUUAGACAGCAUGAACGAACAGUAUCCAGUAAUGUGGACAGCAAUAAGUUGACUUCAGUUUCUAAGUGGAAGACCUUGGUCGACCCAAAUGGAAAAUGAAUUUUUCUCCGCUGUUGAAAGAUUGAAAUGAGAUAAUAUUCAUUCAGCAACGCCGAAAUACUUUUCAUAUGGAGCAAUCCCACUCAAGUUCUUAAAUCAUAGGAUAAUAAAGAAGUGAUUACUAACAUUAAUGGGAAAAUUUUCUCUUUACUACGUACAG	ACAACACCCGUUCUAACAAAAUCAAGGUUGUUAAGACCCCAGGUGGUAUC	TTTCAGAAGAAGAAATCCATACAACACCCGTTCTAACAAA
385	YIL069C	YIL069C_9_232366_231550_INTRON_4_412	NULL	1	"Leer RJ, et al. Nucleic Acids Res 1985"	409	4	412	352	57	UUACUAACGUAU		UAUAG	UAG	UCGAAGCUCACUGCAAACGCUAAGGUACCUACAGAAGAUCAAUAAAAAUG	GUAUGUCGAACUUGUACUGAACCAGCAGAAAUUGAAACAGACUGCAAGUAAGCUCUAUUCCGGUUAUAGCAUUAUGGGUGGCUGUAUAAAUACAAUACAAUCACGGGAGAAAUUUCCAACAAAAAAGAUCUAGUGAUACGUUUGGUGCCACAAGUUUAAAAUACAAAUUGGUUAAAGGACUUUACGGCUAAAACACAAGAAUUGCAAUAAUGCUAAUAUUUAUUCUGUGUAUUCCUCAGUAACGUAAGAUCAGCGAGAACAAAUUCCCAGGGUUGGAAAGAAUAAAAAAAAAAGUACUGCUGUAAUGUUUCUGGAUUAUUUUUCUGAUUAAUUGUUCUGUUUAGAUUACUAACGUAUUCUGCUAAAAAUGACUGGUGAGCUUUGCUUCCAUUCAUUUUAUUUUUUAUAG	UCUGACGCUGUCACUAUUCGUACCAGAAAGGUUAUCUCCAACCCAUUGUU	ACAGAAGATCAATAAAAATGTCTGACGCTGTCACTATTCG
386	YIL106W	YIL106W_9_166412_167441_INTRON_21_105	"Not a standard branch, TATTAAC."	1	"Luca FC, et al. Mol Biol Cell 1998"	85	21	105	53	32	UUAUUAACAAAC	UAUUAAC	AGCAG	CAG	UUUCCUAAUUCAAUAAGGACUUCAAUUUCCAUGUCUUUUCUACAAAAUUU	GUAUGUUGCUAUUUUCUUUUCUACUUCAAGUAUUAUUGUUCAUCUUUUAUUAACAAACUGGGUAUGAGUUACCUUUUGAAAGCAG	UCAUAUAAGUCCCGGCCAAACAAUAAGAUCUACUAGAGGUUUCAAGUGGA	ATGTCTTTTCTACAAAATTTTCATATAAGTCCCGGCCAAA
387	YIL111W	YIL111W_9_155219_155762_INTRON_2_89	NULL	1	"Hodge MR, et al. Mol Cell Biol 1989;Cumsky MG, et al. Mol Cell Biol 1987"	88	2	89	57	31	UUACUAACAUUC		UGCAG	CAG	UUUGCAGGAAACUUUCACAAUGGAAUAACGCCACAUAUUCAUUGUAAAGA	GCAUGUAUAACAAACACUGAUUUUUGUUUUGAGUUUUAAAAGAUAUCCAUUUACUAACAUUCGAGGUGUACAAGCACAAGUUUUGCAG	UGUUGCGUACUUCUCUUACUAAAGGGGCACGGCUAACUGGGACAAGAUUU	CCACATATTCATTGTAAAGATGTTGCGTACTTCTCTTACT
388	YIL133C	YIL133C_9_99416_98527_INTRON_32_321	EST	1	est gi|621406|gb|T37589.1|T37589;est gi|621730|gb|T37913.1|T37913	290	32	321	233	57	AUACUAACAAAU		ACCAG	CAG	UGAAGAACAAAUCGAGAAAAUGUCUGUUGAACCAGUUGUUGUCAUUGAUG	GUACGUAAGAUUUUGCACUAAUAAUUGAAUGUGUUUUCCUUUCCCAGCCGCAGGAUUUGCUCAUAGUGCACAGCGUUUACGAGUCCCCAAGGAAUAUGAUAAAAAUAUUACAGCCGCAGAAGGGUGGAAUACAGAAGGGUCUUCGUAGAUUGUGUAUACGCUAAAACAUGGAGAUAGAGAGAGAUGGGAAUUAUGAACGGGAAAAACAGGUUUUAUUUAAAGGAUAAUACUAACAAAUCCAUUUUUUUGAAUGAGCAUCCAUUCAUUCAUCAAUAAUAAUCUUCAACCAG	GUAAGGGUCAUUUAGUAGGUCGUUUAGCUUCCGUUGUUGCUAAGCAAUUA	ACCAGTTGTTGTCATTGATGGTAAGGGTCATTTAGTAGGT
389	YIL148W	YIL148W_9_68708_69528_INTRON_9_442	"predicted, Planta RJ, et al."	0	NULL	434	9	442	399	35	UUACUAACUUGU		AACAG	CAG	UACCGCUUAUUAUCCCAUAGUUGAGACGACCAAGAUUCAAACAUGCAAAU	GUAUGCACCAUAUCCAUUCUAAACAUAGUUUUUCGAACGUUCAGAGCUUAAAGGGACAAUUAUUUUAGAAACUGAAUUUUUACCCAGUGGAAUAACAUCGUAUCUGUAAAGUCUACAAAAUUUUUUAUCCAUCAAAAAUUAAAACAAAGAAAACUGCCAAACUGAAUAUGAGGAACUUUCCUCUCUAGGAAUGACUUAGUGAAUGUACAGUGACUUGUGGAAAAUAUGAUUAGAUUUUGAGCGGGUGAUGCGACUUAACAGUCUCAUUGCCUAAGAAAUAUCCAAAUUUGUGGUUCAUGCUCUCCCCCAAGAUAUGACGAUGAGAGCUCGUUUAAAAUUUUGUCUUCUUCCGAACAGUUAUGAAAAAACUAUUACGUGUUUUUAUGAUAUCCUUACUAACUUGUCAUUUUUUUAUAAAAUUAUUUUUUUAACAG	UUUUGUCAAGACUUUGACUGGUAAGACCAUCACUUUGGAAGUUGAAUCUU	CAAGATTCAAACATGCAAATTTTTGTCAAGACTTTGACTG
390	YJL001W	YJL001W_10_434855_435618_INTRON_66_181	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000;Enenkel C, et al. FEBS Lett 1994"	116	66	181	82	34	UUACUAACUAAU		AAUAG	UAG	GUGGACAUCAAUCGUUUGAAAAAGGGCGAAGUCAGUUUAGGUACCUCAAU	GUAUGUAUAUAAGAAUUUUUCCUCCCACUUUAUUGUUUCUAAAAGUUCAAUGAAGUAAAGUCUCAAUUGGCCUUAUUACUAACUAAUAGGUAUCUUAUAAUCACCUAAUAAAAUAG	UAUGGCCGUGACAUUUAAGGAUGGUGUGAUACUAGGUGCUGAUUCACGUA	GTCAGTTTAGGTACCTCAATTATGGCCGTGACATTTAAGG
391	YJL024C	YJL024C_10_396288_395627_INTRON_23_99	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	77	23	99	53	24	UUACUAACAUAA		UAUAG	UAG	GAGGCCAGAACACAUAUAACGUUACACAAUGAUUCAUGCAGUUCUAAUAU	GUAUGUAAGAUUUCUCAAGGGUCUUUUCUUCUGCCAAAAUUAUACAUUACUAACAUAAUUCAUCAUUUUUGGUAUAG	UCAAUAAGAAAUGCCAACCAAGAUUAGUGAAAUUCUACACGCCGGUCGAC	GATTCATGCAGTTCTAATATTCAATAAGAAATGCCAACCA
392	YJL041W	YJL041W_10_365480_368069_INTRON_2_119	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000;Tripp ML, et al. Mol Microbiol 1989"	118	2	119	75	43	UUACUAACGAAA		AUUAG	UAG	CCAUUGCAACGCACAGUCCAACAGUAAUAAGCUCUGAUCGUUUUGAAAAA	GUAUGUUUCUUUCCAUUGGACGGUUGUCUUCCGAUCAAAAUUUUAUCUCCUAUACAAUUUCUUCCUAUUUACUAACGAAAACCUGCGAACCUGUAAACUACAUGAUUUUUAAUAUUAG	UGAACUUCAAUACACCUCAACAAAACAAAACGCCCUUUUCGUUCGGGACU	GCTCTGATCGTTTTGAAAAATGAACTTCAATACACCTCAA
393	YJL136C	YJL136C_10_156971_156248_INTRON_25_484	"predicted, Planta RJ, et al."	0	NULL	460	25	484	434	26	GUACUAACAUUG		ACUAG	UAG	AAAUAAAAGAAUAUCAAUAAGCCAAAAUGGAAAACGAUAAGGGUCAAUUA	GUACGUAAAUUAUAGCAGAUGAUGGCGCGCAAAGGAAGAAAGAAGAGGACUGAGUAAGCGUGGACAGACAAGGGAGCAUCGACAGAAAAAUAAAAUUAUAAUAAGUUAAGUGUGCAAGAUUAGUGGUACAAAUAGGGUGGGACCAACAUGGGUUUAUAAUCAUAUUGGUUAGUAAUACAUCAAAUUCAAGAAAAUGCAAAUAACCCAUUUAAAUUGGCACAAGUGUUACCUGAUACUUUAUCAUGUGUGGUCUAAGUACACAUCUCUAAGAAAUGUGGCGUUUUAACGACAAAAUUGGAAUCCCAAGAGAGAUAUGCUGAAAAGACAUCAUAAUUCCGAAUUAGUGGGUUUCCAUAUUCCAGAACUACUCUUAGAACUUUUCUUUCAUUCAUGUGCAGAAUAAUUUUACAAGAAUAUAAGCGCAAAUGUACUAACAUUGAAUAAUUUCUUUUUUUACUAG	GUUGAAUUAUAUGUUCCAAGAAAGUGUUCUGCUACCAACAGAAUCAUCAA	AAAACGATAAGGGTCAATTAGTTGAATTATATGTTCCAAG
394	YJL177W	YJL177W_10_90783_91654_INTRON_310_626	EST	1	est gi|622601|gb|T38784.1|T38784;est gi|622866|gb|T39049.1|T39049;est gi|620374|gb|T36557.1|T36557	317	310	626	283	34	UUACUAACAAUG		AACAG	CAG	CUGUUAAGUUCGUUCAAGGUUUGUUGCAAAACGCCGCUGCCAAUGCUGAA	GUAUGUUUAAAAUGAAAAUAUGAAAAAUAAGAUUGAAAAAUAAUAAUGAUGUGUUGACGGGAGAUGAUAAAGUAUUAGAAUAUGUUCAUAUGUGUUGCAUCCUAUUUUCUGCAUGAAUGCACGAUUCGAAAGAGCUAAAAUUAACAGUUUUCCAAAUGAAAGAGAAAAGAAAUAAAGAAGAAAUGGGACAUGCAAAAAGGAACUAUGGAUACCUAUUAAGCGUAUAGCAUAGUGUUUUCUAAUCUUAUUUUUUCUUACACUACGACUUUAAAAUUUUUACUAACAAUGAAUUACUAUUAAUUUUCUUUUUAAAACAG	GCUAAGGGUCUAGAUGCUACCAAGUUGUACGUUUCUCACAUCCAAGUUAA	ACGCCGCTGCCAATGCTGAAGCTAAGGGTCTAGATGCTAC
395	YJL189W	YJL189W_10_75932_76473_INTRON_7_392	NULL	1	"Fried HM, et al. J Biol Chem 1981"	386	7	392	331	55	UUACUAACAUUU		AUUAG	UAG	UGAAAAUUCGAAAAAGACAAGCAAAUAAACACAGAUAGAUCAACAUGGCU	GUAUGUUAGAAAGAUAUUAUAAAUCCCAGUUAGAUGCUGAACUGAUCAAUAGCAAAUUAUAAACCACAUCCAUCUAAAUGACCUUACCACCUACAAUUUGGAUUUGAAAUAGAAGCAAUGUGUAAAAUAUAGGGAAAGGAUUAGGAGUGUUAACCAUACUAAAAUUUUUCUUAUCCGAAACAGAAAUCUAAAGUCGCCACUACGCAGAUUAAAAUAUGGUCAUAAACUGCUUAUUCUGAGAACUUUUGGUGGUCCAGCGUGGUUUAUGUCAGGUGGUAUUGCCUUGGAUCCGUGAAUGCAUCAUAUUGAUGAGUUUGAACAUUGUUACUAACAUUUUUUACAAUUGUACACUUCGUAUGUGCACGAUAUGUUUCCCUUUUAAUUAG	GCUCAAAAGUCUUUCAGAAUCAAGCAAAAAAUGGCUAAGGCUAAGAAGCA	ACAGATAGATCAACATGGCTGCTCAAAAGTCTTTCAGAAT
396	YJL191W	YJL191W_10_73786_74610_INTRON_11_418	NULL	1	"Li Z, et al. Mol Cell Biol 1995"	408	11	418	383	25	UUACUAACAACU		UAUAG	UAG	GAAAAAGACUGAAAUCAACAACUCCCAAUAACAAUUAAGAAUGGCUAACG	GUACGUGAAAGGGGUGAUAUCCUGUUUAAAACCAUUUAGUUAUUCUUUUUUUCAGAUGGAGACUGUGAUCGGGUAGCGCAUGAUGUUAUUAUUGGAAUUUUAUUUUUUUUGCAACUUUGAAGCACUCCUAACUAUAUUGCAAUAGUGUUAUGAGAUGCUACUUAUGUUUGUAAGGCCAUGAAAUUCUGUAAUACGGAGUUAAAAUUUCUGCAAUAAAGCACUUCAAUGCUAUUGUGUUAUAGAGGCUCUGCGCUCACCCUUAAUACUGUAUCAUCUGUAAUAAAGAAUGUUUAUCUUAAAAGGAUUGUAACUAAAUGGUUGUUAGAUAGUGACUCAUUCGUUUAUUUUUUAAUAAUCGAAAAAGCAGAAGUUCUGUUUACUAACAACUAUACCUCUUAUCAUGUAUAG	ACCUUGUUCAAGCUCGCGAUAACUCUCAAGUCUUUGGUGUUGCCAGAAUC	ACAATTAAGAATGGCTAACGACCTTGTTCAAGCTCGCGAT
397	YJL205C-A	YJL205C-A_10_50443_50139_INTRON_33_175	EST	1	"Davis CA, et al. Nucleic Acids Res 2000;est gi|1136577|gb|U41658.1|SCU41658"	143	33	175	61	82	UUACUAACGCAU		UGCAG	CAG	CACAAGAUCAUCGAUAACAUGGUUCAGUACGCUCCCUUUCUAUUAGGAAA	GUAUGUUCAUUCUUCAUACGCUAUUCUAUUUUUUUUUUUUUCACACUUAUUCUUUUACUAACGCAUAGUUAACCAUUUGCUGUUUCGAAGAGGCAACAUCAAACAAGUCGAUGUGCUCUUUCCCAAGCUGGUCUCUAUUGCAG	AUUUUCUGAUCCGUUAUUGGCAAUUAUGGUAGGCUGUCUCAGCUACUAUG	GCTCCCTTTCTATTAGGAAAATTTTCTGATCCGTTATTGG
