## date Tue Apr 15 15:26:50 2003
## source-version: geneid v 1.1 -- geneid@imim.es
# Sequence chr10_random - Length = 710249 bps
# Optimal Gene Structure. 14 genes. Score = 336.185575 
# Gene 1 (Reverse). 1 exons. 71 aa. Score = 0.951501 
   First    52608    52819	 0.95	- 0 2	-1.04	 7.51	 5.18	 0.00	AA   1: 71 chr10_random_1

>chr10_random_1|geneid_v1.1_predicted_cDNA_1|212_NN
ATGGACCTCTGGACACCTTGGGACAGCACACTCCACGCGGAAGCCCGGGGACGGGGACGG
CGAAGGAGACTCGTTTGGACCCCGAGCCAAAGCGAGGCCTTGCGAGCCTGCTTTGAGCGG
AACCCGTTCCCGGGCAACGCCACCAGTGAACGGCTAGCCCAGGCCATCGGCATTCCAGAG
CCCATGGTCCAGATTTGGTTTCAGAACGAGAG

>chr10_random_1|geneid_v1.1_predicted_protein_1|71_AA
MDLWTPWDSTLHAEARGRGRRRRLVWTPSQSEALRACFERNPFPGNATSERLAQAIGIPE
PMVQIWFQNEag

# Gene 2 (Reverse). 2 exons. 139 aa. Score = 3.375248 
Terminal    59968    60130	 3.02	- 1 0	 0.00	 2.58	16.17	 0.00	AA  85:139 chr10_random_2
   First    72053    72306	 0.36	- 0 2	-0.89	 1.45	12.56	 0.00	AA   1: 85 chr10_random_2

>chr10_random_2|geneid_v1.1_predicted_cDNA_2|417_NN
ATGCATCAGGAGCAGATGCAAGTCATGCCAGCCCACTCCCAGGCGCTCCAGGAGCCAGGG
CGCTCCTCTGCACTCCCCTCCGGCCTGCTGCTTGATGAGCTCCTGGCGAGCCCAGAGTTT
CTGCATCGGGCACATCCTTTCCTAGAAACGGAGGACCTGGGGAAGCTGGAGGCCTTGGAA
GAGGCCGCCTCGCTGGAAGCACCCCTCAGCGAAGAAGAATACCGGGCTCTGCTGGAGGAG
CTTCAGGACTCCGGCCTGCTGCTGGATGAGCTCCTGGTGAGCCCAGAGTTTCTGCAGCAG
GCGCAACCTTTCCTAGAAACGGAGGCCCCGGGGCAGCTGGAGGCCTTGGAAGAGGCCGCC
TCGCTGGAAGCACCCCTCATCGAGGAAGAATACCAGGCTCTGCTGGAGAAGCTTTAG

>chr10_random_2|geneid_v1.1_predicted_protein_2|139_AA
MHQEQMQVMPAHSQALQEPGRSSALPSGLLLDELLASPEFLHRAHPFLETEDLGKLEALE
EAASLEAPLSEEEYRALLEELQDSGLLLDELLVSPEFLQQAQPFLETEAPGQLEALEEAA
SLEAPLIEEEYQALLEKL*

# Gene 3 (Reverse). 1 exons. 101 aa. Score = 2.318068 
  Single    76422    76724	 2.32	- 0 0	 0.00	 4.59	11.41	 0.00	AA   1:101 chr10_random_3

>chr10_random_3|geneid_v1.1_predicted_cDNA_3|303_NN
ATGGGAACCCCAAGCTGGGGCACCTCCACATCGCCAGTCGCACCCCTGGAGACCTCCGCG
CAGCAGGGGCAGATGCAAGGCATGCCGGTGCGCTCCCAGTTGCTACAGAAGCTGGGGCGC
TCGTCTGCACTCCCCTTCGGCTTGCTGTTGGATGAGCTCTTGGCAAGCCCCGAGTTTCTG
CAGCAGGCCCAAACTTTCTTAGAAATGGAGGCCCCGGGGGAGCTGAAGGCCTTGGAAGAG
GCCGCCTCGCTGGAAGCACCCCTCAGGGAGGAAGAATACAGGGCTCTGCTGGAGGAGGTT
TAA

>chr10_random_3|geneid_v1.1_predicted_protein_3|101_AA
MGTPSWGTSTSPVAPLETSAQQGQMQGMPVRSQLLQKLGRSSALPFGLLLDELLASPEFL
QQAQTFLEMEAPGELKALEEAASLEAPLREEEYRALLEEV*

# Gene 4 (Forward). 2 exons. 153 aa. Score = 2.586611 
   First    86295    86516	 2.36	+ 0 0	 3.73	 4.71	 5.75	 0.00	AA   1: 74 chr10_random_4
Terminal    95748    95984	 0.22	+ 0 0	 2.87	 0.00	 8.76	 0.00	AA  75:153 chr10_random_4

>chr10_random_4|geneid_v1.1_predicted_cDNA_4|459_NN
ATGGCCCTCCCGACACCTTTGCACAGCACCCTCCCCGCGGAAGCCTGGGGACGGGAATGG
AGAAGGAGACTCGTTTGGACCCCGAGCCAAAGTGAGGACCTGCGAGCCTGCTTTGAGCAG
AACAAGTTCCAGGGCATCGCCACCAGAGATGGGCTGGCCCTCGCCATCGGCTTTCTGGAG
CCCATCGTCCAGAATTGGTTTCAGAATGAGAGGTCACGCCAGGGGCAGATGCAAGGCATC
CCGGCGCTCTCCCAGGCCCTCCAGGAGCCAGGGCGCCGGTCTGCACTCCCCTCCAGCCTG
CTGCTGGATGAGCTCCTGGCGAGCCCGGTGTTTCTGCAGCAGGCGCAACCTTTCCTAGAA
ACGGAAGCCCCGGGGGATCTGGAGGCCTTGGAAGAGGCCGCCTCACTGGAAGCACCCCTC
AGTGAGCAAGAATCCCTGGCTCTGCTGGAGGAGATTTAG

>chr10_random_4|geneid_v1.1_predicted_protein_4|153_AA
MALPTPLHSTLPAEAWGREWRRRLVWTPSQSEDLRACFEQNKFQGIATRDGLALAIGFLE
PIVQNWFQNERSRQGQMQGIPALSQALQEPGRRSALPSSLLLDELLASPVFLQQAQPFLE
TEAPGDLEALEEAASLEAPLSEQESLALLEEI*

# Gene 5 (Forward). 3 exons. 209 aa. Score = 0.641443 
   First   115477   115826	 2.58	+ 0 2	 5.54	-2.18	13.90	 0.00	AA   1:117 chr10_random_5
Internal   136730   136811	-1.03	+ 1 0	 5.38	 1.08	 0.23	 0.00	AA 117:144 chr10_random_5
Terminal   138091   138285	-0.91	+ 0 0	-0.07	 0.00	10.35	 0.00	AA 145:209 chr10_random_5

>chr10_random_5|geneid_v1.1_predicted_cDNA_5|627_NN
ATGGCGGCATGGGAACCCCAAGCCGGGGCAGCTCAACCTCGCCAGCCTGCTCTCCCAGAG
ACCTCCATGCGGCAGGTGCAGATGAAAGGCATCCCGGCGCCCTCCCAGGCGCTCCAGGTT
TCGGGGCGCTCATCTGCACTCCCCTTCGGCCTGCTGCTGGATGAGCTCCTTTCGACACCA
GAGTTTTTGCAGCAGGCACAACCTTTCCTAGAAACGGAGGCCCCGGGGGAGCTGGAGGCC
TTGGAAGAGGGCGCCTCGCTGGAAGCACCCCTCAACGAGGAAGAATACCGGGCTCTGCTG
GAGGAGATTTCAGATGCGGGGTTTGGCCAGGATCGGGTCGTGGCAGAGCGCACCACCACC
GCCATCACAATGCCCTCTCCCCACACCCCACCACCACCAGGCTGCAGGCCTCGACCACCT
GGGACCCTTCCGGCGCTCCAGGAGCCGGGGCGCTCGTCTGCACTCACCTACGGCCTGCTG
CTGGATGAGCTCCTGTTGAGACCGGAGTTTCTGCAGCAGGCGCAACCTTTCCTAGAAACG
GAGGCCCAGGAGGCCTTGGATGGGGCTGCCTCGCTGAAAGCACCCCTCAGTGAGGAAGAA
TACTGGGCTCTGCTGGAGGAGCTTTAG

>chr10_random_5|geneid_v1.1_predicted_protein_5|209_AA
MAAWEPQAGAAQPRQPALPETSMRQVQMKGIPAPSQALQVSGRSSALPFGLLLDELLSTP
EFLQQAQPFLETEAPGELEALEEGASLEAPLNEEEYRALLEEISDAGFGQDRVVAERTTT
AITMPSPHTPPPPGCRPRPPGTLPALQEPGRSSALTYGLLLDELLLRPEFLQQAQPFLET
EAQEALDGAASLKAPLSEEEYWALLEEL*