398	YJR021C	YJR021C_10_469271_468247_INTRON_317_396	"EST, activated by MER1"	1	"Nandabalan K, et al. Mol Cell Biol 1995;est gi|171931|gb|M60755.1|YSCMER2B"	80	317	396	66	14	UUACUAACAACU		UAUAG	UAG	AUCGCUAAACAAGUUUAACCAGCUACUGGAACAAGAUGCUGCUACGAACG	GUUCGUACCAACACAGUGCAUACCCUCAAGUUUUUUAUUCAUUUUCUUCCAAAACACAUUUACUAACAACUGUAGUAUAG	GAAACGUGAAAACCUUAAUAAAGGAUUUGGCUUCCCAGAUUGAAAACCAA	ACAAGATGCTGCTACGAACGGAAACGTGAAAACCTTAATA
399	YJR094W-A	YJR094W-A_10_608000_608553_INTRON_3_277	"predicted, Planta RJ, et al."	0	NULL	275	3	277	242	33	UUACUAACAAAU		UGCAG	CAG	AUUAACUAUAUACGAUAUUAUAAACAGCAUAGAUAAUCAAACAAAAAAAU	GUAUGCAUAUAAUAGAGGAAUUGGAUGACUAAAUGUUCUUAUAUUGGAGUUAGUGGAGAUGCGUGGUAGAUUUGAAUUAAAUAGAAAGUGCUGGGGUUGAUAAACCACGAAAUAUCGCAGUUGAGGAGAAUGAUAAGCCAGGAUAGAUGGUAGCGCAUUUUUGGGGCAAUCUCACUGUAGGUCCACCACAACUCAAUAUGACUACAUCGAAUCAGUUAUAAGGCAAGUUUUUAGUUUACUAACAAAUAUUUCCAUCUUAUUUUUUUUUUUUGCAG	GGCUAAGAGAACAAAGAAGGUCGGUAUCACAGGUAAAUACGGUGUCCGUU	AGATAATCAAACAAAAAAATGGCTAAGAGAACAAAGAAGG
400	YJR145C	YJR145C_10_702761_701720_INTRON_15_270	NULL	1	"Synetos D, et al. J Biol Chem 1992"	256	15	270	174	82	UUACUAACGAGC		UACAG	CAG	UCUGCCCAAAACAAACCAAAGAAUCAAUACGCAAAGAUGGCUAGAGGACC	GUAUGUUUGACUAUAGACUUUGAUUAUAAUUACGCAAGGAUGAGAAGAAUGAUAGACAAGAAACAAGUGGAGUCUUAACCAAACGAAUAGGAACAACAAUGAACCAGUUUAUGUCCAUUUAAUUUUAGAUCAUCCUGGGAUUGUACAAAUAUUUUACGAGUAAUGAUUUACUAACGAGCACAAUGAAAAAAAUAAAAUGUCUGUAUCUUCAUUAUACAUUCAUUUUUGCCCUUUUUUCUCAUUUUUUUCCGUACAG	AAAGAAGCAUCUAAAAAGAUUAGCAGCUCCACACCACUGGUUAUUGGACA	GCAAAGATGGCTAGAGGACCAAAGAAGCATCTAAAAAGAT
401	YKL002W	YKL002W_11_437416_438182_INTRON_61_128	EXTENDS SGD 5'	1	"Davis CA, et al. Nucleic Acids Res 2000"	68	61	128	46	22	AUACUAACGUUA		UUUAG	UAG	UUGAGUGGGUAUUUGGAAAGAAUGUCACUCCGCAAGAGAGGUUAAAAAAA	GUAUGUUGUUCUGUAUUUGGAUCAGUUAUUUUAGUGAACAUACUAACGUUAAUUAUUUGAGUUUUUAG	AAUCAAAGGGCUUUAGAAAGGACUCAGAGGGAGCUUGAAAGAGAAAAGAG	CGCAAGAGAGGTTAAAAAAAAATCAAAGGGCTTTAGAAAG
402	YKL006C-A	YKL006C-A_11_430270_429836_INTRON_37_177	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	141	37	177	77	64	CUACUAACUAUU		AACAG	CAG	UAAUCAUCAUAGCGAUGUCAAAUUCUAGGUAUUCUCAGACCGAAUCAAAC	GUAUGUAAAUCACCGGCAACACGCAUAGGUGUUUAGAAUGGGACCUAGCUUGCUAUAUGGAUGUUAUAAGCUACUAACUAUUGCUUCUGUACACCGGAUGAGCAGAUGUAUCAUCCCUUCAUGUACAUGUACUUUAAACAG	AAUGAUAGGAAACUAGAGGGGUUAGCCAAUAAAUUAGCUACAUUCAGAAA	ATTCTCAGACCGAATCAAACAATGATAGGAAACTAGAGGG
403	YKL006W	YKL006W_11_431544_432358_INTRON_130_527	NULL	1	"Boyer J, et al. Yeast 1993"	398	130	527	350	48	UUACUAACAACU		UAUAG	UAG	AAUCCGCAGGUAAAUUGGCCGCUAUCGUCGAAAUUAUUGACCAAAAGAAG	GUAUGUUAAAUCCGGAAAACCUAUCAUCGAUUUGAGGAGGGAAAUGAACGAGGAAUGAGAUUUAGGCUACGAAAAAGUGCUGGCAAAUAUCCAAUCCGUUACCAUGGAUGAAGCUACUUGUAAACGAUAAGUAAAUGUGAAAAUACACAUUGCGAUAGAGAUACAAAAAAGUCUUUAUUUCCCUGUUGGAGUGGCCUAUAGUGGAUUAUUUAUUUAUUUUGCUAGCAGCUUACCUAGUUUCAGAAAGGUGAUGACCCAUAUUUGCGCAGUUAAUUCUUAAAGAGCCUGACCAUGUUUCCUCAAAUAUUAAACCAUGCCUUCCAUCGUUUUGAAAAAAUUUCGUUUACUAACAACUUUUAUGAAUAAUUUUUUUAAAUUAUUUGUUAUAAUUAUUAUAG	GUUUUGAUUGACGGUCCAAAAGCUGGUGUUCCACGUCAAGCCAUCAACUU	AAATTATTGACCAAAAGAAGGTTTTGATTGACGGTCCAAA
404	YKL081W	YKL081W_11_282533_284097_INTRON_206_531	Contains snoRNA snR38	1	"Kinzy TG, et al. Nucleic Acids Res 1994;Hiraga K, et al. FEBS Lett 1993;est gi|621780|gb|T37963.1|T37963;est gi|622892|gb|T39075.1|T39075"	326	206	531	277	49	UUACUAACAUUU		UUUAG	UAG	GGGUCCAAAGGGCUUAAAGCUAACUGAAGCUUUGGCUAUCCAAUUUUAUU	GUAUGUUCCAUAUUUUAUUUUAACACUUCCACAUACAUUGUUUUGCGCGUUUCCCGUUCGUUUAUUUGGCACGUCAUUUUUCUUCGAAACAUAAUGAUGAAAAAAAAUUUUAUCAAACAGUUAUCCCUGUCUGAAUGGGUAAUAAUAGGUAACCUCUCAUAUGUUGAUAUUUGUAUUUCUGAUAUGUUUCUUAAAGAAAAAUGAAAGUCAAAAUAACAAAAAGGAAGUACAAAGCGUGUCCUAAUCCAGGAAAAAAUAUAAAGGAUUGUUUUACUAACAUUUCUUCAAUUAAUGGUUGUAUAACCAUCGAGAUGAUGUAUAUUUAG	UGGCUAAUCAAGUUGCCGAUGAAAAAGAAAGAGCUCGCUUAUUAGGUUCC	TTTGGCTATCCAATTTTATTTGGCTAATCAAGTTGCCGAT
405	YKL156W	YKL156W_11_158616_159214_INTRON_4_353	"prediction, Boyer J, et al."	0	NULL	350	4	353	317	33	UUACUAACAGUU		AACAG	CAG	AACUUCAUCGUAACACCUUCCAACAAAGCAAAGAUAGAUAUCCCAAAAUG	GUAUGUUAGUAUCCAAUAAAUGCAGCGCAACUGGACCAGUGAAUAGAACAAUACAUAUAGAUAAGUCGCAAAAGAAAAGAAUACAUGUGGUGGAAAAUUUUGCACCAAGAGAGGCAAGAACUAUGAAGAAAGACUUUUGAAAUAUUUCAAGCGGUUGCUACAUAUAGUGGAUAAGAUUCAGGAUGGACGUAUGAGCUUACAGUUCAUUGUAGGGGAAUAUAAAAUUCUGAUGAUGGCGAACUUCAUUCCCAGCAACUCAAGCUAUUGUUAUUUUUCUAUUCUGCACCGAGAUGAGGAGAAAAAAGGAAGUUUACUAACAGUUAGAUUUAUUUCUUAUUCGUCUACAACAG	GUUUUAGUUCAAGAUUUAUUGCACCCAACUGCAGCUUCUGAAGCAAGAAA	AAGATAGATATCCCAAAATGGTTTTAGTTCAAGATTTATT
406	YKL157W	YKL157W_11_154993_158183_INTRON_282_664	"EXTENDS_SGD 5', this intron fuses YKL158w onto the front of YKL157w."	1	"Davis CA, et al. Nucleic Acids Res 2000"	383	282	664	328	55	UUACUAACUUAC		ACCAG	CAG	GAAACUAGUCACGCCUGUGCGAAGUGCCAAAAAACGUCACAAUUACUAAA	GUAUGUUUACACAAAAGCUUAACAAAGAAACAAGGAAAAGAUAUACAUAAUAUAAAUUACCACUGAUUAUUUUGAACAUGAGACCGAAAUACCAGGAUGUAUUACUAGCCUUGUUUACCAUUCUUCAACUGGUGAUUACAAAGUGAGUUCUCAUUCAUUGUUACCCUCAUAUUCUUAUCUUCUGCAGCAGGAAAAAGGGAUUUACCCAACUAAUUGACUUUGAUAGAAUUGUGAUUGCAAUAGCUUAGGUAAUAUUUCAGUUAGACUACGACAUCCAGUUAUUUUUUUCUAUUUCUCUGCUCGUUACCGACCUUUGAGUUCUUACUAACUUACAUUCUCUAUUAAUUGUACCCAAAAGUACGAAGGACAACUAAAAUGACCAG	UAAAACCCCAAAUCGUGAAAUUCUUCCUGAUAAUGUCGUUCCUUUACACU	AAAACGTCACAATTACTAAATAAAACCCCAAATCGTGAAA
407	YKL180W	YKL180W_11_109271_110131_INTRON_310_615	EST	1	est gi|620824|gb|T37007.1|T37007	306	310	615	283	23	UUACUAACAACA		UACAG	CAG	CUGUUAAGUUCGUUCAAGGUUUGUUGCAAAACGCCGCUGCCAACGCUGAA	GUAUGUCAAGAAUAUUAUAUGUUUAGUACCAGAUGAAACAAGAAUGAGUUGAAAUUCAAAAUGCGCGGAAAAUCCAUUAUGAUCAAGGGAAAUUGAAUAUGAUAAAUGAAUUAUUCAGAAAGUCACAAUUACCAGAUUGGAAUGAACUGUCAAGCUGAAAAGCAACUAAGGAUUACCAUUACGUGUUUAUGAUUUUGUUAGAAAAAUAUUGAAAACUUGAUAUUUCUUUCCGCUAGUUUCAUCUUUUUCAAUUACUUAACCGGAUCAAAAUUUUUUUUACUAACAACAUAACUAUUUUUAUUACAG	GCUAAAGGUUUGGAUGCUACUAAAUUGUACGUUUCUCAUAUCCAAGUUAA	ACGCCGCTGCCAACGCTGAAGCTAAAGGTTTGGATGCTAC
411	YKL186C	YKL186C_11_93537_92746_INTRON_71_169	"EXTENDS_SGD, Alternative splicing (intron 2-a). Gene has at least 5 overlapping introns.  Splicing this intron produces a transcript containing a UGA stop codon at codon 21, with the rest of the transcript free of stop codons.  The decent reading frame 93"	1	"Davis CA, et al. Nucleic Acids Res 2000"	99	71	169	86	13	UAACUAACCUGU	AACUAAC	UAUAG	UAG	GUAUGUAUUGCAGAGAUUGCCACUACUAACCAAGAAAAGUUGAACGUGUC	GUACGUAUAAAACGAUUUAUGCUUAGGCUUUACUGAAAAAAAAAAAGUAAAAAGAGGAUGCGCAAACGCAUAGAGCAAGUAACUAACCUGUUUUUAUAG	UAUAUACUUGGCCCCACCAGGCUGAUCGUCAGGCAAAACGCCAAACUAAU	CAAGAAAAGTTGAACGTGTCTATATACTTGGCCCCACCAG
412	YKL186C	YKL186C_11_93537_92746_INTRON_71_224	"EXTENDS_SGD, Alternative splicing (intron 2-b). Gene has at least 5 overlapping introns.  Splicing this intron produces a transcript littered with stop codons using the 93537 92746 reading frame.  The decent reading frame 93300 92746 is probably used (sam"	1	"Davis CA, et al. Nucleic Acids Res 2000"	154	71	224	86	68	UAACUAACCUGU	AACUAAC	AACAG	CAG	GUAUGUAUUGCAGAGAUUGCCACUACUAACCAAGAAAAGUUGAACGUGUC	GUACGUAUAAAACGAUUUAUGCUUAGGCUUUACUGAAAAAAAAAAAGUAAAAAGAGGAUGCGCAAACGCAUAGAGCAAGUAACUAACCUGUUUUUAUAGUAUAUACUUGGCCCCACCAGGCUGAUCGUCAGGCAAAACGCCAAACUAAUAACAG	UAAUAACAGAAAUAUGAACACCAAUAGUAAUACUAUGGUAAUGAAUGACG	CAAGAAAAGTTGAACGTGTCTAATAACAGAAATATGAACA