# Gene 6 (Reverse). 1 exons. 87 aa. Score = 0.509751 
  Single   235953   236213	 0.51	- 0 0	 0.00	 7.51	 2.51	 0.00	AA   1: 87 chr10_random_6

>chr10_random_6|geneid_v1.1_predicted_cDNA_6|261_NN
ATGGACCTCTGGACACCTTGGGACAGCACACTCCACGCGGAAGCCCGGGGACGGGGACGG
CGAAGGAGACTCGTTTGGACCCCGAGCCAAAGCGAGGCCTTGCGAGCCTGCTTTGAGCGG
AACCCGTTCCCGGGCAACGCCACCAGTGAACGGCTAGCCCAGGCCATCGGCATTCCAGAG
CCCATGGTCCAGATTTGGTTTCAGAACGAGAGGTCACGCCAGCTGAGGCAGCACCGCCTG
GAATCTTGGCCCTGGCCCTAG

>chr10_random_6|geneid_v1.1_predicted_protein_6|87_AA
MDLWTPWDSTLHAEARGRGRRRRLVWTPSQSEALRACFERNPFPGNATSERLAQAIGIPE
PMVQIWFQNERSRQLRQHRLESWPWP*

# Gene 7 (Forward). 1 exons. 82 aa. Score = 1.939541 
  Single   243332   243577	 1.94	+ 0 0	 1.43	 0.00	15.20	 0.00	AA   1: 82 chr10_random_7

>chr10_random_7|geneid_v1.1_predicted_cDNA_7|246_NN
ATGCGGCAGGGGCAGATGCAAGGCATCCCGGCGCCCTCCCAGGCGCCCCAGGAGCTGGGG
CGCTCTTCTGCACTCCCCTCCAGCCTGCTGCTGGATGAGCTCCTGGTGAGCCCAGAGTTT
CTGCAGCAGGCGCAACCTTTCCTAGAAACGGAGGCCCCGGGGCAGCTGGAGGCCTTGGAA
GAGGCCGCCTCGCTGGAAGCACCCCTCATCGAGGAAGAATACCAGGCTCTGCTGGAGAAG
CTTTAG

>chr10_random_7|geneid_v1.1_predicted_protein_7|82_AA
MRQGQMQGIPAPSQAPQELGRSSALPSSLLLDELLVSPEFLQQAQPFLETEAPGQLEALE
EAASLEAPLIEEEYQALLEKL*

# Gene 8 (Forward). 1 exons. 101 aa. Score = 2.246193 
  Single   264351   264653	 2.25	+ 0 0	 4.59	 0.00	11.23	 0.00	AA   1:101 chr10_random_8

>chr10_random_8|geneid_v1.1_predicted_cDNA_8|303_NN
ATGGGAACCCCAAGCTGGGGCACCTCCACATCGCCAGTCGCACCCCTGGAGACCTCCGCG
CAGCAGGGGCAGATGCAAGGCATGCCGGTGCGCTCCCAGTTGCTACAGAAGCTGGGGCGC
TCGTCTGCACTCCCCTTCGGCTTGCTGTTGGATGAGCTCTTGGCAAGCCCCGAGTTTCTG
CAGCAGGCCCAAACTTTCTTAGAAATGGAGGCCCCGGGGGAGCTGAAGGCCTTGGAAGAG
GCCGCCTCGCTGGAAGCACCCCTCAGGGAGGAAGAATACAGGGCTCTGCTGGAGGAGGTT
TAA

>chr10_random_8|geneid_v1.1_predicted_protein_8|101_AA
MGTPSWGTSTSPVAPLETSAQQGQMQGMPVRSQLLQKLGRSSALPFGLLLDELLASPEFL
QQAQTFLEMEAPGELKALEEAASLEAPLREEEYRALLEEV*

# Gene 9 (Reverse). 2 exons. 153 aa. Score = 2.594424 
Terminal   352792   353028	 0.23	- 0 0	 0.00	 2.87	 8.78	 0.00	AA  75:153 chr10_random_9
   First   362262   362483	 2.36	- 0 0	 4.71	 3.73	 5.75	 0.00	AA   1: 74 chr10_random_9

>chr10_random_9|geneid_v1.1_predicted_cDNA_9|459_NN
ATGGCCCTCCCGACACCTTTGCACAGCACCCTCCCCGCGGAAGCCTGGGGACGGGAATGG
AGAAGGAGACTCGTTTGGACCCCGAGCCAAAGTGAGGACCTGCGAGCCTGCTTTGAGCAG
AACAAGTTCCAGGGCATCGCCACCAGAGATGGGCTGGCCCTCGCCATCGGCTTTCTGGAG
CCCATCGTCCAGAATTGGTTTCAGAATGAGAGGTCACGCCAGGGGCAGATGCAAGGCATC
CCGGCGCTCTCCCAGGCCCTCCAGGAGCCAGGGCGCCGGTCTGCACTCCCCTCCAGCCTG
CTGCTGGATGAGCTCCTGGCGAGCCCGGTGTTTCTGCAGCAGGCGCAACCTTTCCTAGAA
ACGGAAGCCCCGGGGGATCTGGAGGCCTTGGAAGAGGCCGCCTCACTGGAAGCACCCCTC
AGTGAGCAAGAATCCCTGGCTCTGCTGGAGGAGATTTAG

>chr10_random_9|geneid_v1.1_predicted_protein_9|153_AA
MALPTPLHSTLPAEAWGREWRRRLVWTPSQSEDLRACFEQNKFQGIATRDGLALAIGFLE
PIVQNWFQNERSRQGQMQGIPALSQALQEPGRRSALPSSLLLDELLASPVFLQQAQPFLE
TEAPGDLEALEEAASLEAPLSEQESLALLEEI*

# Gene 10 (Forward). 7 exons. 271 aa. Score = 18.321328 
   First   450229   450268	-3.29	+ 0 1	-0.31	 4.71	-2.32	 0.00	AA   1: 14 chr10_random_10
Internal   453041   453198	 6.26	+ 2 0	 2.20	 2.40	21.25	 0.00	AA  14: 66 chr10_random_10
Internal   454969   455083	 4.23	+ 0 1	 5.47	 3.60	 9.47	 0.00	AA  67:105 chr10_random_10
Internal   456409   456466	 3.24	+ 2 2	 4.20	 3.68	 8.78	 0.00	AA 105:124 chr10_random_10
Internal   456880   456928	-1.52	+ 1 0	 4.81	-0.19	 1.77	 0.00	AA 124:140 chr10_random_10
Internal   458155   458378	 1.69	+ 0 2	 0.17	 1.69	13.92	 0.00	AA 141:215 chr10_random_10
Terminal   460503   460671	 7.72	+ 1 0	 4.61	 0.00	24.89	 0.00	AA 215:271 chr10_random_10

>chr10_random_10|geneid_v1.1_predicted_cDNA_10|813_NN
ATGGCTACTTACGTAGCCACATTTCCTCGTCTGTGTTCAGAGCTGCGGCCGGGAGAGTTC
GTGGTCGCCATCGGAAGCCCGTTTTCCCTTCAAAACACAGTCACCACCGGGATCGTGAGC
ACCACCCAGCGAGGCGGCAAAGAGCTGGGGCTCCGCAACTCAGACATGGACTACATCCAG
ACCGACGCCATCATCAACGACGGTGAAGTGATTGGAATTAACACTTTGAAAGTGACAGCT
GGAATCTCCTTTGCAATCCCATCTGATAAGATTAAAAAGTTCCTCACGGAGTCCCATGAC
CGACAGGCCAAAGGAAAAGCCATCACCAAGAAGAAGTATATTGGTATCCGAATGATGTCA
CTCACGTCCAGCTCGTGGGCCGCGGCTCCAGGAATGCCAGGGCAGGTCCAGCGCAGGGAA
GATCAGAATTCCTGGAGGAATTTTACCTTAGACCTAAGGAGAAGACGGGAACTGGTGAGA
GCTGAGTTTTGCGTGAGGAAGGCCTGGTGTTTCTTCACACTAACACGGGTGCTTTTTCTC
TGGAGCAGCAAAGCCAAAGAGCTGAAGGACCGGCACCGGGACTTCCCAGACGTGATCTCA
GGAGCGTATATAATTGAAGTAATTCCTGATACCCCAGCAGAAGCTGGTGGTCTCAAGGAA
AACGACGTCATAATCAGCATCAATGGACAGTCCGTGGTCTCCGCCAATGATGTCAGCGAC
GTCATTAAAAGGGAAAGCACCCTGAACATGGTGGTCCGCAGGGGTAATGAAGATATCATG
ATCACAGTGATTCCCGAAGAAATTGACCCATAG

>chr10_random_10|geneid_v1.1_predicted_protein_10|271_AA
MATYVATFPRLCSELRPGEFVVAIGSPFSLQNTVTTGIVSTTQRGGKELGLRNSDMDYIQ
TDAIINDGEVIGINTLKVTAGISFAIPSDKIKKFLTESHDRQAKGKAITKKKYIGIRMMS
LTSSSWAAAPGMPGQVQRREDQNSWRNFTLDLRRRRELVRAEFCVRKAWCFFTLTRVLFL
WSSKAKELKDRHRDFPDVISGAYIIEVIPDTPAEAGGLKENDVIISINGQSVVSANDVSD
VIKRESTLNMVVRRGNEDIMITVIPEEIDP*

# Gene 11 (Reverse). 2 exons. 86 aa. Score = 1.579580 
Terminal   462107   462223	 2.09	- 0 0	 0.00	 3.48	12.49	 0.00	AA  48: 86 chr10_random_11
   First   499568   499708	-0.51	- 0 0	 0.30	 4.83	 3.53	 0.00	AA   1: 47 chr10_random_11

>chr10_random_11|geneid_v1.1_predicted_cDNA_11|258_NN
ATGGGGAAGGAAGATATTTCAGAGATGATGGGAACTACAGTGAGAAACATGAGCTGGGGG
CTGAATGGATATCAGGGGAGTGGGGACAAAGGGGACCAAGGAGCCCAAATGACTCCCAGG
TCTGATTGGATTCATTGCCAAGTCATTCAACCAGAGAGCGAAGAGACGTGCCAGTGTTGC
AACGGGCCACAAGCTGCTCAGCCGCCGAGCACCAACACTGATGAGGGCTGTGCTCAACTG
GACCGCCCCTGCATTTAA

>chr10_random_11|geneid_v1.1_predicted_protein_11|86_AA
MGKEDISEMMGTTVRNMSWGLNGYQGSGDKGDQGAQMTPRSDWIHCQVIQPESEETCQCC
NGPQAAQPPSTNTDEGCAQLDRPCI*

# Gene 12 (Forward). 63 exons. 3671 aa. Score = 245.865639 
   First   503509   503542	-1.43	+ 0 1	 1.14	 1.17	 5.48	 0.00	AA   1: 12 chr10_random_12
Internal   516473   516520	 2.58	+ 2 1	 4.19	 5.48	 4.44	 0.00	AA  12: 28 chr10_random_12
Internal   517201   517248	 1.15	+ 2 1	 5.57	 2.74	 2.91	 0.00	AA  28: 44 chr10_random_12
Internal   518625   518672	 0.74	+ 2 1	 5.57	 2.74	 1.88	 0.00	AA  44: 60 chr10_random_12
Internal   520026   520073	 0.52	+ 2 1	 5.57	 2.74	 1.33	 0.00	AA  60: 76 chr10_random_12
Internal   522710   523033	 4.62	+ 2 1	 3.31	 3.78	13.41	 0.00	AA  76:184 chr10_random_12
Internal   524122   524151	 0.09	+ 2 1	 4.85	 5.34	-2.56	 0.00	AA 184:194 chr10_random_12
Internal   525889   526212	 6.75	+ 2 1	 4.15	 2.83	18.91	 0.00	AA 194:302 chr10_random_12
Internal   527177   527206	 1.03	+ 2 1	 5.97	 4.63	-0.83	 0.00	AA 302:312 chr10_random_12
Internal   528911   529234	 7.50	+ 2 1	 4.76	 2.83	19.87	 0.00	AA 312:420 chr10_random_12
Internal   530633   530662	 1.00	+ 2 1	 5.30	 5.34	-0.96	 0.00	AA 420:430 chr10_random_12
Internal   532382   532705	 7.35	+ 2 1	 4.67	 2.83	19.62	 0.00	AA 430:538 chr10_random_12
Internal   533672   533701	 0.70	+ 2 1	 5.90	 3.68	-0.13	 0.00	AA 538:548 chr10_random_12
Internal   535405   535728	 6.78	+ 2 1	 5.18	 2.83	17.43	 0.00	AA 548:656 chr10_random_12
Internal   536708   536737	 1.81	+ 2 1	 5.90	 6.29	-1.25	 0.00	AA 656:666 chr10_random_12
Internal   539464   539787	 6.78	+ 2 1	 5.18	 2.83	17.43	 0.00	AA 666:774 chr10_random_12
Internal   540767   540796	 1.82	+ 2 1	 5.90	 6.29	-1.24	 0.00	AA 774:784 chr10_random_12
Internal   543523   543846	 6.80	+ 2 1	 5.18	 2.83	17.48	 0.00	AA 784:892 chr10_random_12
Internal   544826   544855	 1.82	+ 2 1	 5.90	 6.29	-1.24	 0.00	AA 892:902 chr10_random_12
Internal   548517   548840	 6.81	+ 2 1	 5.18	 2.83	17.50	 0.00	AA 902:1010 chr10_random_12
Internal   549820   549849	 1.81	+ 2 1	 5.90	 6.29	-1.24	 0.00	AA 1010:1020 chr10_random_12
Internal   552588   552911	 6.81	+ 2 1	 5.18	 2.83	17.50	 0.00	AA 1020:1128 chr10_random_12
Internal   553891   553920	 1.81	+ 2 1	 5.90	 6.29	-1.24	 0.00	AA 1128:1138 chr10_random_12
Internal   558441   558764	 6.81	+ 2 1	 5.18	 2.83	17.50	 0.00	AA 1138:1246 chr10_random_12
Internal   559744   559773	 1.82	+ 2 1	 5.90	 6.29	-1.23	 0.00	AA 1246:1256 chr10_random_12
Internal   562063   562110	 0.52	+ 2 1	 5.57	 2.74	 1.32	 0.00	AA 1256:1272 chr10_random_12
Internal   568014   568337	 6.80	+ 2 1	 5.18	 2.83	17.49	 0.00	AA 1272:1380 chr10_random_12
Internal   569397   569720	 6.80	+ 2 1	 5.18	 2.83	17.49	 0.00	AA 1380:1488 chr10_random_12
Internal   570700   570729	 1.82	+ 2 1	 5.90	 6.29	-1.23	 0.00	AA 1488:1498 chr10_random_12
Internal   573440   573763	 7.14	+ 2 1	 4.15	 2.83	19.88	 0.00	AA 1498:1606 chr10_random_12
Internal   574574   574603	 1.82	+ 2 1	 5.90	 6.29	-1.23	 0.00	AA 1606:1616 chr10_random_12
Internal   577330   577653	 6.80	+ 2 1	 5.18	 2.83	17.49	 0.00	AA 1616:1724 chr10_random_12
Internal   578633   578662	 1.82	+ 2 1	 5.90	 6.29	-1.23	 0.00	AA 1724:1734 chr10_random_12
Internal   579989   580312	 6.80	+ 2 1	 5.18	 2.83	17.49	 0.00	AA 1734:1842 chr10_random_12
Internal   581292   581321	 1.81	+ 2 1	 5.90	 6.29	-1.25	 0.00	AA 1842:1852 chr10_random_12
Internal   584032   584355	 7.13	+ 2 1	 4.15	 2.83	19.85	 0.00	AA 1852:1960 chr10_random_12
Internal   586844   587167	 4.62	+ 2 1	 3.31	 3.78	13.41	 0.00	AA 1960:2068 chr10_random_12
Internal   588256   588285	 0.09	+ 2 1	 4.85	 5.34	-2.56	 0.00	AA 2068:2078 chr10_random_12
Internal   593342   593665	 6.78	+ 2 1	 5.18	 2.83	17.43	 0.00	AA 2078:2186 chr10_random_12
Internal   594645   594674	 1.81	+ 2 1	 5.90	 6.29	-1.25	 0.00	AA 2186:2196 chr10_random_12
Internal   598159   598482	 6.78	+ 2 1	 5.18	 2.83	17.43	 0.00	AA 2196:2304 chr10_random_12
Internal   599462   599491	 1.81	+ 2 1	 5.90	 6.29	-1.25	 0.00	AA 2304:2314 chr10_random_12
Internal   602646   602969	 6.75	+ 2 1	 4.15	 2.83	18.91	 0.00	AA 2314:2422 chr10_random_12
Internal   603934   603963	 1.03	+ 2 1	 5.97	 4.63	-0.83	 0.00	AA 2422:2432 chr10_random_12
Internal   605668   605991	 7.50	+ 2 1	 4.76	 2.83	19.87	 0.00	AA 2432:2540 chr10_random_12
Internal   607390   607419	 1.00	+ 2 1	 5.30	 5.34	-0.96	 0.00	AA 2540:2550 chr10_random_12
Internal   609128   609451	 5.88	+ 2 1	 4.66	 2.83	15.96	 0.00	AA 2550:2658 chr10_random_12
Internal   612012   612335	 7.06	+ 2 1	 3.89	 2.83	20.07	 0.00	AA 2658:2766 chr10_random_12
Internal   613733   613762	 1.10	+ 2 1	 5.30	 5.34	-0.72	 0.00	AA 2766:2776 chr10_random_12
Internal   615340   615663	 5.45	+ 2 1	 4.13	 2.83	15.68	 0.00	AA 2776:2884 chr10_random_12
Internal   616637   616666	 1.26	+ 2 1	 5.70	 4.63	 0.16	 0.00	AA 2884:2894 chr10_random_12
Internal   618371   618694	 7.50	+ 2 1	 4.76	 2.83	19.87	 0.00	AA 2894:3002 chr10_random_12
Internal   620093   620122	 1.00	+ 2 1	 5.30	 5.34	-0.96	 0.00	AA 3002:3012 chr10_random_12
Internal   621842   622165	 7.35	+ 2 1	 4.67	 2.83	19.62	 0.00	AA 3012:3120 chr10_random_12
Internal   623132   623161	 0.70	+ 2 1	 5.90	 3.68	-0.13	 0.00	AA 3120:3130 chr10_random_12
Internal   624865   625188	 6.76	+ 2 1	 5.18	 2.83	17.39	 0.00	AA 3130:3238 chr10_random_12
Internal   626168   626197	 1.81	+ 2 1	 5.90	 6.29	-1.25	 0.00	AA 3238:3248 chr10_random_12
Internal   628924   629247	 6.78	+ 2 1	 5.18	 2.83	17.43	 0.00	AA 3248:3356 chr10_random_12
Internal   630227   630256	 1.82	+ 2 1	 5.90	 6.29	-1.24	 0.00	AA 3356:3366 chr10_random_12
Internal   632967   633290	 7.14	+ 2 1	 4.15	 2.83	19.89	 0.00	AA 3366:3474 chr10_random_12
Internal   634258   634287	 1.38	+ 2 1	 6.08	 5.34	-1.18	 0.00	AA 3474:3484 chr10_random_12
Internal   636007   636330	 6.58	+ 2 1	 4.15	 2.83	18.47	 0.00	AA 3484:3592 chr10_random_12
Terminal   639484   639722	 4.58	+ 2 0	 4.93	 0.00	16.55	 0.00	AA 3592:3671 chr10_random_12