413	YKL186C	YKL186C_11_93537_92746_INTRON_71_233	"EXTENDS_SGD, Alternative splicing (intron 2-c). Gene has at least 5 overlapping introns.  The same issues as intron 2-b."	1	"Davis CA, et al. Nucleic Acids Res 2000"	163	71	233	86	77	UAACUAACCUGU	AACUAAC	AACAG	CAG	GUAUGUAUUGCAGAGAUUGCCACUACUAACCAAGAAAAGUUGAACGUGUC	GUACGUAUAAAACGAUUUAUGCUUAGGCUUUACUGAAAAAAAAAAAGUAAAAAGAGGAUGCGCAAACGCAUAGAGCAAGUAACUAACCUGUUUUUAUAGUAUAUACUUGGCCCCACCAGGCUGAUCGUCAGGCAAAACGCCAAACUAAUAACAGUAAUAACAG	AAAUAUGAACACCAAUAGUAAUACUAUGGUAAUGAAUGACGCAAAUCAAG	CAAGAAAAGTTGAACGTGTCAAATATGAACACCAATAGTA
409	YKL186C	YKL186C_11_93537_92746_INTRON_21_224	"EXTENDS_SGD, Alternative splicing (intron 1-b). Gene has at least 5 overlapping introns."	1	"Davis CA, et al. Nucleic Acids Res 2000"	204	21	224	136	68	UAACUAACCUGU	AACUAAC	AACAG	CAG	UCUGAACCGAUGCUUCUUUGAUUGGACAAGAUGAUAGACCAUGACUCCCU	GUAUGUAUUGCAGAGAUUGCCACUACUAACCAAGAAAAGUUGAACGUGUCGUACGUAUAAAACGAUUUAUGCUUAGGCUUUACUGAAAAAAAAAAAGUAAAAAGAGGAUGCGCAAACGCAUAGAGCAAGUAACUAACCUGUUUUUAUAGUAUAUACUUGGCCCCACCAGGCUGAUCGUCAGGCAAAACGCCAAACUAAUAACAG	UAAUAACAGAAAUAUGAACACCAAUAGUAAUACUAUGGUAAUGAAUGACG	ATGATAGACCATGACTCCCTTAATAACAGAAATATGAACA
410	YKL186C	YKL186C_11_93537_92746_INTRON_21_233	"EXTENDS_SGD, Alternative splicing (intron 1-c). Gene has at least 5 overlapping introns."	1	"Davis CA, et al. Nucleic Acids Res 2000"	213	21	233	136	77	UAACUAACCUGU	AACUAAC	AACAG	CAG	UCUGAACCGAUGCUUCUUUGAUUGGACAAGAUGAUAGACCAUGACUCCCU	GUAUGUAUUGCAGAGAUUGCCACUACUAACCAAGAAAAGUUGAACGUGUCGUACGUAUAAAACGAUUUAUGCUUAGGCUUUACUGAAAAAAAAAAAGUAAAAAGAGGAUGCGCAAACGCAUAGAGCAAGUAACUAACCUGUUUUUAUAGUAUAUACUUGGCCCCACCAGGCUGAUCGUCAGGCAAAACGCCAAACUAAUAACAGUAAUAACAG	AAAUAUGAACACCAAUAGUAAUACUAUGGUAAUGAAUGACGCAAAUCAAG	ATGATAGACCATGACTCCCTAAATATGAACACCAATAGTA
408	YKL186C	YKL186C_11_93537_92746_INTRON_21_169	"EXTENDS_SGD, Alternative splicing (intron 1-a*).  The coordinates (93537 92746) are for the largest orf based on the splicing data. Gene has at least 5 overlapping introns and at least 2 possible start codons.  The splice sites predicted for this intron a"	0	"Davis CA, et al. Nucleic Acids Res 2000"	149	21	169	136	13	UAACUAACCUGU	AACUAAC	UAUAG	UAG	UCUGAACCGAUGCUUCUUUGAUUGGACAAGAUGAUAGACCAUGACUCCCU	GUAUGUAUUGCAGAGAUUGCCACUACUAACCAAGAAAAGUUGAACGUGUCGUACGUAUAAAACGAUUUAUGCUUAGGCUUUACUGAAAAAAAAAAAGUAAAAAGAGGAUGCGCAAACGCAUAGAGCAAGUAACUAACCUGUUUUUAUAG	UAUAUACUUGGCCCCACCAGGCUGAUCGUCAGGCAAAACGCCAAACUAAU	ATGATAGACCATGACTCCCTTATATACTTGGCCCCACCAG
414	YKL190W	YKL190W_11_82949_83552_INTRON_53_128	EST	1	"Cheret G, et al. Yeast 1993;est gi|218409|dbj|D10293.1|YSCCNB"	76	53	128	58	18	UUACUAACACUG		AACAG	CAG	GGGUGCUGCUCCUUCCAAAAUUGUGGAUGGUCUUUUAGAAGAUACAAAUU	GUAUGUACACUUCGGAGUGAGGAAAAGAAAGAAAGGGGAAAUUAACCGAUUUUACUAACACUGACACUUUGAACAG	UUGAUAGAGAUGAAAUUGAAAGGUUAAGGAAGAGAUUCAUGAAAUUAGAU	TCTTTTAGAAGATACAAATTTTGATAGAGATGAAATTGAA
415	YKR057W	YKR057W_11_551293_551878_INTRON_25_346	"predicted, Planta RJ, et al."	0	NULL	322	25	346	301	21	UAACUAACAAAG	AACUAAC	AUCAG	UAG	ACAAACCAUAGAAACAUCAUACCAAAAUGGAAAACGAUAAGGGCCAAUUA	GUAUGUUCGAGAAAUCUAUAAGAUUUUUUAUAUUUUAACGGAUGAAUGGAAAGUGCAUGGCUGUUUAAAUAAAUGUAAGAAAGAUAUCAUAAUGCAAACAAAACGUAGGCAUCCGCAAUGUAUGGAAAACAUACUUAUGGUUACCGAUAAUAAGCAACUCCGAAGGUGCCAUAGACCAGCUCUGAAUGCAGCCUACAAAAGUUGAGCAAUUUCUGACAAAAUUCUUCGAUUACUUUCUUCACAUGUAUUAAAUCAUCACUCACCACCACCAACAAUGUGUUUUUUAAACUAGCAUAACUAACAAAGAUUUGUUUUACAUCAG	GUCGAACUUUACGUUCCAAGAAAAUGUUCUGCUACCAACAGAAUCAUCAA	AAAACGATAAGGGCCAATTAGTCGAACTTTACGTTCCAAG
416	YKR094C	YKR094C_11_618384_617630_INTRON_9_376	"predicted, Bou G, et al."	0	NULL	368	9	376	289	79	UUACUAACGUGA		UACAG	CAG	UUUUUCCCGUUCAGCAAGAGGUAAAGCCACCAAAGGUUCAAAAUGCAAAU	GUAUGUUACGGCGAAUACAGAAUACUAUGUUCGAAAUAAUAUGAGGAUUAUACGAUAGCAAAAAAGCCAUAAACGAAAGACAUAAAUGGAAAAUGAUUGACAAGCUCACAAUUUAUUAAACAAGUAGCAAUUGAGAAAAACUAUUACUCGCGGCAAGCUUCUGAGUUUACAUUAAAUCUGUAGAGCAAAUUGAAAAUGUCGCAUAUGUGCUGAAGGGUUUGUUUGUUCCAUCUUAUUUUGCAUAACAUAGUUAUAUUUACUUGGUCGCAUAAAAAAUAUUUUUUACUAACGUGAAGUUUCUUUCUUUAUGAUGUACGCACGCACGUCUGUGCUUACUCCAUAAAUGAACUUAUUCCAAUUUUGUACAG	CUUCGUUAAGACUUUGACUGGUAAGACCAUCACUUUGGAAGUUGAAUCUU	CAAAGGTTCAAAATGCAAATCTTCGTTAAGACTTTGACTG
417	YKR095W-A	YKR095W-A_11_625432_625839_INTRON_39_113	predicted by Leslie/Tyson/Manny; LM-1; Homology to a short pombe hypothetical orf	0	NULL	75	39	113	51	24	UUACUAACUAUU		AUUAG	UAG	CUAAGAAAAUUGAUGACAAGCAAACGGGAAAAGUCACUGGAUCACACAUU	GUAAGUAGAAGCAGUUUUUCAAUGGGAAGACCGCACUGCAUAGUUUACUAACUAUUUAAACUUUCCAAACAUUAG	AGAACUAAAGAUACCGUUUGAAACGGAGCGACAAGCGACCAUAGCAACCA	AAGTCACTGGATCACACATTAGAACTAAAGATACCGTTTG
418	YLL050C	YLL050C_12_40413_39803_INTRON_15_193	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000;Iida K, et al. Gene 1993;Moon AL, et al. J Cell Biol 1993"	179	15	193	47	132	UUACUAACUAAU		UGUAG	UAG	UCAAAACAUACAUAAACAAAAAACUAACAAAAGAAGAUGUCUAGAUCUGG	GUAUGCUAAAUUUCAUUUGUACUCCUGUGUAAACUAUCAAUUACUAACUAAUUGACAUGAUGCUGUUUUAUCUCGCUCUCUUAUGUCCUUUCUUUCCUCCCUUUUUAACAUGGAACUUUAAAAGGAAUGUGGGGGAAAAAAUUCAUAAGAAGCCAGGAAAAUGUGAAGUUUCUGUGUAG	UGUUGCUGUUGCUGAUGAAUCCCUUACCGCUUUCAAUGACUUGAAAUUGG	AAGAAGATGTCTAGATCTGGTGTTGCTGTTGCTGATGAAT
419	YLR048W	YLR048W_12_242233_243350_INTRON_91_449	EST	1	est gi|622876|gb|T39059.1|T39059;est gi|621588|gb|T37771.1|T37771	359	91	449	330	29	UUACUAACAUAA		UUUAG	UAG	CCCAACUUUUGUUGGCCGCUAACACCCAUUUAGGUGCUAGAAACGUUCAA	GUAUGUACACAUAUCCCAUACGAUUAUGUUCUAUAGAUGAUAAUAGGUCUCGAAAAGAAUAUGUCCCCGAUUUAAUCAUAUUUGGAGGUCAGAGGACCAAAGGUAAUUUCAGAGGAAUUUUGAACACGCCGGGUUUAGAAGAGUUAGAAUUUCACUUCUUAGUGAGGGUAAGGAGAAGAAACUCAAUAAGAAUAUACAUCCUCGACUGUGUCAAAGAUUAUGAACUCCGAUGAAACAGUAAAACGUCAAAAAAUUCCACGGGAUAUAAUUCGGUACUUUAUUGGAUAUGGAAGAAAACAUUAUAUAUGCACAAAUGAACGCUCUUACUAACAUAAUUUAUCUUUCCUCUCUUUUUUUAG	GUCCACCAAGAACCAUACGUUUUCAAUGCUAGACCAGAUGGUGUUCACGU	TAGGTGCTAGAAACGTTCAAGTCCACCAAGAACCATACGT
420	YLR061W	YLR061W_12_263195_263949_INTRON_13_401	"predicted, Planta RJ, et al."	0	NULL	389	13	401	334	55	UUACUAACAUUA		UAUAG	UAG	UCAAAUUAUAAACCACCAAAACAACAGAUUAAGAAACAAUGGCCCCAAAC	GUAUGAUACUUUAAAAGGAAUCCACGCCCGAUUACGAAGUCUAUGUUUUACUGUUAUUGUAAUGAUUGAUUGUACGCGAAUAACAAGGAAGAUAGUAAAACCAAAAAAAAAAAAAUAAAAAUGUACGAAACGAAGAAGCGUCUAUGUGUUUAGUUGCUUUUCUGUAUUUUAAAAAUUCACUACUUGAACAUUGAACUCUAUAUCGACUCCCUUCUUUUUAUCCGUUUCUGAAUGUUUUUUUGUUUGAGAUUGUCAUAUGUGAUUGUUAAUAGCAGUAGGCAACUUUGUGGUUUCGGGAUUGAAAGAAAAUCGUGAAAUAUUCGUUUUUUACUAACAUUACUGUUCUGAAAAUUUUUACUAAUUUUCAAUCUUUAAUUUUUUUGAUAUAG	ACUUCCAGAAAGCAAAAGAUUGCCAAGACCUUUACCGUCGAUGUCUCUUC	AAGAAACAATGGCCCCAAACACTTCCAGAAAGCAAAAGAT
421	YLR078C	YLR078C_12_286560_285737_INTRON_4_92	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000;Ferro-Novick S, et al. Cell Biophys 1991"	89	4	92	60	29	AUACUAACAGGG		AAUAG	UAG	AUAGUGCAGAUAUUAUCGUGACUUAAUCAUAUUGAUUUGAGGGGGGAAUG	GUAUGUUUGAUCGCCGGAGGCAUCUUUUCUCAUUAUUGCUAAAACAAGAUGUAAUACUAACAGGGUAUUUUGCUACUACCAUCAAAUAG	AACGCUCUUUACAACCAUGCUGUGAAGCAAAAAAAUCAACUACAACAAGA	ATTGATTTGAGGGGGGAATGAACGCTCTTTACAACCATGC
422	YLR093C	YLR093C_12_327416_326514_INTRON_17_157	Extends SGD 5'.	1	"Davis CA, et al. Nucleic Acids Res 2000"	141	17	157	106	35	AGACUAACGUUC	GACUAAC	CUUAG	UAG	CUGUUAGAGCAUUGGACUUUUAUAUUUUUACCAAAUGAAACGCUUUAAUG	GUAUGUAUAAAUAUUUCUACACAAUUAACAAAUGUUUAAAAAAGGGAUUAUGCGAAUGCUCAUCCCCCCAUGCCAUAAUUUUACUAUGUUACAUUCAGUAGACUAACGUUCCAUUUUGCUUGAUUUUGCAUAUGGUCUUAG	UAAGUUAUGUGGAAGUUAUAAAAAAUGGUGAAACAAUAUCUAGUUGUUUC	CCAAATGAAACGCTTTAATGTAAGTTATGTGGAAGTTATA
423	YLR128W	YLR128W_12_398531_399434_INTRON_4_97	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	94	4	97	50	44	GUACUAACACUU		UAUAG	UAG	CCCAAUAAAAAAAGAAAUUUUUGAAGAGACGUUCUUGCAUUCAGGACAUG	GUAUGUUUUUAAUUUCGUUUCUUUAGUUCUCAGGCUCUUCAAAGUACUAACACUUUAUUGGCAAGGGGCGCUCAAAUGUGAUGCAUCAUUAUAG	AGUAAUAAUAAAAUAAAAAGAAAGGAUGCAAGCCCGGAACAAGAGGCAAU	GTTCTTGCATTCAGGACATGAGTAATAATAAAATAAAAAG
424	YLR185W	YLR185W_12_522665_523290_INTRON_8_366	"predicted, Planta RJ, et al."	0	NULL	359	8	366	313	46	GUACUAACAAAC		AAUAG	UAG	AAGAGGUAUUUGCUAAAGCCUCAUACAAAUAAUAUAGACAAAAAUGGGUA	GUAUGUAGUAGGACAUUGAGAAUAAAACUGUGAACCUGUUAUUGACGACCGUGGAGAAAUGUUAUGAUUAUCUGAAGAGAAAUAUCGGAACGCAUGCACACCAAAUUUAUACUUAGCAAGACUGGACGAUACGAGACUGGUAUACUUGUAUGAAGACAGAAUAGUGAACGAAAGACAUGCGCAUGACAACAAAUUUACCGUAUAGAAGAAAUAUUCUGCUUGUAUGCCUGAGGGAACUCGAAAGGAUCAAUUUCAAUGGCGUUGUAACAGUCACGAAAAAAGUGUAACUAUAAGAUAAAGCAAAUUGUACUAACAAACUUAACCAAAUUGCACAACAAUUUGAUUUUCUUUUUAAAUAG	AGGGUACUCCUUCAUUCGGUAAACGUCACAACAAGUCCCACACUUUGUGU	AATATAGACAAAAATGGGTAAGGGTACTCCTTCATTCGGT
425	YLR211C	YLR211C_12_564531_563792_INTRON_19_77	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	59	19	77	49	10	UGACUAACAUGA	GACUAAC	AUUAG	UAG	UCAACGACAGUUAUACUAAUCUUGGUGAUGGAAUGAGUACUUUAGCGGAA	GUAAGUUUUUGAAUUAUGCCCCCACUUUUUUUUUGUUCAUGGUGACUAACAUGAAUUAG	GUUUAUACUAUUAUUGAGGACGCCGAACAGGAAUGUCGAAAAGGAGAUUU	GAATGAGTACTTTAGCGGAAGTTTATACTATTATTGAGGA
426	YLR275W	YLR275W_12_694378_694800_INTRON_6_95	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	90	6	95	60	30	AUACUAACUUAA		UCCAG	CAG	CGCCUUUGACAGUUGAUUAGAGGAGUAUUAUAAAACCGUUUUAUCAUGUC	GUAUGUUUGAUCUUAACCAUUUUUACAUCCUAUAAUUUGGAGUGAAUUUUUAUAUACUAACUUAAAAGUAAUUGAUUUGUAUCUUUCCAG	UUCACAAAUAAUUGAUCGUCCAAAACAUGAACUCUCUAGAGCAGAAUUAG	TAAAACCGTTTTATCATGTCTTCACAAATAATTGATCGTC
427	YLR287C-A	YLR287C-A_12_713158_712537_INTRON_4_433	"predicted, Planta RJ, et al."	0	NULL	430	4	433	391	39	AUACUAACAUGG		UUUAG	UAG	UGCCACUGUAAUAAUCUUCCAUAUCCCCAUACAAAAACUACGCAAAUAUG	GUACGUAAUGCCUCAUUAGGAUUUUAAAAUAUGAAAAAAAUGGACGUUUCAGCGAGGAAUGAAUAACAAGAAAUAGCUAAUUUGAAUAUAUUACUGGUGUUUCAUAUCUAUAUAUACCGCAGAAAAAGAAAUAAAACGCAAUAUAUCUUUAAACUGGCUCCACCCUGAGAAUAUGAUAGGAAACUUUUUAAAUUUGAGUUCUGUUACAUCAAAAACGUAAUUGCUUGACACAGAUUUUUCGAGGGCAACAGCGUGGACUUAACAUAAUGUCGAGUUUAAUAACAACAUUUUUUGACGGAGAGUUAAAAAGGCUUUGAGAAAAUAGCAGAGUGAAGUUUAUUUUUAGCAUCCUUGCUGAUACGCCAAAUAAUUCAAAAAUUCACUAUACUAACAUGGUCAUUAAUUUUUAAUAUUAAUAUUAUUUAUUUAG	GCUAAAGUUCAUGGUUCUCUAGCUCGUGCUGGUAAAGUCAAGUCUCAAAC	ACAAAAACTACGCAAATATGGCTAAAGTTCATGGTTCTCT
428	YLR306W	YLR306W_12_744151_744851_INTRON_4_137	EST	1	"Masson M, et al. Gene 1997;est gi|1256750|gb|U48699.1|SCU48699"	134	4	137	64	70	AUACUAACAUAA		AAUAG	UAG	AGAGACAUUAAAGAAUCAGUUAGAGAAUAUAAAACAAGAUAAUAAAAAUG	GUACGUAGAUGCAACUAUAUCUUUCCGUUUCUCAUUGGCGGUUUUUAGCGAUCGAAAAUACUAACAUAAUCUUUUUGGGGGGUGAGAAUGUAUAUGUGUACUGGAUAUGUAUAUUCUUGGCUUUAUUCAAAUAG	UUGAAAUUACGCCAAUUACAAAAGAAAAAGCAAAAAGAAAAUGAAAACAG	AAAACAAGATAATAAAAATGTTGAAATTACGCCAATTACA
430	YLR316C	YLR316C_12_766358_765266_INTRON_230_285	"extends 5' of ylr316c, this is the second intron, orf has 2 introns."	1	"Gerber AP, et al. Science 1999"	56	230	285	44	12	AAACUAACUAGU	AACUAAC	AGUAG	UAG	AAUGUAUGGAGUAUAAGAAUAGAUCCAAGAGACUCGAAGAAAGUAAUAGA	GUAUGUAUAUGAUUUUUGCUUUUGUAUUCAUGGAAGUAAACUAACUAGUAAAGUAG	GCUAAUUCGAAACGAUUUUCAGAAAAAUGACCCUGUUUCAUUGAGACAUU	GACTCGAAGAAAGTAATAGAGCTAATTCGAAACGATTTTC
429	YLR316C	YLR316C_12_766358_765266_INTRON_110_177	"extends 5' of ylr316c, this is the first intron, orf has 2 introns.  Both introns must splice to produce protein below. 2 possible branchpoints"	1	"Gerber AP, et al. Science 1999"	68	110	177	45	23	CAAUUAACUAAC	AACUAAC	UGCAG	CAG	UCGGCUUCUGCAAAUUAGAAAUUUCAAAGAUGUAAAUACGCCCAAACUAA	GUAUGUAUCUAUGAGAUCUAACAGAAAUCAGGAUCAAUUAACUAACUUUCAAACAUAUAUAAGUGCAG	UCAAUGUAUGGAGUAUAAGAAUAGAUCCAAGAGACUCGAAGAAAGUAAUA	TGTAAATACGCCCAAACTAATCAATGTATGGAGTATAAGA
431	YLR333C	YLR333C_12_796335_795573_INTRON_1_423	"5' utr intron. predicted, Planta RJ, et al."	0	NULL	423	1	423	393	30	ACACUAACAUCA	CACUAAC	CUCAG	CAG	UUAUUAUUACAGUCACUCAGACAGAGCACUAAACUGAACUAGUUAUUAAG	GUAUGUGCAGUUGAUUCACGGGAAGAAGAUAUUUGAAAGAACCGAACCGAUGCCAAAAUCAAAGCCAAAUCUGGGAUUUGCCAAAAAAAUUUUAGGAUAUAGAAUAAAGAUACGAAAUAUGAAAGGCGAGGAAAAUUAGAAUUAGUGGAGCAAAUAAUGAGCACAGGUCGCUAAGAUCAUUGUAACUCAGAAUGACGUCAAUCAUAACUGGGUAAUGAGAUGUGCUAUUGUAUCUACUAAAUCUAUUAAACAGAUCUUUAUCAUUCCAAGACCACCAUACAGUUUAGUCUGCAGGCCAUUUUGCUUUUGCUUUGACUUUUUUUUCUGAAAGAUUCAUUCAUCAAAGGAACUAGAAUAUCUCUGCGUAUUUUGUAAUAUAAUUUUUGACACUAACAUCAAUUUUCACCCUUUCUUACGUCUCAG	AACAUAAUAUAACAUGCCUCCAAAGCAACAAUUGUCUAAAGCUGCCAAAG	AAACTGAACTAGTTATTAAGAACATAATATAACATGCCTC
432	YLR344W	YLR344W_12_819312_820142_INTRON_20_466	"predicted, Planta RJ, et al."	0	NULL	447	20	466	427	20	AUACUAACAUUA		UUUAG	UAG	UUAUUGACGUAACCAACAAAAAAGUAUCAGAAUGGCUAAACAAUCAUUAG	GUAUGUGCACAAAUGCUAAAUCACUGAAACCCUGUAGAGCUGGAAUUGAAAAUAUAGUUUGUACCUUUUGCCUGAGGGCAGAAUGACUCAAUGUUAUCUUAAUUCGAUUAGAAAAAGAAGGUGCGUUAUCCAAGGUUGAAACUUGUAAACUAUUUAGGUGAUGUCUCAUAACUGCAACCACUGGAAAAUGACGCAAAUAUCAAAAUAAUAGGGAGAUAAAGUCUCACGACAUGAAAAAAUCAUAGAAUUAUUGUUCAAUUUAUCUAGCCGUAUCUUACCUUAUGGAAAAAGUGUGAAUAUGUUUUUCUAAAUCGAGCUUCCCGGAAAUUACACUAUAUUAUGCAUCCGUGAUACAUCUGAAAUUCAAUACUUUCUCCAAGGUCCUGCUUACUAAGAGGGUAAGAUUUGUUGAAACUCGAAAUACUAACAUUAUUUUCAUUAUUUUAG	ACGUUUCCUCCGACAGAAGAAAGGCUAGAAAGGCUUAUUUCACCGCCCCA	AATGGCTAAACAATCATTAGACGTTTCCTCCGACAGAAGA
434	YLR367W	YLR367W_12_855877_857316_INTRON_698_1180	"Predicted to have 2 introns, this one is in the orf, the other in the 5' utr. predicted, Planta RJ, et al."	0	NULL	483	698	1180	465	18	AUACUAACAUUU		UUUAG	UAG	ACCUUCUUCCAAGGUUAUCAUCAAGUUUUUACAAGUUAUGCAAAAGCAUG	GUAUGUUCCAACUAUUUUUCAAUAUUUUCACAUGUGUUUCAAUUUCUGCUUAUUUUUAAAUGUUACCACGAGGUUUGUCCAAGUUCAAUGUUGCGCAACUCUAACGAAGAAAUAAUUAUUGCCAUUGUUUUUUACUCCGGGCUGAUAACUAGAUGGUGUGAUCGGGCAGUAUACUAAUUUAUACUGGACAAAGACUCGUAAAAGAUGUUCUUUGUGCUUAGUCCCAUACUGUUUUUUAAGUGUCCGGGAUAUUUAAUCCCAUGUGGAAAUGCUUCUUACACGGUUAUGGAUUACACCUCAUGUGUAGCUACUAUAUCCAUUACCGUUUACUUUUCCUCAAAAUCUCACUCUUAAAAUUUUCAAUGGCAAAAUUCUUCCGCACAACUUAGACAACAUUUUCUUGUUUUUUAUGAAGUAAGCAAAAAUUUCGAAUCAACAACGCUCCAUGAGAUUCUUCAAUACUAACAUUUACUCCUUAUUUAG	GUUACAUUGGCGAAUUCGAAUACAUUGACGACCACAGAUCUGGUAAGAUU	ACAAGTTATGCAAAAGCATGGTTACATTGGCGAATTCGAA
433	YLR367W	YLR367W_12_855877_857316_INTRON_1_550	"5' utr intron, orf has a second intron in the coding region. predicted, Planta RJ, et al.  The second intron encodes snoRNA snR44."	0	NULL	550	1	550	535	15	AUACUAACGUUU		CAUAG	UAG	CACACAUUUAAGGUGAACAAAUAAAUUAUAAGAUACCACAUUAACAACAA	GUAUGUGGACGAGGUGUGGUAAGAUCUCCGCUGAGGUUGAUUGAAAAGUAUUGGGUAAAUUUGUACUUUUUGUCUGCUGCUGGUCGUUUGUCUUUCGUUUUAAAAUUGCGCUAGACAAGUAAACAGGGAUUGCUUAAGAAUCAAAGUAGCUUAACUCUAAAGUAUUAUUUUCCUCAGUUGUGGGCCCAUGUGUUGGAGGGAAGGAAUAUAUUGAAAUGUAAAUGUUCUUAAGUUCGGUUGAACUUGGAUAUUGUUACAAGAGUUCUAGUCUUUGAUACCAUUUUUACGCAAUUACAACCGCAUUAUUUACCUUUUCAUCUUCAGUUUUACGGUUCAGUUUAUUCUGUUACGAAAGAACUAUGGUGAUUCAAAGGCGAAGUGCGUAGGAUUGUAACUCCUAUAUCUUUAGGAUACUUACAAUUUUGUACUGUUUUCAAGACCACUGUAACCGAUAAUAAACCGGAGGACACAUUUUAACCCACUAUUUUUUUCAGAAGAUCAGAUGCGAGAGCUCGAAGCAUAAGUAUAAUACUAACGUUUCAAAACAUAG	UAAUUAGGUAAAAAAUGACUCGCUCUUCCGUUUUAGCUGAUGCUUUGAAU	AGATACCACATTAACAACAATAATTAGGTAAAAAATGACT
435	YLR388W	YLR388W_12_898158_898821_INTRON_1_488	"5' utr intron. Original GTATGC 5' ss is probably incorrect.  There is a GTATGT about 320bp upstream (predicted, Planta RJ, et al.)"	0	NULL	488	1	488	467	21	GUACUAACAACG		UGCAG	CAG	CCCUAACUCAAGUAAUAGCUGAAAUACCACGAACAAAAGUGUAAAUUAGG	GUAUGUACCAAGUUCUAUUCGAAUUUAAAGGUUAUGAGGUACAGGAAGGCUGAAAAAUGAAAACUUCGAGAUGAAAUAAUCCACGUCGAAAGUAAUGCUGAAAACACAAGUAGCUCUGGAUUCAAAUCAUAAGGACGUACAGAAGUGUUGCUGACAAAUCGCUUCUUUUUGAUAUUAGAAUUUCAUUCAAUGAACAACGGAUUGAAGAAUUGUCGUGUCGACAGGAUUGUACAUUUUACCAGGACUGAGGAAUGAAUUCAACGGCUUUGCCGAACAAAUCACGGCAUAACCUGCAGAAUAACAUAACAACAUAGCGCUUAUUAUCAUUGCGUAUGCUGGCUGAAACGAACCUUUCACUGAAUCAGCUCAUAUCGCAUGGACGGAAUAACAGGUAUAAAAAAUCCACGAGUUAUCAACCUCAUUCUCUUUAAAAUUGGAAUCCAAUCAACCGAAUUCAUUUGUACUAACAACGUUUCCUAUUAUUGCAG	AUAAAAUGGCUCACGAAAACGUCUGGUUCUCUCACCCAAGAAGAUACGGU	GAACAAAAGTGTAAATTAGGATAAAATGGCTCACGAAAAC