>chr10_random_12|geneid_v1.1_predicted_cDNA_12|11013_NN
ATGACCAGCAATTATGGTGTGCTACTCAATGAGGCTTCACTGATTCCCTCGGAGGTGCCC
TTGGATCCAACTGTAGCAGAAGGTTCTCCATTTCCCTCGGAGTCGACCCTGGAGTCAACT
GTAGCAGAAGGTTCTCCGATTTCCTTGGAGTCAACCCTGGAGTCAACCGTAGCAGAAGGT
TCTCTGATTCCCTCAGAGTCAACCCTGGAGTCAACTGTAGCAGAAGGATCTGATTCTGGT
TTGGCCCTGAGGCTGGTGAATGGAGATGGCAGGTGTCAGGGCCGAGTGGAGATCCTATAC
CGAGGCTCCTGGGGCACCGTGTGTGATGACAGCTGGGACACCAATGATGCCAACGTGGTC
TGTAGGCAGCTGGGTTGTGGCTGGGCCATGTCAGCTCCAGGAAATGCCTGGTTTGGCCAG
GGCTCAGGACCCATTGCCCTGGATGATGTGCGCTGCTCAGGACACGAATCCTACCTGTGG
AGCTGCCCCCACAATGGCTGGCTCTCCCATAACTGTGGCCATGGTGAAGATGCTGGTGTT
ATCTGCTCAGCTGCCCAGCCTCAGTCAACACTCAGGCCAGGATCTGAATCCAGTTTGGCC
CTGAGGCTGGTGAATGGAGGCGACAGGTGTCGAGGCCGAGTGGAGGTCCTATACCGAGGC
TCCTGGGGCACCGTGTGTGATGACTACTGGGACACCAATGATGCCAATGTGGTCTGCAGG
CAGCTGGGCTGTGGCTGGGCCATGTCAGCCCCAGGAAATGCCCAGTTTGGCCAGGGCTCA
GGACCCATTGTCCTGGATGATGTGCGCTGCTCAGGACATGAGTCCTACCTGTGGAGCTGC
CCCCACAATGGCTGGCTCACCCACAACTGTGGCCATAGTGAAGACGCTGGTGTCATCTGC
TCAGCTCCCCAGTCCCGGCCGACACCCAGCCCAGGACCTGAATCCAGTTTGGCCCTGAGG
CTGGTGAATGGAGGTGACAGGTGTCAGGGCCGAGTGGAGGTCCTATACCGAGGCTCCTGG
GGCACCGTGTGTGATGATAGCTGGGACACCAGTGACGCCAATGTGGTCTGCCGGCAGCTG
GGCTGTGGCTGGGCCACGTCAGCCCCAGGAAATGCCCGGTTTGGCCAGGGTTCAGGACCC
ATTGTCCTGGATGACGTGCGCTGCTCAGGCTATGAGTCCTACCTGTGGAGCTGCCCCCAC
AATGGCTGGCTCTCCCATAACTGTCAGCACAGTGAAGACGCTGGTGTCATCTGCTCAGCT
GCCCACTCCTGGTCGACGCCCAGTCCAGGATCTGAATCCAGTTTGGCCCTGAGGCTGGTG
AATGGAGGTGACAGGTGTCAGGGCCGAGTGGAGGTCCTATACCAAGGCTCCTGGGGCACC
GTGTGCGATGACAGCTGGGACACCAATGATGCCAATGTCGTCTGCAGGCAACTGGGCTGT
GGCTGGGCCATGTCAGCCCCAGGAAATGCCCGGTTTGGTCAGGGCTCAGGACCCATTGTC
CTGGATGATGTGCGCTGCTCAGGACACGAGTCTTACCTGTGGAGCTGCCCCCACAATGGC
TGGCTCTCCCACAACTGTGGCCATAGTGAAGACGCTGGTGTCATCTGCTCAGCTTCCCAG
TCCCGGCCAACACCTAGTCCAGGATCTGAATCCAGTTTGGCCCTGAGGCTGGTGAATGGA
GGTGACAGGTGTCAGGGCCGAGTGGAGGTCCTATACCGAGGCTCCTGGGGCACCGTGTGT
GATGACTACTGGGACACCAATGATGCCAATGTGGTTTGCAGGCAGCTGGGCTGTGGCTGG
GCCACGTCAGCCCCAGGAAATGCCCGGTTTGGCCAGGGTTCAGGACCCATTGTCCTGGAT
GATGTGCGCTGCTCAGGACATGAGTCCTATCTGTGGAGCTGCCCCCACAATGGCTGGCTC
TCCCACAACTGTGGCCATCATGAAGACGCTGGTGTCATCTGCTCAGCTTCCCAGTCCCAG
CCGACACCCAGCCCAGGATCTGAATCCAGTTTGGCCCTGAGGCTGGTGAATGGAGGTGAC
AGGTGTCAGGGCCGAGTGGAGGTCCTATACCGAGGCTCCTGGGGCACCGTGTGTGATGAC
TACTGGGACACCAATGATGCCAATGTGGTTTGCAGGCAGCTGGGCTGTGGCTGGGCCACG
TCAGCCCCAGGAAATGCCCGGTTTGGCCAGGGTTCAGGACCCATTGTCCTGGATGATGTG
CGCTGCTCAGGACATGAGTCCTATCTGTGGAGCTGCCCCCACAATGGCTGGCTCTCCCAC
AACTGTGGCCATCATGAAGACGCTGGTGTCATCTGCTCAGCTTCCCAGTCCCAGCCGACA
CCCAGCCCAGGATCTGAATCCAGTTTGGCCCTGAGGCTGGTGAATGGAGGTGACAGGTGT
CAGGGCCGAGTGGAGGTCCTATACCGAGGCTCCTGGGGCACCGTGTGTGATGACTACTGG
GACACCAATGATGCCAATGTGGTTTGCAGGCAGCTGGGCTGTGGCTGGGCCACGTCAGCC
CCAGGAAATGCCCGGTTTGGCCAGGGTTCAGGACCCATTGTCCTGGATGATGTGCGCTGC
TCAGGACATGAGTCCTATCTGTGGAGCTGCCCCCACAATGGCTGGCTCTCCCACAACTGT
GGCCATCATGAAGACGCTGGTGTCATCTGCTCAGCTTCCCAGTCCCAGCCGACACCCAGC
CCAGGATCTGAATCCAGTTTGGCCCTGAGGCTGGTGAATGGAGGTGACAGGTGTCAGGGC
CGAGTGGAGGTCCTATACCGAGGCTCCTGGGGCACCGTGTGTGATGACTACTGGGACACC
AATGATGCCAATGTGGTTTGCAGGCAGCTGGGCTGTGGCTGGGCCACGTCAGCCCCAGGA
AATGCCCGGTTTGGCCAGGGTTCAGGACCCATTGTCCTGGATGATGTGCGCTGCTCAGGA
CATGAGTCCTATCTGTGGAGCTGCCCCCACAATGGCTGGCTCTCCCACAACTGTGGCCAT
CATGAAGACGCTGGTGTCATCTGCTCAGCTTCCCAGTCCCAGCCGACACCCAGCCCAGGA
TCTGAATCCAGTTTGGCCCTGAGGCTGGTGAATGGAGGTGACAGGTGTCAGGGCCGAGTG
GAGGTCCTATACCGAGGCTCCTGGGGCACCGTGTGTGATGACTACTGGGACACCAATGAT
GCCAATGTGGTTTGCAGGCAGCTGGGCTGTGGCTGGGCCACGTCAGCCCCAGGAAATGCC
CGGTTTGGCCAGGGTTCAGGACCCATTGTCCTGGATGATGTGCGCTGCTCAGGACATGAG
TCCTATCTGTGGAGCTGCCCCCACAATGGCTGGCTCTCCCACAACTGTGGCCATCATGAA
GACGCTGGTGTCATCTGCTCAGCTTCCCAGTCCCAGCCGACACCCAGCCCAGGATCTGAA
TCCAGTTTGGCCCTGAGGCTGGTGAATGGAGGTGACAGGTGTCAGGGCCGAGTGGAGGTC
CTATACCGAGGCTCCTGGGGCACCGTGTGTGATGACTACTGGGACACCAATGATGCCAAT
GTGGTTTGCAGGCAGCTGGGCTGTGGCTGGGCCACGTCAGCCCCAGGAAATGCCCGGTTT
GGCCAGGGTTCAGGACCCATTGTCCTGGATGATGTGCGCTGCTCAGGACATGAGTCCTAT
CTGTGGAGCTGCCCCCACAATGGCTGGCTCTCCCACAACTGTGGCCATCATGAAGACGCT
GGTGTCATCTGCTCAGCTTCCCAGTCCCAGCCGACACCCAGCCCAGGTTCTCTGATTCCC
TCAGAGTCAACCCTGGAGTCAACTGTAGCAGAAGGATCTGAATCCAGTTTGGCCCTGAGG
CTGGTGAATGGAGGTGACAGGTGTCAGGGCCGAGTGGAGGTCCTATACCGAGGCTCCTGG
GGCACCGTGTGTGATGACTACTGGGACACCAATGATGCCAATGTGGTTTGCAGGCAGCTG
GGCTGTGGCTGGGCCACGTCAGCCCCAGGAAATGCCCGGTTTGGCCAGGGTTCAGGACCC
ATTGTCCTGGATGATGTGCGCTGCTCAGGACATGAGTCCTATCTGTGGAGCTGCCCCCAC
AATGGCTGGCTCTCCCACAACTGTGGCCATCATGAAGACGCTGGTGTCATCTGCTCAGGA
TCTGAATCCAGTTTGGCCCTGAGGCTGGTGAATGGAGGTGACAGGTGTCAGGGCCGAGTG
GAGGTCCTATACCGAGGCTCCTGGGGCACCGTGTGTGATGACTACTGGGACACCAATGAT
GCCAATGTGGTTTGCAGGCAGCTGGGCTGTGGCTGGGCCACGTCAGCCCCAGGAAATGCC
CGGTTTGGCCAGGGTTCAGGACCCATTGTCCTGGATGATGTGCGCTGCTCAGGACATGAG
TCCTATCTGTGGAGCTGCCCCCACAATGGCTGGCTCTCCCACAACTGTGGCCATCATGAA
GACGCTGGTGTCATCTGCTCAGCTTCCCAGTCCCAGCCGACACCCAGCCCAGGATCTGAA
TCCACTTTGGCCCTGAGACTGGTGAATGGAGGTGACAGGTGTCGAGGCCGAGTGGAGGTC
CTATACCAAGGCTCCTGGGGCACCGTGTGTGATGACTACTGGGACACCAATGATGCCAAC
GTGGTCTGCAGGCAGCTGGGCTGTGGCTGGGCCATGTCAGCCCCAGGAAATGCCCAGTTT
GGCCAGGGCTCAGGACCCATTGTCCTGGATGATGTGCGCTGCTCAGGACACGAGTCTTAC
CTGTGGAGCTGCCCCCACAATGGCTGGCTCTCCCACAACTGTGGCCATCATGAAGATGCT
GGTGTCATCTGCTCAGCTTCCCAGTCCCAGCCGACACCCAGCCCAGGATCTGAATCCAGT
TTGGCCCTGAGGCTGGTGAATGGAGGTGACAGGTGTCAGGGCCGAGTGGAGGTCCTATAC
CGAGGCTCCTGGGGCACCGTGTGTGATGACTACTGGGACACCAATGATGCCAATGTGGTT
TGCAGGCAGCTGGGCTGTGGCTGGGCCACGTCAGCCCCAGGAAATGCCCGGTTTGGCCAG
GGTTCAGGACCCATTGTCCTGGATGATGTGCGCTGCTCAGGACATGAGTCCTATCTGTGG
AGCTGCCCCCACAATGGCTGGCTCTCCCACAACTGTGGCCATCATGAAGACGCTGGTGTC
ATCTGCTCAGCTTCCCAGTCCCAGCCGACACCCAGCCCAGGATCTGAATCCAGTTTGGCC
CTGAGGCTGGTGAATGGAGGTGACAGGTGTCAGGGCCGAGTGGAGGTCCTATACCGAGGC
TCCTGGGGCACCGTGTGTGATGACTACTGGGACACCAATGATGCCAATGTGGTTTGCAGG
CAGCTGGGCTGTGGCTGGGCCACGTCAGCCCCAGGAAATGCCCGGTTTGGCCAGGGTTCA
GGACCCATTGTCCTGGATGATGTGCGCTGCTCAGGACATGAGTCCTATCTGTGGAGCTGC
CCCCACAATGGCTGGCTCTCCCACAACTGTGGCCATCATGAAGACGCTGGTGTCATCTGC
TCAGCTTCCCAGTCCCAGCCGACACCCAGCCCAGGATCTGAATCCACTTTGGCCCTGAGA
CTGGTGAATGGAGGTGACAGGTGTCGAGGCCGAGTGGAGGTCCTATACCAAGGCTCCTGG
GGCACCGTGTGTGATGACTACTGGGACACCAATGATGCCAACGTGGTCTGCAGGCAGCTG
GGCTGTGGCTGGGCCATGTCAGCCCCAGGAAATGCCCAGTTTGGCCAGGGCTCAGGACCC
ATTGTCCTGGATGATGTGCGCTGCTCAGGACACGAGTCTTACCTGTGGAGCTGCCCCCAC
AATGGCTGGCTCTCCCACAACTGTGGCCATCATGAAGATGCTGGTGTCATCTGCTCAGGA
TCTGATTCTGGTTTGGCCCTGAGGCTGGTGAATGGAGATGGCAGGTGTCAGGGCCGAGTG
GAGATCCTATACCGAGGCTCCTGGGGCACCGTGTGTGATGACAGCTGGGACACCAATGAT
GCCAACGTGGTCTGTAGGCAGCTGGGTTGTGGCTGGGCCATGTCAGCTCCAGGAAATGCC
TGGTTTGGCCAGGGCTCAGGACCCATTGCCCTGGATGATGTGCGCTGCTCAGGACACGAA
TCCTACCTGTGGAGCTGCCCCCACAATGGCTGGCTCTCCCATAACTGTGGCCATGGTGAA
GATGCTGGTGTTATCTGCTCAGCTGCCCAGCCTCAGTCAACACTCAGGCCAGGATCTGAA
TCCAGTTTGGCCCTGAGGCTGGTGAATGGAGGTGACAGGTGTCAGGGCCGAGTGGAGGTC
CTATACCGAGGCTCCTGGGGCACCGTGTGTGATGACTACTGGGACACCAATGATGCCAAT
GTGGTTTGCAGGCAGCTGGGCTGTGGCTGGGCCACGTCAGCCCCAGGAAATGCCCGGTTT
GGCCAGGGTTCAGGACCCATTGTCCTGGATGATGTGCGCTGCTCAGGACATGAGTCCTAT
CTGTGGAGCTGCCCCCACAATGGCTGGCTCTCCCACAACTGTGGCCATCATGAAGACGCT
GGTGTCATCTGCTCAGCTTCCCAGTCCCAGCCGACACCCAGCCCAGGATCTGAATCCAGT
TTGGCCCTGAGGCTGGTGAATGGAGGTGACAGGTGTCAGGGCCGAGTGGAGGTCCTATAC
CGAGGCTCCTGGGGCACCGTGTGTGATGACTACTGGGACACCAATGATGCCAATGTGGTT
TGCAGGCAGCTGGGCTGTGGCTGGGCCACGTCAGCCCCAGGAAATGCCCGGTTTGGCCAG
GGTTCAGGACCCATTGTCCTGGATGATGTGCGCTGCTCAGGACATGAGTCCTATCTGTGG
AGCTGCCCCCACAATGGCTGGCTCTCCCACAACTGTGGCCATCATGAAGACGCTGGTGTC
ATCTGCTCAGCTTCCCAGTCCCAGCCGACACCCAGCCCAGGATCTGAATCCAGTTTGGCC
CTGAGGCTGGTGAATGGAGGCGACAGGTGTCGAGGCCGAGTGGAGGTCCTATACCGAGGC
TCCTGGGGCACCGTGTGTGATGACTACTGGGACACCAATGATGCCAATGTGGTCTGCAGG
CAGCTGGGCTGTGGCTGGGCCATGTCAGCCCCAGGAAATGCCCAGTTTGGCCAGGGCTCA
GGACCCATTGTCCTGGATGATGTGCGCTGCTCAGGACATGAGTCCTACCTGTGGAGCTGC
CCCCACAATGGCTGGCTCACCCACAACTGTGGCCATAGTGAAGACGCTGGTGTCATCTGC
TCAGCTCCCCAGTCCCGGCCGACACCCAGCCCAGGACCTGAATCCAGTTTGGCCCTGAGG
CTGGTGAATGGAGGTGACAGGTGTCAGGGCCGAGTGGAGGTCCTATACCGAGGCTCCTGG
GGCACCGTGTGTGATGATAGCTGGGACACCAGTGACGCCAATGTGGTCTGCCGGCAGCTG
GGCTGTGGCTGGGCCACGTCAGCCCCAGGAAATGCCCGGTTTGGCCAGGGTTCAGGACCC
ATTGTCCTGGATGACGTGCGCTGCTCAGGCTATGAGTCCTACCTGTGGAGCTGCCCCCAC
AATGGCTGGCTCTCCCATAACTGTCAGCACAGTGAAGACGCTGGTGTCATCTGCTCAGCT
GCCCACTCCTGGTCGACGCCCAGTCCAGGATCTGAATCCAGTTTGGCCCTGAGGCTGGTG
AATGGAGGTGACAGGTGTCAGGGCCGAGTGGAGGTCCTATACCGAGGCTCCTGGGGCACC
GTGTGTGATGACAGCTGGGACACCAATGATGCCAATGTGGTCTGCAGGCAGCTGGGCTGT
GGCTGGGCCATGTTGGCCCCAGGAAATGCCCGGTTTGGTCAGGGCTCAGGACCCATTGTC
CTGGATGACGTGCGCTGCTCAGGGAATGAGTCCTACTTGTGGAGCTGCCCCCACAATGGC
TGGCTCTCCCATAACTGTGGCCATAGTGAAGACGCTGGTGTCATCTGCTCAGGACCTGAA
TCCAGTTTGGCCCTGAGGCTGGTGAATGGAGGTGACAGGTGTCAGGGCCGAGTGGAGGTC
CTATACCGAGGCTCTTGGGGCACCGTGTGTGATGACAGCTGGGACACCAATGATGCCAAT
GTGGTCTGCAGGCAGCTGGGCTGTGGCTGGGCCACGTCAGCCCCAGGAAATGCCCGGTTT
GGTCAGGGCTCAGGACCCATTGTCCTGGATGATGTGCGCTGCTCAGGACATGAGTCCTAC
CTGTGGAGCTGCCCCAACAATGGCTGGCTCTCCCACAACTGTGGCCATCATGAAGATGCT
GGTGTCATCTGCTCAGCTGCCCAGTCCCGGTCGACGCCCAGGCCAGGATCTGAATCCAGT
TTGACCCTGAGGCTGGTGAATGGAAGTGACAGGTGTCAGGGCCGAGTAGAGGTCCTATAC
CGAGGCTCCTGGGGCACCGTGTGTGATGACAGCTGGGATACCAATGATGCCAATGTGGTC
TGCAGGCAGCTGGGCTGTGGCTGGGCCACGTCGGCCCCAGGAAATGCCCGGTTTGGCCAG
GGCTCAGGACCCATTGTTCTGGATGATGTGCGCTGCTCAGGACACGAGTCCTACCTGTGG
AGCTGCCCCCACAATGGCTGGCTCTCCCACAACTGTGGCCATCATGAAGATGCTGGTGTC
ATCTGCTCAGTTTCCCAGTCCCGGCCGACACCCAGTCCAGGACCTGAATCCAGTTTGGCC
CTGAGGCTGGTGAATGGAGGTGACAGGTGTCAGGGCCGAGTGGAGGTCCTATACCGAGGC
TCCTGGGGCACCGTGTGTGATGATAGCTGGGACACCAGTGACGCCAATGTGGTCTGCCGG
CAGCTGGGCTGTGGCTGGGCCACGTCAGCCCCAGGAAATGCCCGGTTTGGCCAGGGTTCA
GGACCCATTGTCCTGGATGACGTGCGCTGCTCAGGCTATGAGTCCTACCTGTGGAGCTGC
CCCCACAATGGCTGGCTCTCCCATAACTGTCAGCACAGTGAAGACGCTGGTGTCATCTGC
TCAGCTGCCCACTCCTGGTCGACGCCCAGTCCAGGATCTGAATCCAGTTTGGCCCTGAGG
CTGGTGAATGGAGGTGACAGGTGTCAGGGCCGAGTGGAGGTCCTATACCAAGGCTCCTGG
GGCACCGTGTGCGATGACAGCTGGGACACCAATGATGCCAATGTCGTCTGCAGGCAACTG
GGCTGTGGCTGGGCCATGTCAGCCCCAGGAAATGCCCGGTTTGGTCAGGGCTCAGGACCC
ATTGTCCTGGATGATGTGCGCTGCTCAGGACACGAGTCTTACCTGTGGAGCTGCCCCCAC
AATGGCTGGCTCTCCCACAACTGTGGCCATAGTGAAGACGCTGGTGTCATCTGCTCAGCT
TCCCAGTCCCGGCCAACACCTAGTCCAGGATCTGAATCCAGTTTGGCCCTGAGGCTGGTG
AATGGAGGTGACAGGTGTCAGGGCCGAGTGGAGGTCCTATACCGAGGCTCCTGGGGCACC
GTGTGTGATGACTACTGGGACACCAATGATGCCAATGTGGTTTGCAGGCAGCTGGGCTGT
GGCTGGGCCATGTCAGCCCCAGGAAATGCCCGGTTTGGCCAGGGTTCAGGACCCATTGTC
CTGGATGATGTGCGCTGCTCAGGACATGAGTCCTATCTGTGGAGCTGCCCCCACAATGGC
TGGCTCTCCCACAACTGTGGCCATCATGAAGACGCTGGTGTCATCTGCTCAGCTTCCCAG
TCCCAGCCGACACCCAGCCCAGGATCTGAATCCAGTTTGGCCCTGAGGCTGGTGAATGGA
GGTGACAGGTGTCAGGGCCGAGTGGAGGTCCTATACCGAGGCTCCTGGGGCACCGTGTGT
GATGACTACTGGGACACCAATGATGCCAATGTGGTTTGCAGGCAGCTGGGCTGTGGCTGG
GCCACGTCAGCCCCAGGAAATGCCCGGTTTGGCCAGGGTTCAGGACCCATTGTCCTGGAT
GATGTGCGCTGCTCAGGACATGAGTCCTATCTGTGGAGCTGCCCCCACAATGGCTGGCTC
TCCCACAACTGTGGCCATCATGAAGACGCTGGTGTCATCTGCTCAGCTTCCCAGTCCCAG
CCGACACCCAGCCCAGGATCTGAATCCACTTTGGCCCTGAGACTGGTGAATGGAGGTGAC
AGGTGTCGAGGCCGAGTGGAGGTCCTATACCAAGGCTCCTGGGGCACCGTGTGTGATGAC
TACTGGGACACCAATGATGCCAACGTGGTCTGCAGGCAGCTGGGCTGTGGCTGGGCCATG
TCAGCCCCAGGAAATGCCCAGTTTGGCCAGGGCTCAGGACCCATTGTCCTGGATGATGTG
CGCTGCTCAGGACACGAGTCTTACCTGTGGAGCTGCCCCCACAATGGCTGGCTCTCCCAC
AACTGTGGCCATCATGAAGATGCTGGTGTCATCTGCTCAGCTGCTCAGTCCCAGTCAACG
CCCAGGCCAGGATCTGAATCCAGTTTGGCTCTGAGGCTGGTGAATGGAGGTGACAGGTGT
CGAGGCCGAGTGGAGGTCCTGTATCGAGGCTCCTGGGGAACCGTGTGTGATGACAGCTGG
GACACCAATGATGCCAATGTGGTCTGCAGGCAGCTGGGCTGTGGCTGGGCCATGTCGGCC
CCAGGAAATGCCCGGTTTGGCCAGGGCTCAGGACCCATTGTCCTGGATGATGTGCGCTGC
TCAGGGAATGAGTCCTACCTGTGGAGCTGCCCCCACAAAGGCTGGCTCACCCACAACTGT
GGCCATCACGAAGACGCTGGTGTCATCTGCTCAGAATCCAATTCTGGTTTGGCCCTGAGG
CTGGTGAATGGAGGTGACCAGTGTCAGGGCCAGGTGGAGGTCCTGTACCAAGTCTCCTGG
GGCACCGTGTATGATGACACCAATGACGCCAATGTGGTCTGCAGGCAGCTGGGCCGTGGC
TGGGCCGTGGCATTCCCAGGAAATGCCTGGTTTGATCAGGGCTCAGGACCCATTGTCCTG
GATGATGTGTGCTGCTCAGGGAATGAGTCCTAA

>chr10_random_12|geneid_v1.1_predicted_protein_12|3671_AA
MTSNYGVLLNEASLIPSEVPLDPTVAEGSPFPSESTLESTVAEGSPISLESTLESTVAEG
SLIPSESTLESTVAEGSDSGLALRLVNGDGRCQGRVEILYRGSWGTVCDDSWDTNDANVV
CRQLGCGWAMSAPGNAWFGQGSGPIALDDVRCSGHESYLWSCPHNGWLSHNCGHGEDAGV
ICSAAQPQSTLRPGSESSLALRLVNGGDRCRGRVEVLYRGSWGTVCDDYWDTNDANVVCR
QLGCGWAMSAPGNAQFGQGSGPIVLDDVRCSGHESYLWSCPHNGWLTHNCGHSEDAGVIC
SAPQSRPTPSPGPESSLALRLVNGGDRCQGRVEVLYRGSWGTVCDDSWDTSDANVVCRQL
GCGWATSAPGNARFGQGSGPIVLDDVRCSGYESYLWSCPHNGWLSHNCQHSEDAGVICSA
AHSWSTPSPGSESSLALRLVNGGDRCQGRVEVLYQGSWGTVCDDSWDTNDANVVCRQLGC
GWAMSAPGNARFGQGSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHSEDAGVICSASQ
SRPTPSPGSESSLALRLVNGGDRCQGRVEVLYRGSWGTVCDDYWDTNDANVVCRQLGCGW
ATSAPGNARFGQGSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHHEDAGVICSASQSQ
PTPSPGSESSLALRLVNGGDRCQGRVEVLYRGSWGTVCDDYWDTNDANVVCRQLGCGWAT
SAPGNARFGQGSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHHEDAGVICSASQSQPT
PSPGSESSLALRLVNGGDRCQGRVEVLYRGSWGTVCDDYWDTNDANVVCRQLGCGWATSA
PGNARFGQGSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHHEDAGVICSASQSQPTPS
PGSESSLALRLVNGGDRCQGRVEVLYRGSWGTVCDDYWDTNDANVVCRQLGCGWATSAPG
NARFGQGSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHHEDAGVICSASQSQPTPSPG
SESSLALRLVNGGDRCQGRVEVLYRGSWGTVCDDYWDTNDANVVCRQLGCGWATSAPGNA
RFGQGSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHHEDAGVICSASQSQPTPSPGSE
SSLALRLVNGGDRCQGRVEVLYRGSWGTVCDDYWDTNDANVVCRQLGCGWATSAPGNARF
GQGSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHHEDAGVICSASQSQPTPSPGSLIP
SESTLESTVAEGSESSLALRLVNGGDRCQGRVEVLYRGSWGTVCDDYWDTNDANVVCRQL
GCGWATSAPGNARFGQGSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHHEDAGVICSG
SESSLALRLVNGGDRCQGRVEVLYRGSWGTVCDDYWDTNDANVVCRQLGCGWATSAPGNA
RFGQGSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHHEDAGVICSASQSQPTPSPGSE
STLALRLVNGGDRCRGRVEVLYQGSWGTVCDDYWDTNDANVVCRQLGCGWAMSAPGNAQF
GQGSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHHEDAGVICSASQSQPTPSPGSESS
LALRLVNGGDRCQGRVEVLYRGSWGTVCDDYWDTNDANVVCRQLGCGWATSAPGNARFGQ
GSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHHEDAGVICSASQSQPTPSPGSESSLA
LRLVNGGDRCQGRVEVLYRGSWGTVCDDYWDTNDANVVCRQLGCGWATSAPGNARFGQGS
GPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHHEDAGVICSASQSQPTPSPGSESTLALR
LVNGGDRCRGRVEVLYQGSWGTVCDDYWDTNDANVVCRQLGCGWAMSAPGNAQFGQGSGP
IVLDDVRCSGHESYLWSCPHNGWLSHNCGHHEDAGVICSGSDSGLALRLVNGDGRCQGRV
EILYRGSWGTVCDDSWDTNDANVVCRQLGCGWAMSAPGNAWFGQGSGPIALDDVRCSGHE
SYLWSCPHNGWLSHNCGHGEDAGVICSAAQPQSTLRPGSESSLALRLVNGGDRCQGRVEV
LYRGSWGTVCDDYWDTNDANVVCRQLGCGWATSAPGNARFGQGSGPIVLDDVRCSGHESY
LWSCPHNGWLSHNCGHHEDAGVICSASQSQPTPSPGSESSLALRLVNGGDRCQGRVEVLY
RGSWGTVCDDYWDTNDANVVCRQLGCGWATSAPGNARFGQGSGPIVLDDVRCSGHESYLW
SCPHNGWLSHNCGHHEDAGVICSASQSQPTPSPGSESSLALRLVNGGDRCRGRVEVLYRG
SWGTVCDDYWDTNDANVVCRQLGCGWAMSAPGNAQFGQGSGPIVLDDVRCSGHESYLWSC
PHNGWLTHNCGHSEDAGVICSAPQSRPTPSPGPESSLALRLVNGGDRCQGRVEVLYRGSW
GTVCDDSWDTSDANVVCRQLGCGWATSAPGNARFGQGSGPIVLDDVRCSGYESYLWSCPH
NGWLSHNCQHSEDAGVICSAAHSWSTPSPGSESSLALRLVNGGDRCQGRVEVLYRGSWGT
VCDDSWDTNDANVVCRQLGCGWAMLAPGNARFGQGSGPIVLDDVRCSGNESYLWSCPHNG
WLSHNCGHSEDAGVICSGPESSLALRLVNGGDRCQGRVEVLYRGSWGTVCDDSWDTNDAN
VVCRQLGCGWATSAPGNARFGQGSGPIVLDDVRCSGHESYLWSCPNNGWLSHNCGHHEDA
GVICSAAQSRSTPRPGSESSLTLRLVNGSDRCQGRVEVLYRGSWGTVCDDSWDTNDANVV
CRQLGCGWATSAPGNARFGQGSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHHEDAGV
ICSVSQSRPTPSPGPESSLALRLVNGGDRCQGRVEVLYRGSWGTVCDDSWDTSDANVVCR
QLGCGWATSAPGNARFGQGSGPIVLDDVRCSGYESYLWSCPHNGWLSHNCQHSEDAGVIC
SAAHSWSTPSPGSESSLALRLVNGGDRCQGRVEVLYQGSWGTVCDDSWDTNDANVVCRQL
GCGWAMSAPGNARFGQGSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHSEDAGVICSA
SQSRPTPSPGSESSLALRLVNGGDRCQGRVEVLYRGSWGTVCDDYWDTNDANVVCRQLGC
GWAMSAPGNARFGQGSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHHEDAGVICSASQ
SQPTPSPGSESSLALRLVNGGDRCQGRVEVLYRGSWGTVCDDYWDTNDANVVCRQLGCGW
ATSAPGNARFGQGSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHHEDAGVICSASQSQ
PTPSPGSESTLALRLVNGGDRCRGRVEVLYQGSWGTVCDDYWDTNDANVVCRQLGCGWAM
SAPGNAQFGQGSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHHEDAGVICSAAQSQST
PRPGSESSLALRLVNGGDRCRGRVEVLYRGSWGTVCDDSWDTNDANVVCRQLGCGWAMSA
PGNARFGQGSGPIVLDDVRCSGNESYLWSCPHKGWLTHNCGHHEDAGVICSESNSGLALR
LVNGGDQCQGQVEVLYQVSWGTVYDDTNDANVVCRQLGRGWAVAFPGNAWFDQGSGPIVL
DDVCCSGNES*