436	YLR406C	YLR406C_12_931752_931062_INTRON_58_406	EST	1	est gi|621916|gb|T38099.1|T38099	349	58	406	319	30	UUACUAACAGAC		UAUAG	UAG	GUUUAAAAGACGUUGUCACUCGUGAAUACACCAUCAACUUGCACAAAAGA	GUAUGUCGAAAUUAGCGUUGUCUUUACGUGGGAAAUUAUUGAAAGCCAACAAGCGAUAUUGUGGUGAAAUACCAAGCGAAAUCUAUACGGGUGAAAUUUCAUUUUCCAAUGAUUGACCCCAGGUUUUAAUUCGGAAUAUUAGAGGUUAUUAUAUGGAAUGCGUGAUGCAAGGACUGGAAGGUUCUUCUUCGGUACUGCAUUUCUCUGUGUUCUGCGAUCGAUAUCCGUACCUCACGUUUACACUAUAAUGGCGCUUGGGCCGAUGUUUUUGGCGUGAUGCUUUAGUUCCACCUUCUUAUAACAACUUUUUUUUUACUAACAGACCAAUCUUGAAUUGAUAUUAAUAUAG	CUACAUGGUGUCAGUUUCAAAAAGAGAGCUCCAAGAGCUGUGAAGGAAAU	CCATCAACTTGCACAAAAGACTACATGGTGTCAGTTTCAA
437	YLR426W	YLR426W_12_987057_988108_INTRON_81_151	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	71	81	151	53	18	AUACUAACAUGA		CCUAG	UAG	GUUCUGCCACUGCUGCGCUAUCCACUUCUGGUAGCUCUUGUAUUGAGAUG	GUAUGUAAAGUAGAAAAUAGGCAUGAGGUUAGAAACAGCGUUUUUUAUACUAACAUGACGAACUAACCUAG	GUCUCUAAGCGACUCGAUAAGCAUUUGUCUAACAAUCUAUACACUACUGA	GTAGCTCTTGTATTGAGATGGTCTCTAAGCGACTCGATAA
438	YLR448W	YLR448W_12_1028848_1029762_INTRON_16_399	EST	1	est gi|622572|gb|T38755.1|T38755	384	16	399	346	38	AUACUAACUAUA		UAUAG	UAG	UUGAACUUGGAAGAGAAGCAAAUAUAUUCAACGAAAUGACUGCCCAACAA	GUAUGUGUAAAGAUGAGUAAAUUGAAGGAUGUGAUGGUUAUGGAGAUGGCACACGUGCCUAGAGGAAAAUAGUUACCCAAGAACAAAAGCAGGAAGGGAGCUAACCUUUUAAAUAUGAACUGGACAAAACUGGACAAAAUGAAAAUAACGAUUUUAGUAAAAAUGAAAAUAUAGCAUCAAAUGACUGAGAAACAUAGUAACAAUAACUCAUAUUAUAGCUAAUCUGAGUAAACUUCUUCCUACGCUAAGAAUUUUUUUGAGGAUAGUACCAAACCUUGUGCUGAAUCAGCACACGCCAUGCCCACCAUCAAUUGUGCAAGAAAAAAGUAAACGAGUAGUAUACUAACUAUAUAUGUGAUUUACAUCACGAUAUGUCAAUUAUAG	GCCCCAAAGUGGUAUCCUUCCGAAGACGUUGCUGCCCCAAAGAAAACCAG	ACGAAATGACTGCCCAACAAGCCCCAAAGTGGTATCCTTC
439	YML024W	YML024W_13_225889_226697_INTRON_4_401	NULL	1	"Abovich N, et al. Mol Cell Biol 1984"	398	4	401	340	58	AUACUAACAAGU		AAUAG	UAG	GACUUAAUUCUAAGAAAAGUCAAGAUCUCGAGACUAGCAAUAACAAAAUG	GUAUGUUAAUAUGGACUAAAGGAGGCUUUUAAGGACACGUAAUAUUGAGUCGACAUGCGCAAUAAAGUCAUACAAUAAAUAAGUUAAAGAAAACAUAUGACGAUAUUUUCAGACGAUAUGGAACUGCGAUACCGAAAAAGUGGUGUGAUUGAAAUGAUACUCAUGUUUUGGCUAUAGUUGCAGUGGCUUUCCAAAAAAUUGGGAGUUAAAAUGCCUAUAGCAGUAUCACCGGAGAUUCAGUCUCUUGUGGAUCUUCUUUUUGCAUAGUUGAACAAGGGAUAAUAUGGCGCCAUGAACUGCCUCUACACAUUAUAAUGUGUUUUUGAUAUCAGUAUACUAACAAGUUGAAUUGCAUUUACAAACUUUUUAUUUUGUAUUGCUUUUCGUCAUUUUAAUAG	GGUAGAGUUAGAACCAAGACCGUCAAGCGUGCUUCUAAGGCUUUGAUUGA	AGACTAGCAATAACAAAATGGGTAGAGTTAGAACCAAGAC
440	YML025C	YML025C_13_225365_224406_INTRON_28_126	mitochondrial ribosomal protein	0	NULL	99	28	126	75	24	AUACUAACAUUA		AAUAG	UAG	UCAACUAGGGUGAAAUAAUAAUAAUGACGAUAAAAAGAAAUUUGGUGAAA	GUACGUAUCAGAGGAUCGUCCCUCGCUCUUUUUCCAUUUGGUUGUCGAUUUUCUGAAGAUGAAUCCGUAUACUAACAUUACAACCAUUUUAUGCAAUAG	ACUUUACAAUCUAUACGCUACCAAGCUACCACUGCCACCGCACAUGCAGA	TAAAAAGAAATTTGGTGAAAACTTTACAATCTATACGCTA
441	YML026C	YML026C_13_223828_222987_INTRON_48_448	EST	1	est gi|622206|gb|T38389.1|T38389	401	48	448	361	40	UUACUAACAAUA		AUCAG	CAG	AAGAUGUCUUUAGUUGUACAAGAACAAGGUUCCUUCCAACACAUUUUACG	GUAUGUUUUACGAGUACAGUGCAGAUAUGUUGAGAGAGUUUCACAUUACAUGGGAUAAUAGCUUAAUAUUGCGAUUGAAAAUAUGUGAGUGCACUCCGAUGGAAUAAUAAACGUCACGGGUUACCAAAUACGAGGCCGAAUUAACUCUACGCUACUAUAAAAAUUAUCACUAGAUUUUAAAGUAAUACACAGUUUAUUGGAAAAUACAAUAUAUGACUCAAUGCGAAUUUAAAAAUUUCAGUCAAUACAGCUUGACAAAUUCAUAUUUAUCGUCCCUCCAUGUUCGUACGCCAUUCCAAAAUGAUGCGCCAUGUUGAAAAUUUCUCGAAGAACCUAGCAGUGGUGUGAAAUAAAUUACUAACAAUAAGAUGUACAAUUUUUUGUGCGCCCAUUACAAUCAG	UUUGUUGAACACCAAUGUCGAUGGUAACAUUAAAAUUGUUUACGCUUUGA	TCCTTCCAACACATTTTACGTTTGTTGAACACCAATGTCG
443	YML034W	YML034W_13_209525_212155_INTRON_1921_2046	"EXTENDS_SGD Alternative splicing, 2 overlapping introns, both use unique 5' sites.  This one uses GUGAGU, and fuses YML034W to YML033W."	1	"Davis CA, et al. Nucleic Acids Res 2000"	126	1921	2046	103	23	UUACUAACAUCU		UCUAG	UAG	UCCAAGUUAUCAAAGAUUUAACUGAAGAACCAGAAAUAUUAUGGAGGCAA	GUGAGUACAAUUUAUUAUCUUACAAAAAUUAUUAAACCUGUUAUUAUAUGAUAACAGUUUUAAUUUUUUUUGAAUUUUUUUUUGUUUUUGAUUUAUUUACUAACAUCUUUUCCUAAUUUUCUCUAG	UUAUCACCCACUGACAACAACAUUGGCGGAAAUUCCAACAACAUCAUUAA	CAGAAATATTATGGAGGCAATTATCACCCACTGACAACAA
442	YML034W	YML034W_13_209525_212155_INTRON_1917_2046	"EXTENDS_SGD Alternative splicing, 2 overlapping introns, both use unique 5' sites.  This one uses GCAAGU, and extends YML034W 48 aa, orf is 209525_211718_13."	1	"Davis CA, et al. Nucleic Acids Res 2000"	130	1917	2046	107	23	UUACUAACAUCU		UCUAG	UAG	UGGAUCCAAGUUAUCAAAGAUUUAACUGAAGAACCAGAAAUAUUAUGGAG	GCAAGUGAGUACAAUUUAUUAUCUUACAAAAAUUAUUAAACCUGUUAUUAUAUGAUAACAGUUUUAAUUUUUUUUGAAUUUUUUUUUGUUUUUGAUUUAUUUACUAACAUCUUUUCCUAAUUUUCUCUAG	UUAUCACCCACUGACAACAACAUUGGCGGAAAUUCCAACAACAUCAUUAA	GAACCAGAAATATTATGGAGTTATCACCCACTGACAACAA
444	YML056C	YML056C_13_164176_162194_INTRON_461_868	"Skips possible 3' ss, Contains snoRNA snR54"	1	"Davis CA, et al. Nucleic Acids Res 2000"	408	461	868	295	113	UUACUAACAUUG		CACAG	CAG	AGUUAAGGUUAUGAAGAGAAAGUUUGGUUUCUCUGGCUUCCCAGUUACUG	GUAUGUUAUAAUAGACAAAAUUUUUGGUAUUAUGUUUCUUUCAUUAGAAUGCGCUUUUUAAUCAUCCAUAAAGUUUUCCAAGGUGUGAAAAAGAUCUAAGAUGAUGAUCAACUUUUUAUAUCAAUAACUUUCGUUCUACUGACUGUGAUCAAACGAUCUUGUAGAGAACUUUUACUCUGAAUUAAAUCAUAUUCGCACCUUUUUCGGAAAGCCCAUUAUGUGUGAUUAAUUGACGUGCAGUGCACUUGAGGAACUUAAUAUAUGUGAUAAAAAAAUAUGUGGCUUAUUUUACUAACAUUGCUAUGUAAAUACUGUUAUUUUUUUUCUUUUCUGGCUGGGCUGAAAAUUUCUUCAGUCUUCAUAAAGUUGAGAAAAUAAAAGGAAACAAGUACAUCUUUUUGAACACAG	AAGACGGUAAGUGUCCAGGUAAGUUAGUUGGGUUAGUCACCUCUCGUGAU	CTCTGGCTTCCCAGTTACTGAAGACGGTAAGTGTCCAGGT
445	YML067C	YML067C_13_140214_139063_INTRON_32_124	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	93	32	124	71	22	UCACUAACAAUG	CACUAAC	UACAG	CAG	GAGACUUCAGGAGUAUAUAAUGGCAGGAUUGAAGACAUUUGAUGCGUUUC	GUAUGUUAUAUGGAUUUUUCUGAAGUAGCCCGCUUCAGCAUAUUUUAUUUUUGCUUUUGCUUUUUCACUAACAAUGGAAAUUUAACUUUACAG	CAAAAACUGAAGAACAGUACAAGAAGAAAUCCACCAAGGGUGGCUUAACA	GAAGACATTTGATGCGTTTCCAAAAACTGAAGAACAGTAC
446	YML073C	YML073C_13_124172_123227_INTRON_16_430	"predicted, Planta RJ, et al."	0	NULL	415	16	430	381	34	AUACUAACAUUA		UUUAG	UAG	UAGGCGAAACAACAAAGUAAUAGCCAUCCAACGAAAUGAGUGCCCAAAAA	GUAUGUUCCUACAUGUUAAUUUCGAGGGGGAGAUGUCAAUUUACAUUCACGAAGGCAUAAGUUUUGAAAUUUGAUAUGAUGCCAUCAAUCUCAGACAUAUCCAUACAAGAAACAAUAAGAUCAGGACGUCGAACAAAAUAAUACAAUGAAAACUGAUAAAUGACGUUAUACAGUGUACAGUGAGGAUAAAUGAUUAAGGCAGUAUACCUUUCAACACAAUGUUAAUACUAUGAGUGAGAAGGUGAGCAAAGCAAUAAGGUAUAUCGACCCUAGCUCAUGAUUAUUUAGUUUCCAAACAAAGGCCCACGUUACAGUUUCAAAUCGCUAGGCAUAAUCUCUCCCUAUAAAAAUUUAUCACCAUUCGCAAAUCAAGAAUACUAACAUUAGUCGUUUGAUAUUUCUUUUUUCCAUUUAG	GCUCCAAAGUGGUAUCCAUCCGAAGACGUCGCUGCUCUAAAGAAGACCAG	ACGAAATGAGTGCCCAAAAAGCTCCAAAGTGGTATCCATC
447	YML085C	YML085C_13_99400_97941_INTRON_26_141	EST	1	"Stearns T, et al. Genetics 1990;est gi|173057|gb|M28429.1|YSCTUB1"	116	26	141	75	41	UUACUAACUUCA		UACAG	CAG	GUAAACUUACAACUGCAAACAAACAAUGAGAGAAGUUAUUAGUAUUAAUG	GUAUGUUCGAUUUGCCCGUCCAGGCUAGAUCUUUUUUUUGUUAGUUCAUUUUGGCGUUUCAUCUUUCAUUACUAACUUCAACGCAAAAUUUUUUUUUUUUUGAUUUCUCUUUACAG	UCGGUCAAGCUGGUUGUCAGAUUGGUAAUGCCUGUUGGGAAUUAUAUUCC	AGAAGTTATTAGTATTAATGTCGGTCAAGCTGGTTGTCAG
448	YML094W	YML094W_13_82275_82849_INTRON_17_99	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	83	17	99	53	30	UUACUAACUUUU		CUUAG	UAG	CCCAAACAAGAAAGAGCACUGUAAAAAUCAAGCCAUGUCCUCUCAAAAAA	GUAUGUAAAUGAAUAGCUCCUUCGUUGUUGCCACCGUACAGACACUUUACUAACUUUUAAGUUACUACAUGUUCGAAACUUAG	UCGAUUUAACUAAACUAAAUCCCGAGCAGCUGAAUGCUGUAAAACAGCAA	AGCCATGTCCTCTCAAAAAATCGATTTAACTAAACTAAAT
449	YML124C	YML124C_13_23684_22049_INTRON_26_323	EST	1	"Schatz PJ, et al. Mol Cell Biol 1986;est gi|173060|gb|M28428.1|YSCTUB3"	298	26	323	159	139	UUACUAACAGUU		AACAG	CAG	UCGACUAAGCAAGCGACUUGAGACAAUGAGAGAGGUCAUUAGUAUUAAUG	GUAUGUAUGCGUUCCUUUUUUUGUUCAAUAUUCGCAACCAAUGGCACCUGUGGGACAGGGAAAGAAGUUUGAUCUGAUCUGGUUUGAUUCAUUCCCAAUUGGUCACCAUCUGGUUGAUUUACGGCAAAUAAUUUGACUUGUACCAGCACAGUUUACUAACAGUUUCUUUUUCUCCAUUUUUUCUGGGCAUACUCGGACGAAAAAGCUCAUAAUUGACCUCAUUACAUGGGGAGUGAUUUUUGUGUCUUCUUCUUCGGAGGAUUGCUGGAACUUUUGUUAUUUUUCUUUUUUACAACAG	UUGGUCAAGCAGGUUGUCAAAUAGGUAAUGCAUGCUGGGAAUUGUACUCC	AGAGGTCATTAGTATTAATGTTGGTCAAGCAGGTTGTCAA
450	YMR033W	YMR033W_13_337787_339276_INTRON_31_116	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	86	31	116	70	16	AUACUAACAACA		AACAG	CAG	AACUACUAUAUGCAUUGAAUAUGGCUCCAUUUAGGCAGGACAGUAUUUUG	GUACGUAUUUAGUUCAUCAAUGGAUUUUUUAAGUCUUCACGAACAGUUUUUGGUUAAUCUUUUAUACUAACAACAAUUCAUAACAG	AUAAUAUACCCCAGAUCUCAAACUACUCUCGUUCAAUUUGGUUUGAAUGA	TTAGGCAGGACAGTATTTTGATAATATACCCCAGATCTCA
451	YMR079W	YMR079W_13_424988_426058_INTRON_10_165	NULL	1	"Bankaitis VA, et al. J Cell Biol 1989"	156	10	165	117	39	UUACUAACAAAC		AAUAG	UAG	GCCUGUAGCAUCAAACCAAACCUUCAUCGCCCUAAAACACAAUGGUUACA	GUAUGUUGUUGCUUUUAUUUACUUUUUCUUUUUUUGACAUUCAUUGUGACAAUAUUCACAUUCUUCAGAUAGUUCUGUCUAUAUGAAGCAAAAAUGAUAUAUCAAUAAGUUUACUAACAAACACAAGUGGUAUUACUAUGACUUCACUUUAAAUAG	CAACAAGAAAAGGAAUUUUUAGAAUCCUACCCUCAAAACUGUCCUCCAGA	CCTAAAACACAATGGTTACACAACAAGAAAAGGAATTTTT
452	YMR116C	YMR116C_13_500687_499455_INTRON_538_810	Contains snoRNA U24	1	"Davis CA, et al. Nucleic Acids Res 2000"	273	538	810	253	20	UUACUAACAAAA		GACAG	CAG	AUGAUGACUCUGUCACCAUCAUUUCUGCCGGUAACGACAAAAUGGUUAAG	GUAUGUGAUAUAUUUUCUUUCCAUGAUAGAAUAUGAUGACAAUCGAGUAGAAGAAGAAAAGUGGAUUUGUGUAUGCCAUUCAAAUGAUGUAAUAACAUAUUUGCUACUUCAGAUGGAACUUUGAGUUCCGAAUGAGACAUACCAAUUAUCACCAAGAUCUCUGAUGAAUGGUUUAGCAUUACUCUGCUCUUCUCUUUACUCGUUAUGUCAAAAUGGAAACUUUUUUUUUAAAUUAAUUUUGUUCCCUUACUAACAAAAAUGAUAUAAUGACAG	GCUUGGAACUUAAACCAAUUCCAAAUUGAAGCUGACUUCAUCGGUCACAA	GTAACGACAAAATGGTTAAGGCTTGGAACTTAAACCAATT
453	YMR125W	YMR125W_13_517538_520445_INTRON_26_347	NULL	1	"Uemura H, et al. Genetics 1996"	322	26	347	280	42	UUACUAACAUAC		GUUAG	UAG	CAAUUGCAUUUUAAAUAUAUUUAAGAUGUUUAAUAGAAAAAGAAGAGGAG	GUAUGUUUUAAAACCAAUGUUUUCCAGAAGUUUCGUUCUAGAGUGUGUAUAUCAAGACCAAUUAGGAUGGUAUUUCCAUUUUUUGUCAGUUAGUACGGUGUGACAGAAAAGUGUACUUUUGUGGCACAGAGAAGUGGAGAAACGGUACACGUAGAAUACAUAACGGCAAGUAACCUCUCUUAUUUUACUCUCCAUCUUUACUUUGUUUUACAUUCCUAGGAUUAUUAGGUUAGCUUGGUUUUACAAAAACUCAAUUAUUCAGUUUCAUUCAAAUUACUAACAUACCCAACUUUGACUACCUUGCAUAUGAUUUUACCGUUAG	ACUUCGAUGAAGAUGAAAAUUACCGUGAUUUUAGGCCUCGCAUGCCUAAA	TAATAGAAAAAGAAGAGGAGACTTCGATGAAGATGAAAAT
454	YMR133W	YMR133W_13_536206_537608_INTRON_1243_1358	" Intron is located towards the 3' end of the gene (presence and location of intron is conserved in Rec114 homologs in other yeasts), uses AAG 3' splice site. uses both AAG's in this area which are both in frame (the AAG closest to the bp is heavily favore"	1	"Malone RE, et al. Mol Gen Genet 1997"	116	1243	1358	80	36	AUACUAACUAAC		AAAAG	AAG	CUAAGCGGCUAAUCAAGGAAAAGUUGAAAGACGAAGAAUUCAUGAAAUGG	GUAUGUAUGCAUUUGCAAGAAACUGAGCUGUUUCCCCCUCUUAUCCACUCAUUUUCUCUGACUUGACAAAGAAAUACUAACUAACAACUUUUGCCACUACAAAUAUGAAUGAAAAG	GUUAAUAAGGUUGAAACGGUUCUCAAUAAAAUGUUCGAAAAGUGAACCCU	ACGAAGAATTCATGAAATGGGTTAATAAGGTTGAAACGGT
455	YMR142C	YMR142C_13_551206_550205_INTRON_5_406	"predicted, Planta RJ, et al."	0	NULL	402	5	406	381	21	UUACUAACUGAU		UAUAG	UAG	UUAAUAGGAAAUAAUUUCGGAAAAGUAAAGCAGGAAUCAAGUAACAAUGG	GUAUGUUGAACUGAAGCAAUAAGAGCUAUGAUUGAAACGAACACGGAACGACUGAACUAAUGCCUAAACUAGCUGUGUAGAAACAAGCAUUGGAUAACACUGUAAAUUAACAGUAGGAACCGUGGAAUAAUUAGAUCCCGCUGUCUUUGAAACGUUGCAAAAAUCAAGAUCAAAAGAAUCAUUCUUUGAGAUAAUUGGCACUUUGACCAGUUUAUAAAUAGGCGGGUUGCACUAAAAGGAUGCCUUGAGAUAUUUAGAGGAAUCAGCAUGGCGAGGCAAUGUAAAUUGUGCAUUAAUAAUGAGGUUAAAUGAUUAUUACCCUGAGAUUCGUUUAUCAGAAACUAGAAAUAAAGGUUUACUCAAAGGAAGCAAAUUUACUAACUGAUUUUUUUAUGAUUAUAG	CUAUCUCCAAGAAUUUACCAAUUUUGAAGAACCACUUCAGAAAGCACUGG	CAGGAATCAAGTAACAATGGCTATCTCCAAGAATTTACCA
456	YMR143W	YMR143W_13_551927_552902_INTRON_25_568	"EXTENDS SGD 5', EST. sgd has 552282_552902"	1	"Molenaar CM, et al Nucleic Acids Res 1984;est gi|621819|gb|T38002.1|T38002"	544	25	568	505	39	UUACUAACAUUG		UUUAG	UAG	AAAGUAUACAAGAGAAGAAUCCCAAGAUGUCAGCUGUCCCAAGUGUUCAA	GUAUGUUUUCAGUUCUGCAGAAUGAUGUUUGAUAGUAUCGAUAAUGGAGUGAGAUCAAGAGAAAAAAAAUGAAUAUGUCAGCCAACCAAGUUCUGAGUAGGCAGUAAAUGAGUACGCAUAGUGUAUUUAUCCAAAGGAAAGAAUUGUUAUUUUUACAAGCCGAAUUGAGAUCCAAUUAGGCAAUGUUUUGGGGAGAGUAUUUUGACAAGAUUGGUUAAACUACUACGGUCAGUUCCGUAACCAGUACGAUUGUACACAUAAGGAAACAACUGUAAAGAUAAACAAUAAGGGCUUCCAAUGCCAUUGUAAGAUAUCAUAUUCCUAAACAAAAAUGUACAGCGAAUAUAAAGCCAGCGUCAGUGUCUUCCUGGAAGGUUGCGCAACUAAAGAAGUUGAAAUUAAAAUGGCAAGCGCUACAUUUUCAUCCAUUUUCACUCAUCAGAUGUCCAAGAUUUUCGAAAAAUAAAUAUUCUCAUUUUUCUCUCAAUGAAAUAAUUGUUACUAACAUUGAAUUUCCUCGUAACUAAUUGCAUUACUUCUUUAG	ACUUUUGGUAAGAAGAAAUCAGCUACUGCUGUUGCCCAUGUCAAGGCCGG	CAGCTGTCCCAAGTGTTCAAACTTTTGGTAAGAAGAAATC
457	YMR194W	YMR194W_13_651144_651909_INTRON_17_479	"predicted, Planta RJ, et al."	0	NULL	463	17	479	434	29	UUACUAACUGAA		UUUAG	UAG	AAAGAAACAAGAAAGACAGCAAACACAAUAAGAAAUGACCGUUAAGACAG	GUAUGUGAGACAUAAACAAGGAACUGAACGGGUUAUGACGAUUUUCGAACUUAUAAAGGGGUUUACCCCAAAUACGAGAAGAACAUGAGUGCAUUGAAAACUUAAAAGGAAACAAAAACAAGAAUAUUAUAUAAUUUUGAGUGAUUAAUGACCAAUGGAAAUAGCCAGAGGAAAAAUACCAUUUAAUAUGCAUACACAGGCUUAUCUCUUCACUCCUAUCUAAAAAACUAUUGUGUUUGAAGAUGAGGUCCAUUUUACAAAAAGAAUAGUAUUGCGAAAACGCCUUCAAAUGGAACAUUUUAGUAGUUGCACCAUUGUAAGAAUUGCCAUGGAAAACAAUCACAAAAAGAUGCUAUACAAAGCCGUACAUUAUACGUCACUUCCCGCCGACACAUAUACACGUGUAUAUGUAUGCCUAUUUCACAUGUUACUAACUGAAGACAACCUGUGUCCUUAUAUUUAG	GAAUUGCUAUUGGUUUAAACAAAGGUAAGAAGGUCACUAGCAUGACCCCA	AGAAATGACCGTTAAGACAGGAATTGCTATTGGTTTAAAC
458	YMR201C	YMR201C_13_667043_665844_INTRON_28_111	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000;Guzder SN, et al. J Biol Chem 1995;Jones GW, et al. Yeast 1997"	84	28	111	56	28	UUACUAACAAUU		UGCAG	CAG	GUGAAGGUAUCGAACGUAACGCUAUGACUCCCGAACAAAAGGCCAAACUA	GUAUGUGUGAAAAUGAUUCUGUGUUUGUAUUUUAACCGUGGGUUUCUUUUUACUAACAAUUUAACGAUGAGAUGAGCUGUGCAG	GAGGCUAACAGGAAAUUAGCAAUAGAACGGUUAAGAAAAAGGGGAAUACU	CCGAACAAAAGGCCAAACTAGAGGCTAACAGGAAATTAGC
459	YMR225C	YMR225C_13_721402_720959_INTRON_59_205	mitochondrial ribosomal protein	0	NULL	147	59	205	114	33	AUACUAACAGCA		UUCAG	CAG	UAAAUACUUCAGUAAGGUAAUUGUCAGGUUUAAUCCCUUUGGCAAGGAAG	GUAUGUAUUUUUUUUCGCUCUGUUAUUCGUUCUCCUUACCUUUGGCCAUCAUGAUUUAAAGAUUUGGCUAAACUAGGCUGAGGUAGGCUCGAACCGAUCUAUCACAAAUACUAACAGCAAAUGAUAUGGUCAUAUCAUUGAUUUCAG	CGAAAGUUGCUAGGUUAGUACUUGCUGCCAUUCCACCAACGCAACGAAAC	TAATCCCTTTGGCAAGGAAGCGAAAGTTGCTAGGTTAGTA
460	YMR230W	YMR230W_13_732413_733140_INTRON_53_462	NULL	1	"Fried HM, et al. J Biol Chem 1981"	410	53	462	371	39	UUACUAACAAGG		AAUAG	UAG	GUUGAUGCCAAAGCAAGAAAGAAACAAAAUUCACCAAUACUUGUUUCAAG	GUAUGUUUGCAUUUUUUAGGUGAAAUAUGCAGUGAUAUGCUCCGAAAUGGAUAGCAAAGAUGAUAAAUGAAAAUACAAUUAAAUUGAACUUGAAUAUCAUUAAAAGUGGUAGAAAACCGAUUGUUUCAAAAAGAUCUUUGUGGACAAGUACGGCAGUGCAUGAAUCCGAAAGAAAAGUGCAACCUAAGCAGAAUUCCAUUAUUUCACGCGUCCAUUUUUAUAAUGUUUGAACUUUUGAGUCCUUAUAGAAAUGCUAAUAUUAUGAUCAAAGCGAUUAUAUCAUUUACUUUACAGUUUCCGGAGUUUCCGUAUUAUUGCAAAAGGACCACAAACAAUUGAAAUCAUGAUAUCGUAAGAAAUAUUAUUACUAACAAGGAAGAUCAUUGAAUUACGAUCGCAUAUCGAAAUAG	AAGGUGUUGUCGUCGCUAAGAAGGAUUUCAACCAAGCUAAGCACGAAGAA	TCACCAATACTTGTTTCAAGAAGGTGTTGTCGTCGCTAAG
461	YMR292W	YMR292W_13_854795_855293_INTRON_23_104	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	82	23	104	64	18	UUACUAACAACU		ACUAG	UAG	UCAUUUAGCUUACCCAUCAUCGCGUAAAAUGUGGCUCACAGAGGCUCAAA	GUAUGUUUUUAAUAUUUUAGAUGCUCUUUGCUUCUCCGAGAGACGUUAGUUCCUUUUUUACUAACAACUUACUUUUCACUAG	AAUUUGGUGUGGCCUUCACUUUCGGCGGUUUUCUCUUCUUUUUGUUUGGU	GTGGCTCACAGAGGCTCAAAAATTTGGTGTGGCCTTCACT