# Gene 13 (Forward). 13 exons. 797 aa. Score = 52.465687 
   First   644762   644943	-1.32	+ 0 2	 2.03	 3.23	 2.55	 0.00	AA   1: 61 chr10_random_13
Internal   645238   645440	 3.08	+ 1 1	 3.89	 4.01	 8.33	 0.00	AA  61:129 chr10_random_13
Internal   645911   646231	 2.45	+ 2 1	 3.59	 3.52	 7.97	 0.00	AA 129:236 chr10_random_13
Internal   646805   646825	 1.35	+ 2 1	 6.62	 5.00	-1.55	 0.00	AA 236:243 chr10_random_13
Internal   648141   648291	 1.14	+ 2 2	 3.18	 2.54	 6.78	 0.00	AA 243:293 chr10_random_13
Internal   650941   651149	 8.09	+ 1 1	 4.66	 2.54	21.93	 0.00	AA 293:363 chr10_random_13
Internal   652078   652262	 4.88	+ 2 0	 3.44	 5.44	11.37	 0.00	AA 363:424 chr10_random_13
Internal   654990   655399	17.14	+ 0 2	 4.31	 2.76	44.75	 0.00	AA 425:561 chr10_random_13
Internal   658072   658344	 6.93	+ 1 2	 2.39	 1.80	23.53	 0.00	AA 561:652 chr10_random_13
Internal   672282   672349	 0.00	+ 1 1	 3.84	 4.44	 0.09	 0.00	AA 652:675 chr10_random_13
Internal   690591   690620	 1.88	+ 2 1	 6.01	 3.81	 2.47	 0.00	AA 675:685 chr10_random_13
Internal   691706   691841	 5.60	+ 2 2	 4.03	 3.07	15.85	 0.00	AA 685:730 chr10_random_13
Terminal   693797   693998	 1.23	+ 1 0	 2.24	 0.00	12.22	 0.00	AA 730:797 chr10_random_13