462	YNL012W	YNL012W_14_609682_611661_INTRON_106_189	EXTENDS_SGD 5'.  Uses GUAAGU 5' ss.	1	"Davis CA, et al. Nucleic Acids Res 2000"	84	106	189	46	38	AAACUAACCGAA	AACUAAC	AUUAG	UAG	CACCAUUUCAGGUACAAUGUCCUAGCUCUCCACUUAUUAGGGAGGCCAAA	GUAAGUUAAACUCUUUGCCACUUUAACAAAUAUGGGCCAAAACUAACCGAAUAUACCAAAACUUCGUAUUCCUUUGUUUAUUAG	CAUGAACUCUGUCCAGAAGAAACCUUGUAUCUGAAGAAAAAAAAAAUUAA	CACTTATTAGGGAGGCCAAACATGAACTCTGTCCAGAAGA
463	YNL044W	YNL044W_14_545264_545873_INTRON_25_103	"EXTENDS_SGD, EST"	1	"Davis CA, et al. Nucleic Acids Res 2000;est gi|1279718|emb|X97401.1|SCYIP3PRT"	79	25	103	49	30	AUACUAACGCGU		UAUAG	UAG	AUAAAAUAACAUCAAAUACUCCAAUAAUGAAUCAGUUAGGAGCUUUAGCC	GUAAGUUCUAAAUUGUAAACACAUUUGCAUCAUUGAAAAACUAUACUAACGCGUUAACCUUUUUUCUAUAUUUCUAUAG	CAAGUUUCACGUUUCACUCAAAACUUCUCCAUGGAAAAUAUUAAGAGCGA	ATCAGTTAGGAGCTTTAGCCCAAGTTTCACGTTTCACTCA
464	YNL050C	YNL050C_14_534978_534075_INTRON_18_108	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	91	18	108	52	39	UUACUAACUUUU		UGCAG	CAG	AAAAAAAGAAAAACAUUGAAAUUCAGUAUAAAAAUGUCUGAAUUUAAGAU	GUAUGCUUUGACAUAAGAUACAAGUUUGCCUCUAAUUUCAUUUUUUUACUAACUUUUCAACGAAUCGUUUAAUAUUCUAAUUAUUUUGCAG	AGUAUCAAGAAAAGAUCUUUAUAAUGAAGGAGAGGGAUUAGGAGAAGAUU	AAAATGTCTGAATTTAAGATAGTATCAAGAAAAGATCTTT
465	YNL069C	YNL069C_14_494998_493953_INTRON_29_477	"predicted, Planta RJ, et al."	0	NULL	449	29	477	424	25	UUACUAACUUUA		UAUAG	UAG	AACAACCAACCAACCAUAAAAGAUGUCUCAACCAGUCGUUGUUAUUGAUG	GUACGUAAAAAAUUUCUAAUUCUAACAGGAGUGAUUGAGUAUGCAGGUGGAGGACGUUGCAAAGACCAUUUCAGAAUAUAGUAAUUGAAAUAAAAAAUAAUCCUGCGAAAUGUGUUGCAAAAUGCUUACUAUAAAGAAUAGUAUUAGCUAAUUAGGAUGCUCAUUGAUUCAUAGAAGAAACGGAACACGCAAUACUUGAAACUCCAAAUACUUAAUUGAAUGCGUUAUAUUUGAAAACAUGAAUUUGCAAUACCGUGCAUCACGCCUAAAAAGUGGCGGUUUGAAAGCAUCAUGCCAAUGUUACCCCUGAGAUGCAUCGAUAUGCCCCAUCACACCAAAAAGUAAUGGUAACUUCUAAUCAAUAUUUUGACUCCAACUAUAUUCAAUCCACUCAGUAAAAAAUACCAAGAUUAGCAUUUACUAACUUUAUUUUUCUCCUUUUAUUAUAG	CUAAGGAUCAUUUGUUGGGUCGUUUGGCCUCCACUAUUGCCAAGCAAGUA	ACCAGTCGTTGTTATTGATGCTAAGGATCATTTGTTGGGT
466	YNL096C	YNL096C_14_444312_443395_INTRON_145_489	"predicted, Planta RJ, et al."	0	NULL	345	145	489	310	35	UUACUAACUUUA		UUUAG	UAG	CAGAACUAAAGGCUGACUUGAGACCAUUGCAAAUCAAAUCUAUCAGAGAA	GUAUGUUAAAAGUUAUAUAAUUUGGAAGCAGCAACAUUGUGAUUUCUUCUAAAGGGGUUCUUUGCAGUAAUUUUUUCAAAAAAGAGUGAUUUUGAGCAGUAUCUGUAUGAAAUUUUCAUGUGUUCGAGAAAAAUAGUAAUUCCGAGAGCUGUCAAUACCAUGAACGUUGCGAUGAGCCUUUGAACUAUAAAGGCCUCCUUGGUCAGUACCAAUAUCGAUGAAUAAAAUAGAAGCACGCGAAAAAGACCUUACCCCAAGGAGAAGAAUCACAAACCCUUUUUUGUUAUGAAUGAACCAAUUCAGUUACUAACUUUAUUUCAACGCUGCUUGAUUCUUAUUGUUUAG	AUUGAUGUCACCGGUGGUAAGAAAGCACUAGUCCUUUUUGUCCCAGUUCC	AAATCAAATCTATCAGAGAAATTGATGTCACCGGTGGTAA
467	YNL112W	YNL112W_14_413636_416278_INTRON_1274_2275	NULL	1	"Iggo RD, et al. Mol Cell Biol 1991"	1002	1274	2275	959	43	UUACUAACAGUA		UUCAG	CAG	CGGUAGAUCCCCAAUUAUGGUUGCUACUGAUGUGGCCGCCAGAGGUAUCG	GUAUGUUAAAAUUUUCUCCAUUUUUUUAUUGAUUUUAUUUUUUUUUGUUACCCCUAACGAUAUUACAGCUAUUUCCUAAUGGCUUUUAAUGACAUUAAUGACUUUAUGACAACCAUGAUAGUACAGAAGAGAGACCUUUUUUCUUUUUUUUUUUUUUUUCUUUUUUUUUUUUUUUUCUUUUUUUCUUUUUUUUUUUUUUGAGCCUUUUCGAAUCUAGACUCUAUGUGAGUCUAUUCUCGAUGGGGAGUAUCGGAAAUUGAAUUUUAAUUCGAAUGACUUCUAAUGCAUCACUACAGAAAACUAAUAUUGGGAGGAUGAGAAAAAUUGACUUUAAUUAGUCGUUUUGAGAGACGGGAAAUUAUAAACUCGGAGAAGUGUAUUUGUGUUCAUGAUUUGCACUUCAUGUCAAAAGAAAUUUCGCUUUUUGACAUCGGCGCAAAUAAACAAGGAAUUGGCUUUUCAGCUUAUUUCUAGAACGCAUACAUACGCUUCGUUGAUCGUUGUUUUUUUCAAUGCUUGGCAUUUGUACAAGGGUAGAUUGUUUUAUUGGAAAAAUAAUAGUAUAUUCUACUUUGAAAUGCCGUCAUCCUUCUUGACUAUUGUUAUUCUCAUUUUGUGUAGUUUAUGCAUUUUGUAGUUAUAUUGAGAUACUGUUGCAUCCCAAGUUCGAAUUAUUAAGAAGUGCUGAUAAAAAUGGAAAAUAACAAAAUAAAAGGAUUUCAACCAUAUUCAGAAAUCAUUUACUUUGUUUUCCUUUUUUUAAGUGCUAGCUUUCAUUCAGUUUGAAUAAGGAUUCUGGAGUAUUGAUGAUUAAAUAUUUCGAAUUCUUUAAUAAAAAUAUAAUUUCUGAUAAUCUUCAAGCCAGGGGGAAAUUUGAGACAAUGUUGGGAGUCCAAACAUGAAUUUGUGGGGGGCAUGAAAAUAAAGUUCAUAUACAGAAUAACGAACCAAAUUACUAACAGUAUGCUUUGUAAACGUUUGUUUACUUCUUUAUUUUUUCAG	AUGUCAAAGGUAUCAAUUACGUUAUCAACUACGAUAUGCCAGGUAACAUU	TGTGGCCGCCAGAGGTATCGATGTCAAAGGTATCAATTAC
468	YNL130C	YNL130C_14_381156_379555_INTRON_30_470	"Human edited branchpoint, 125 away from HMM prediction."	1	"Hjelmstad RH, et al. J Biol Chem 1990"	441	30	470	407	34	AUACUAACUAUU		UUUAG	UAG	AUGGGAUUCUUUAUUCCUCAGAGUAGUUUGGGAAACUUGAAGCUUUACAA	GUAUGUUGCUUAUCUUAUUGCACCCUAAAUCUUCUGUGGCAAGAAAAAUAAAUACUAACUAUUGUAACAUUAAAUUACUAAUCUGACUUUAG	GUAUCAAAGUGAUGACCGCUCUUUCCUUUCAAACCAUGUAUUGAGGCCCU	GCCCGAATAGTGAAGCATTTGTATCAAAGTGATGACCGCT
469	YNL147W	YNL147W_14_350937_351380_INTRON_19_138	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	120	19	138	62	58	AUACUAACAUUA		AACAG	CAG	UGUUUACUACACAGAACAUUAACCAAAAAAACAUGCAUCAGCAACACUCC	GUAUGUUUCACUUCUUAUUUUCUUCCGUGGCAAUAACCUUCCUUUUGACUUAUUUAUACUAACAUUAUAAUAACUAUGUUUCCUUUUUGAACUAAGAAAUCAGAGAACAAACCACAACAG	CAAAGGAAAAAAUUCGAAGGCCCUAAAAGAGAAGCUAUUCUGGAUUUAGC	ACATGCATCAGCAACACTCCCAAAGGAAAAAATTCGAAGG
470	YNL162W	YNL162W_14_331319_332151_INTRON_5_516	NULL	1	"Kawai S, et al. J Bacteriol 1992"	512	5	516	476	36	UUACUAACAUUA		UUUAG	UAG	UUGAAAUCUAAUCCUUAAUAGAGGAAAACAACAAUUAUCAGUAAAAAUGG	GUAUGUUAUAACCAUAAUUCCUAAUGGUGAAUAAAAUCAGGACCAAUAAAGAAAAGCUAAUUUGAUUUUUAUUGUCAAUGAAAUUUCAUAAUCGUCAUGAAUGCAUAAACAGACACACCUAGCAACUGUAUAAUCUGCGCCUAAAAAGGGCGUAUACACAAAACUAAACGAUGCGCAAUAAAAGUUCAGCAGUCAGCAAUGAAACCGAGAUAUGCAGCAACAGAGUAUCAUAUGCAUGGAGGAUCCUUUCUGUUUUUCUGAUAAUAUGCUCUGAAAAAGCUCCAAACAGCACAGUAGCCUAUUUGUGAAGCUCAAAAAAGGCUUCUAUUUCCCUCGCUAUCUUCAGAUUGUGCAGUGAUAUUCUUUGAGGAAGGAAACGUAGAGGGGAUAAGUUGGAUAACUGUUAUUUCUUUUCAAUAUGCUAGAUUUUGCUUACCACCUUACUGAUUUUUUCUAAUAAUAAACUUUUUUACUAACAUUAGUACGAUGUCUCAUCUAUUUCUUCUAUUUAG	UUAACGUUCCAAAGACCAGAAAGACCUACUGUAAGGGUAAGACCUGUCGU	ACAATTATCAGTAAAAATGGTTAACGTTCCAAAGACCAGA
471	YNL246W	YNL246W_14_185459_186348_INTRON_33_127	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	95	33	127	61	34	AUACUAACAAUA		GUCAG	CAG	CGAAGCAUAACACUGCCAAUGAUGAGUGACCAAGAAAACGAGAACGAGCA	GUAUGUAGGAUUGAGCUCUGCAGGGCAUGAAAUGGAAAAAUAAAGCAACCCAUUAUACUAACAAUAUGCACUUAGCAAGUGCGGUAGAUGGUCAG	UGCAAAAGCAUUCUUAGGAUUGGCUAAAUGCGAAGAAGAAGUGGACGCUA	CAAGAAAACGAGAACGAGCATGCAAAAGCATTCTTAGGAT
472	YNL265C	YNL265C_14_145280_144279_INTRON_28_132	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	105	28	132	65	40	GUACUAACUGAA		UAUAG	UAG	AUAAGAGAAUACGACAACUAAAAAUGGCUCCGUCAAUGAUUCCGUUCACU	GUAUGUUUAUAUUUUAUAGUAAUUUUUAAAAAGCUUUAGUAUGCAAAAGAUCUAGGAUGUACUAACUGAAGAAGGGUAAAACUAUCAUCCAAAUUAUUGUUAUAG	AUCAAGCUUAAAACAUGCCUGAAAAUGUGUAUUCAAAGGUUAAGAUAUGC	CGTCAATGATTCCGTTCACTATCAAGCTTAAAACATGCCT
473	YNL301C	YNL301C_14_64561_63569_INTRON_113_544	"predicted, Planta RJ, et al."	0	NULL	432	113	544	392	40	UUACUAACAUAA		CACAG	CAG	CGAUAACGUCUAUUUGAAAUUAUUGGUCAAACUAUACACUUUCCUAGCUC	GUAUGUAUUGAAAUCUCCCUCCCAAUUUUCUUCAGGAUAAAAGGAUUCUGUGAUAUUAUUAACUUCUAGUCCCGGCGAUCUUCUAAUGGCUUCAGUCUUAGUAUCGUUGCGUGCGACGGAUCUCUUAGACAAAAGUGGAAUUUGUUCUCUUUUGUGUUAAAGAUUUCCACUAGAACAGAAAGCGGUAGUUUUCUGGAAAUUCUGCGAGUACUAAAGGAAGUACAAUACGACCUUCAAGUGCGGACCAACUAUUAACUGAGCAGAAUCUUUUUUCUUCAAAGAGAAAAACAAAUUGGUACUUUUUCGUUUUGCACUCUUUUUGGCUUCAAUUAAUGGAAGAAAUUAAAAGCUGCCUAUCGAGAAUACCAACAAAUCCUUUAUCCCUUUACUAACAUAACGUAAAAACUUUUGUUUUUCUUGUCUUAAUCACAG	GUCGUACUGAUGCUCCAUUCAACAAGGUUGUUUUGAAGGCUUUGUUCUUG	ACTATACACTTTCCTAGCTCGTCGTACTGATGCTCCATTC
474	YNL302C	YNL302C_14_62942_61957_INTRON_21_571	NULL	1	"Fried HM, et al. J Biol Chem 1981"	551	21	571	517	34	UUACUAACAAAA		AUUAG	UAG	AACAAAGGUAUAGAACCAAAGAUAAUAAAGAUGGCAGGUGUUUCCGUUAG	GUACGUAUAACUUUCACUCAUUGAAUGAGUAUUUAGAGAAUGAAUGGAUAUUAGGUGGAAAACAACGAGAUGAAAACAUAUGGGAUUGAGAAAAAGGAUUUAGUGCAGAAUUUCCCAUUACCUGAUAAAUUGAAGUUCAUCUUUACUGUGCAUUUACCGAACGAAUGAGUUAAACUAUUAUGAUAUAAUUGCUGUAAUUGUGGAGAGAAUAUUUUGAGCCAACUAUACAAAAUGAAGUUCUCAGACGAAGAGGUAAUCAUUUAUUUAUUGGAAUUGAUUGAUAGGAGGUUUUAACUAGGUGGGAUGUUUUCUAAUGAAAUAGGAGAACCUGAACCAAGACGUUUAAGUUGGAAGGAAAUCUGUAACCGUGGUAAUGCAAAAGCAAUGAAAAGCGAUUUUUAUGCCGUUAAUUUAAGCAACAACCCGAGACCACGAUACUGCCGCACCAAGAAGUUGUCUCAAUAAACAUUUCACUGAGCAUUCCAUAUUCUAUUUUUACGAGAAAACUUUUUACUAACAAAAGCAUUUCAAUUGUGCAUUUUUUCAAUUAG	AGACGUUGCAGCUCAAGAUUUCAUCAAUGCUUACGCUUCUUUCUUGCAAA	ATGGCAGGTGTTTCCGTTAGAGACGTTGCAGCTCAAGATT