>chr10_random_13|geneid_v1.1_predicted_cDNA_13|2391_NN
ATGGAGATGTCCCCTCTCTCCTCTCTAGGACCCTCTTCAAATTGTGGTGGCTTCTTATTC
TATGCCAGTGGGACATTCTCCAGCCCATCCTACCCTGCATACTACCCCAACAATGCTAAG
TGTGTTTGGGAAATAGAAGTGAATTCTGGTTATCGCATAAACCTGGGCTTCAGTAATCTG
AAATTGGAGGCACACCATAACTGCAGTTTTGATTATGTTGAAATCTTTGATGGATCATTG
AATAGCAGTCTCCTGCTGGGGAAAATCTGTAATGATACCAGGCAAATATTTACATCTTCT
TACAACCGAATGACCATTCACTTTCGAAGTGACATCAGTTTCCAAAACACTGGCTTTTTG
GCTTGGTATAACTCCTTCCCAAGCGATGCCACCTTGAGGTTGGTCAATTTAAATTCATCC
TATGGTCTATGTGCCGGGCGTGTAGAAATTTACCATGGTGGCACCTGGGGGACAGTTTGT
GATGACTCCTGGACCATTCAGGAAGCTGAGGTGGTCTGCAGACAGCTAGGGTGTGGACGT
GCAGTTTCAGCCCTTGGAAATGCATATTTTGGCTCTGGCTCTGGCCCCATCACCCTGGAC
GATGTAGAGTGCTCAGGGACGGAATCCACTCTCTGGCAGTGCCGGAACCGAGGCTGGTTC
TCCCACAACTGTAATCATCGTGAAGATGCTGGTGTCATCTGCTCAGGAAACCATCTATCG
ACACCTGCAGATTATTCCTGCGGAGGCTTCCTATCCCAACCATCAGGGGACTTTTCCAGC
CCATTCTATCCCGGGAACTATCCAAACAATGCCAAGTGTGTGTGGGACATTGAGGTGCAA
AACAACTACCGTGTGACTGTGATCTTCAGAGATGTCCAGCTTGAAGGTGGCTGCAACTAT
GATTATATTGAAGTTTTCGATGGCCCCTACCGCAGTTCCCCTCTCATTGCTCGAGTTTGT
GATGGGGCCAGAGGCTCCTTCACTTCTTCCTCCAACTTCATGTCCATTCGCTTCATCAGT
GACCACAGCATCACAAGGAGAGGGTTCCGGGCTGAGTACTACTCCAGTCCCTCCAATGAC
AGCACCAACCTGCTCTGTCTGCCAAATCACATGCAAGCCAGTGTGAGCAGGAGCTATCTC
CAATCCTTGGGCTTTTCTGCCAGTGACCTTGTCATTTCCACCTGGAATGGATACTACGAG
TGTCGGCCCCAGATAACGCCGAACCTGGTGATATTCACAATTCCCTACTCAGGCTGCGGC
ACCTTCAAGCAGGCAGACAATGACACCATCGACTATTCCAACTTCCTCACAGCAGCTGTC
TCAGGTGGCATCATCAAGAGGAGGACAGACCTCCGTATTCACGTCAGCTGCAGAATGCTT
CAGAACACCTGGGTCGACACCATGTACATTGCTAATGACACCATCCACGTTGCTAATAAC
ACCATCCAGGTCGAGGAAGTCCAGTATGGCAATTTTGACGTGAACATTTCCTTTTATACT
TCCTCATCTTTCTTGTATCCTGTGACCAGCCGCCCTTACTACGTGGACCTGAACCAGGAC
TTGTACGTTCAGGCTGAAATCCTCCATTCTGATGCTGTACTGACCTTGTTTGTGGACACC
TGCGTGGCATCACCATACTCCAATGACTTCACGTCTTTGACTTATGATCTAATCCGGAGT
GGATGCGTGAGGGATGACACCTACGGACCCTACTCCTCGCCATCTCTTCGCATTGCCCGC
TTCCGGTTCAGGGCCTTCCACTTCCTGAACCGCTTCCCCTCCGTGTACCTGCGTTGTAAA
ATGGTGGTGTGCAGAGCGTATGACCCCTCTTCCCGCTGCTACCGAGGCTGTGTGTTGAGG
TCGAAGAGGGATGTGGGCTCCTACCAGGAAAAGGTGGACGTCGTCCTGGGTCCCATCCAG
CTGCAGACCCCCCCACGCCGAGAAGAGGAGCCTCGACCACCCAGTGCTGCAGGTGATCCT
GCAGCACACTCAGATCCTGCAGCTTGGACAGCCTTGGCTCCAGCCACAACTGTTAAAGCT
CCATTTGCCACAGCACCCAGTGACTGTGGGGGCCACTACACAGATGAATATGGCAGGATC
TTCAACTACGCTGGGCCGAAAACTGAATGCGTCTGGATCATCGAGTTGAACCCCGGGGAG
ATAGTCACGGTGGCCATTCCAGACCTCAAAGGATTCGCATGTGGCAAAGAATACGTGGAA
GTGCTGGATGGACCTCCAGGGTCTGAGTCCTTGGACAGGATTTGTAAAGCCTTCAGTACA
TTCTATTACTCTTCTTCCAACATCATCACCATCAAGTACTCCAGAGAACCCAGTCATCCA
CCCACCTTCTTTGAAATATATTACTTTGTTGACGCTTGGTCAACACATTAA