475	YNL312W	YNL312W_14_48286_49215_INTRON_8_115	NULL	1	"Brill SJ, et al. Genes Dev 1991"	108	8	115	85	23	UUACUAACAAUG		UACAG	CAG	CGAUAGCGACUAUCUAGAACAGGCUAGUUUAAGCAUAUACAUAAUGGCAA	GUAUGUAUUAGUGCUAGGAAUUGGAGGAUUUGCUCUUUUCUGCAUCAUUUUUUUUAUUUUUAUUGGCGAAUGUUAAAAUUACUAACAAUGGAUGGGAUUCCAAUACAG	CCUAUCAACCAUAUAACGAAUAUUCAUCAGUAACGGGCGGUGGCUUUGAG	AAGCATATACATAATGGCAACCTATCAACCATATAACGAA
476	YNR053C	YNR053C_14_723108_721117_INTRON_811_1341	NULL	1	"Davis CA, et al. Nucleic Acids Res 2000"	531	811	1341	493	38	UUACUAACAGAA		AGUAG	UAG	AUUUAAUUUAUGUUCUUAAUAAGUGUGAUUUGGUACCUACCUGGGUUGCA	GUAUGUUAACUUUUUUUUUUUUUUUUUUGAUUCUUUCCAACCAAGAGGAUAGCACGAGAGAUUUUUUUUUUCGAUAGAGUAUGAUUUUUAUUACCAAACCUUUUUGUCAGGGUGCUUCUCUAUCCGUUUUAGGAUAAACUUAUCUACAGAAGUGUCUGUUACUGUUUUGGAAGAGUAAUACUGUUCGCUUAUCCAUAUUUCCCCGUUCUGGGGAAGCCUCAUGGGUAAAUUAGAAGGACAACCUUUGUUUUAAAGGUAUACCUUCGCUUUUUAGAACAGCGAGGAUCUUAUGAGUUGAGCUUUUGUUAUUUGAGACUUUAUCUCGGGCUCCAUACAAUAUGUUCGUAGUAAAGAUCCUCACAAUUUUCUACUUUUUUUUUUUUUUUAGUUUAAUCCACUCUUCGAAACAAUCAAUCUCGGCUAUAACAAUGAUUAUUACAUUCUCUUGGGGCAAAAGAUUACCUAUUAUGAAACAAAAUGUAUUUUUUACUAACAGAAGGUUUUUUUUUUCAAUUCUAACUUUACAAGUAG	GCAGCUUGGGUCAAACAUUUGUCAAAGGAACGUCCAACUUUGGCGUUUCA	TGGTACCTACCTGGGTTGCAGCAGCTTGGGTCAAACATTT
477	YOL047C	YOL047C_15_242745_241612_INTRON_244_306	EXTENDS_SGD Uses an AAG 3' site	1	"Davis CA, et al. Nucleic Acids Res 2000"	63	244	306	51	12	AUACUAACCGCC		UGAAG	AAG	UUUGGAAAGACCUAGAGUCGUCGCACCAGAUCAUCUGGUAUCCGUAUAAA	GUAUGUUGAUGUUCCAAUAAGCAGAUCAUGUUUUUUAAGCCGUCAUACUAACCGCCUUUGAAG	GGAAUUAGCGAAUCCGUGGGAAACUCGGAUUAUUUGCAUCUAUUUUUCCU	TCATCTGGTATCCGTATAAAGGAATTAGCGAATCCGTGGG
478	YOL048C	YOL048C_15_241308_240202_INTRON_286_363	"Prediction, Leslie/Tyson/Manny.  2 possible 5' GTAAGT, 2 possible start sites"	0	NULL	78	286	363	49	29	UGACUAACAUAU	GACUAAC	CGUAG	UAG	ACUUCAUUAAAGAAAUUUUCAACUCAAGAGCAUUUAUCUACCCAUUCUUA	GUAAGUACAUGAUUUUUGUUUGCAUUGAUAUGACUUGUUUUAUGACUAACAUAUUUAAUUUUUAUUUGUUAACCGUAG	GGGUUUUAUGAAGUGCUGACGAAUCCUGUUUAUUGGAAGCAUAUUUUACU	CATTTATCTACCCATTCTTAGGGTTTTATGAAGTGCTGAC
479	YOL120C	YOL120C_15_94401_93394_INTRON_113_559	EST	1	est gi|621713|gb|T37896.1|T37896	447	113	559	423	24	UUACUAACAUUU		UUUAG	UAG	UGACAAUGUCUACUUGAAAUUGUUAGUCAAAUUAUACACUUUCUUAGCUC	GUAUGUUCAAGAAUAAUAUCAAGGGUUUUAACCAACGCCAAUUAUGGUUAGAAGGAUUCUGUUACAUUGAAUAUAAUAGAUUAUCCUGAACUUUGGUAAGUUCAUUGGUUUUCUAUAAAUAUUCGUUAUGGUUUGCUGAAAAAUAUUGGUUAAUGUUUUUCGCGAUCAUCUAGCUUUGCUUCUGAUGUGACAAAUUAUUGGUCAAUUUAUUGAACUGAAUCUGGCUAAAAUAGUCAUACCAGAAGAAGCUAGACGUAUUAAAAUUCUGCGAGUGCAAACGGGUAUAUUUGAGGAACGAUAUGUUUCUUUUACAUCACGUUUUGUGCGGUAUUGCAAACCAGUGAGCAGAAUCUUUUUCUAAUUUAAUGAAAUAUUUGUACGGAAAACUAUUGUUUUCCGGUCCUUCGAUCCAUUAGUUACUAACAUUUUUUCAUUUUUUUUUUUUAG	GUCGUACUGAUGCUCCAUUCAACAAGGUUGUCUUGAAGGCUUUGUUCUUG	ATTATACACTTTCTTAGCTCGTCGTACTGATGCTCCATTC
480	YOL121C	YOL121C_15_92849_92025_INTRON_21_410	"predicted, Planta RJ, et al."	0	NULL	390	21	410	355	35	UUACUAACAAUA		UACAG	CAG	GAAGUGAUACGAUCGACAAAUAGAGUAAAAAUGCCAGGUGUUUCCGUUAG	GUACGUAAAAAUGACAUAUCAUAAUGAUUAUUACUAUAUGUUUCGAGUGGUUAGAUGGAAAUAAAACGCAGUCAUUCCAGCAGCAUAGACACGCAAGCAAAGUACUUCUUCGUCAAGUUAAAUAGCACCCAUGGUUAAAUCAAUGAUAUAUCAACUGUCCCAUAAUAAUUGAAACAAAAUAUUGAUCAAAUUUCGCGAAUGAGUGCAAUGUGUAAAUAUAUGGAAGAAGAGGGAGAUUAAGGGUAGUGGUGCUAUUUGCUCUUUGUUAUUACUAGGAUUUCAAUUCCUUCCGAUAAGUUCUCAUGAAACGUAAUGGUUAAUGAAAGUAUUUUUUUUAAACUGUAUCAUUUACUAACAAUAACUUUUUUGUUUUGAUUUUGUUUUCUACAG	AGACGUUGCUGCUCAAGAUUUCAUUAAUGCUUACGCUUCUUUCUUGCAAA	ATGCCAGGTGTTTCCGTTAGAGACGTTGCTGCTCAAGATT
481	YOL127W	YOL127W_15_80347_81189_INTRON_14_427	"predicted, Planta RJ, et al."	0	NULL	414	14	427	373	41	UUACUAACAUUA		UAUAG	UAG	GUUGAAAAGGCUAAACAAAGAAGAUCAAUAAGAUAAAAUGGCUCCAUCUG	GUAUGUGAACUGCAAUAUUAAUAGCACGAGAAAAUUGAGAGGAAGAUAGAUGGGAACUAGUAGAGUUGAUAUUGAUGAGAUACGAAAACCACACGUAAAUAAACUAUCCGACGACAAGAAUAGUGCAUUAAGGACUUGAUUAAGAUAUGGUGAGCAACGUAAUUAUCGGGCUCAACAGUUUAUUAGCAAUCGUUUUGAUAGAAGCGUUGAUGCUGUGGAAGUUGUUCUUUUUACUACCAACAGCCAUUAACAAAUCCAUUAGAGUGUUCGUUCGUUUUUCUGCUCAGAUUCAAGAAAAUUAUUCCAUCCUCAUUAUACUUUUUUCUUCUAUUUCGUGCUCCACGUCGAGGUAUCAAGGAACAUAGUUUACUAACAUUAACGAAUUCAUCUCCUAUGAAUUUACUUUUUGUAUAG	CUAAGGCUACUGCCGCUAAGAAAGCUGUCGUUAAGGGUACUAAUGGUAAG	AGATAAAATGGCTCCATCTGCTAAGGCTACTGCCGCTAAG
482	YOR096W	YOR096W_15_505793_506766_INTRON_145_545	"predicted, Planta RJ, et al."	0	NULL	401	145	545	369	32	UUACUAACAUUU		UAUAG	UAG	CAGAAUUGAAAGCUGAGUUGAGACCUUUGCAAUUCAAGUCCAUCAGAGAA	GUAUGUUAUUAAUUUGAAUCUAAACUUAAGAAUAAUGGAGAGUAACAAAGGAAAAAAGUGUGAACGGGACGAUACCAGAAUGUUUCAAUCUAGAAAAGUAUAAAAGAUAAGGACUAGGACUCAAAUGUAUUUGGCUGACUAUCGCCUGAACCUUGAUGCUAAGCAAAUACCAUAUCUUCAAGAAAAAGCCUACUCCAGUGUUUAAGAAGAAGGGAACGAUUUACUAGAUCAUGCUAUACGCAGUAAGGUUCUGAUAGUUAAUUACAAUCGGUCCAAGUUCUAAGCGGUGUCGUCCAUGCAUAUAUCAUUUACAAGUUACUGGCGUCAACUCUUCAAAUAUUCAAAAUAUCACCUAAUCAAACUUACUAACAUUUUCCUUUUUUGUUUUCCUUCUUUUAUAG	AUCGACGUUGCUGGUGGUAAGAAGGCUUUGGCCAUUUUUGUUCCAGUCCC	AATTCAAGTCCATCAGAGAAATCGACGTTGCTGGTGGTAA
483	YOR122C	YOR122C_15_552886_552297_INTRON_14_222	EST	1	"Magdolen V, et al. Mol Cell Biol 1988;est gi|4226|emb|Y00469.1|SCPROFR"	209	14	222	137	72	UUACUAACUGGA		AACAG	CAG	UACAUACACAACAUAAACCCAACUACGAUCGCAAAUUAUGUCUUGGCAAG	GUAUGUGAACGAGACAAUUAUCAAUUGAUUAAGAAAGAAAUGAGUCGGAGGUUAGCUUGUGUGACAAUGUUUGGCAAUGCCCGAUUUUUGUUGAUGCGCGUAAUUUCGAAGAUUAACCACUCAGAGUAAAUUACUAACUGGAAUAUCAAAAAACAUAUGAAAUUUCAAACAUGAAUUUCUUUCCGUUUUUUUCUCCUACUUUUAAACAG	CAUACACUGAUAACUUAAUAGGAACCGGUAAAGUCGACAAAGCUGUCAUC	GCAAATTATGTCTTGGCAAGCATACACTGATAACTTAATA
484	YOR182C	YOR182C_15_678792_678190_INTRON_4_414	NULL	1	"Baker RT, et al. J Biol Chem 1996"	411	4	414	371	40	UUACUAACAUUA		CUUAG	UAG	GAAUUAGCACUCCUUCCUCAAGAUACUAGAUAAACAAAUUAUACAAAAUG	GUACGUUAAUAUUGUGUUAAAAUGCUCCACGAAACGCUUUUUUUAGGAAACUUGUCCCCAUACAGGAAGAAGGUGUAUUAAAAGGGAAAACUACGAUCAAAGUAAUAUUUUGAAUAGGAAAGAUUGCCCCAUGAUAAUAUUAAUAAUCCAUCAAAUGCCUGUAGAUAAUGACUGAAAAAUGAAAAGAAAAUAAAAUAUUGUAUCAUUAUUAUGUUGAGAUGUAAAUGUACAAAAAAGGAAGAAAGACGAGAAUUUCAAAGGACGAUUAUUCUCGUUAAUAUUCACAACAUGUUGAAUAUAGACCUUUCCUAAAAAAUUAGCGUCUGCGUUGCAGUAACUCCAUAACACAAGUCUGAAUAUCUCAUUACUAACAUUAAAUGAAAAAUUUUUUUUUUUUCAAAUUCUCCUUAG	GCUAAAGUUCACGGUUCUCUAGCUCGUGCUGGUAAAGUUAAGUCUCAAAC	TAAACAAATTATACAAAATGGCTAAAGTTCACGGTTCTCT
485	YOR234C	YOR234C_15_779404_778554_INTRON_20_546	NULL	1	"Fried HM, et al. J Biol Chem 1981"	527	20	546	478	49	UUACUAACAGCU		GAUAG	UAG	CAAAAGUAGAACCAGAUAAAUCAUAGAUAAAAUGGCUGAAUCCCAUAGAC	GUAUGUUAUGAAAUUACUAUAUGAUGAAUGUUGCCGUGGAAUAGGCUGAUUCGAGCUUAGAAGACAUUAUUGAUAUUCGAUAAAACAUGUGUUAUAGUUGGGGCCCGCACUUGUUGGACAACUGUUAUUAAAGAGUAUGAAUAUAUUAAAUAGUGCAUGGUUUUGCGAUGAGAAGAACAGAAUGAACAAGUUUCAUAGGAAAAAAAUUCAAAAGAGAAAGGUAUUAUAAAUGAUCAGUUUACCUUCUAGGGAAAGAAGAAGGAGAUAACCUACCUGAUAUGAAAUUCCACCAAGUAGUAGGAGGCACCAGGAAAUGCAUUUUUACAUGAAACUGCGCGUGCCAGAAAUGUUAAGAUAGCGUAUAUAUAUGUCAUUUGAGGUCGCUUCUGACAUAACUGCGUCCCUUUCCAUCAUGGGCUCAAUGAAAUGUCGAAUUAUUUCACUCUGCAACGUGCUCAUGAAAGUACAACCUUACUAACAGCUUUAUUUAUGAAUUGACAAAUUCUAUUCUACUUUUAUUUUGAUAG	UAUACGUUAAAGGUAAGCACUUAUCCUACCAAAGAUCUAAGAGAGUUAAC	AATGGCTGAATCCCATAGACTATACGTTAAAGGTAAGCAC
486	YOR293W	YOR293W_15_867094_867848_INTRON_53_489	EST	1	est gi|621408|gb|T37591.1|T37591;est gi|621409|gb|T37592.1|T37592	437	53	489	368	69	UUACUAACUUAU		UACAG	CAG	GUUGAUGCCAAAGGAAGACAGAAACAAGAUCCACCAAUACUUAUUCCAAG	GUAUGUUUUAGAAUAACUUUCAGAAAGCAUGAAGAUACACGGA