>chr10_random_13|geneid_v1.1_predicted_protein_13|797_AA
MEMSPLSSLGPSSNCGGFLFYASGTFSSPSYPAYYPNNAKCVWEIEVNSGYRINLGFSNL
KLEAHHNCSFDYVEIFDGSLNSSLLLGKICNDTRQIFTSSYNRMTIHFRSDISFQNTGFL
AWYNSFPSDATLRLVNLNSSYGLCAGRVEIYHGGTWGTVCDDSWTIQEAEVVCRQLGCGR
AVSALGNAYFGSGSGPITLDDVECSGTESTLWQCRNRGWFSHNCNHREDAGVICSGNHLS
TPADYSCGGFLSQPSGDFSSPFYPGNYPNNAKCVWDIEVQNNYRVTVIFRDVQLEGGCNY
DYIEVFDGPYRSSPLIARVCDGARGSFTSSSNFMSIRFISDHSITRRGFRAEYYSSPSND
STNLLCLPNHMQASVSRSYLQSLGFSASDLVISTWNGYYECRPQITPNLVIFTIPYSGCG
TFKQADNDTIDYSNFLTAAVSGGIIKRRTDLRIHVSCRMLQNTWVDTMYIANDTIHVANN
TIQVEEVQYGNFDVNISFYTSSSFLYPVTSRPYYVDLNQDLYVQAEILHSDAVLTLFVDT
CVASPYSNDFTSLTYDLIRSGCVRDDTYGPYSSPSLRIARFRFRAFHFLNRFPSVYLRCK
MVVCRAYDPSSRCYRGCVLRSKRDVGSYQEKVDVVLGPIQLQTPPRREEEPRPPSAAGDP
AAHSDPAAWTALAPATTVKAPFATAPSDCGGHYTDEYGRIFNYAGPKTECVWIIELNPGE
IVTVAIPDLKGFACGKEYVEVLDGPPGSESLDRICKAFSTFYYSSSNIITIKYSREPSHP
PTFFEIYYFVDAWSTH*

# Gene 14 (Reverse). 1 exons. 39 aa. Score = 0.790561 
Terminal   703197   703313	 0.79	- 0 0	 0.00	 5.27	 6.57	 0.00	AA   1: 39 chr10_random_14

>chr10_random_14|geneid_v1.1_predicted_cDNA_14|117_NN
ATGATTGCCAAGGTCAACAATATGTCCCCAAAAGGCAGAATATTTGATGGGCAAAGACAG
TTTCCTCATTCCTCTGCTGGATTCACTTTTCCACTGGTCATGTTCAGTTTATCGTAA

>chr10_random_14|geneid_v1.1_predicted_protein_14|39_AA
MIAKVNNMSPKGRIFDGQRQFPHSSAGFTFPLVMFSLS*