TCONS_00016961 (transcript) - C. hemisphaerica

Overview
NameTCONS_00016961
Unique NameTCONS_00016961
Typetranscript
OrganismClytia hemisphaerica (Jellyfish)
Sequence length3349

Sequence
The following sequences are available for this feature:

transcript sequence

>TCONS_00016961 ID=TCONS_00016961|Name=TCONS_00016961|organism=Clytia hemisphaerica|type=transcript|length=3349bp
TCTTAGAGAATATTGGTTTTAGTTGCACTCGATGTTGATGCATTATGTGC
CTGCAGAATAGTTAAGAACTTGTTCCAACAAGACAATGTACAATACACAA
TTGTTCCTGTTTCTGGGATTGACAACATCAAGGAAGTCTATGATGAACAC
AAGGAACAAatcAAATATTTTCTCCTGATCAACTGTGGTGGAAACATTGA
TTTTGATGTACTTGAAGCTGACGAAGACTCCACTTTCTTCATTGTTGACA
GTCATCGACCATTAGATTTAAATAATGTATTCAAGGAGCAAATCAAAATT
CTGATCAAAGAAGGAGATGCAACAATCGATGAAATTCCTGACCCTGAAAA
AGTCATCGAATATGAAGATGATAACGAAGGTGAGGAGGAAGAACAGAACA
AGGAAAATGAGAACAGCGATTCTGAAGATGACAATCCTGATGAACCATCT
TCAAAACGACAAAAAACCAGCAATGTTTCCTATCTGGAAAAGCAAGTCAA
AAAGAAACGTTGGGCCACTGAGAgAGAGAAGCTTCTGGATGAGTATTATG
AATGTTCTTATTATGGATCAAGTactGCGTTGACTTTATACGATTTGGCT
TGGAAGTTAACCAAAGATAACAACGACCTCCTATGGCTGGCAATCGTTGG
ATTAACAGAACAGTATTTATTCTCCAAAATTGAAGGTGAGAAATATTTCG
AAGACTGTACAGGGATCAAAGATCACGTGATCAGACATAATATGACGGAT
GACGAACACACACAATCAGTAGCATGCATGAAAATCGTCTTCGAAAAAGA
ATTACGTTTAGGAATGTACCGACATTGGTCATTATTTGAAAGCTTTATGA
ATTCCAGATACACCGTTTGCGGcttGCGACTCTTCACGATGAAAGGAAGG
AAAAGACTTCATGAGCTGTTTGCTGATATCGGGTTACCCATAGTACAATG
CAAGCAGAAATATTCTTCAATGGACGTTGAGATAAGAAAAGACGTCAAAG
GCTGGATCGAAGGGATCGCTGAGAAATACGGGATGGACGATATTTCATTC
GGTTCATTTGCTTCACAGTATGGCTATAAAACAAAGATATGTGCTGAAGA
TATGGTTTGTGCCATTTCTGCATTACTGGAATATGCTAGAGAAGATATTT
CATTTTCTGATCAATTCGTAGATGCTTTGGACGCATTGAATAGATCAAGT
ATAGATCAATTAAATGGAGCAATCGAGCTAGGAAAGAAACAGGTGTCTAG
CATGGTATCACAAGTTCGATCGTTTATCGATTCACATCAAATCGCATGCG
CTGGCCCATTTTTGTATGCTCATATTTTAGAGGGATCACCAACTGCTTAT
ATTTTTGCAAAGCCTTGTATCATTGGTCGATTAGCTCGTTTTACACTGGA
GGTGTACAGCACTATGACCAAACAAAAGAAAGCAAGGAGCCTACCGTTCG
TTTTGGCTGTACCCAGTGACCTGGAAGAAGGAATGTCTTTATTGGTAGGA
GTACCGCCCGTTGGTGAGAGCTCAATCAAAAGttTCTTTGGAGCAGCATT
CAAGCAGGCTGGTGAGAAAACACGGTCAAGAGTGCGCCATGATTTCTTTG
ACCCAACAGtgaTCGAAATCAAAACAGAAGATCGGAGTAAATTCTTTGAC
AATCTAGCAGCTCTCATGGCTTGAGAAATCCCTCAACAAATTTGAAATTT
ATGAAGGAGAGTCTTGATTTCCTTATAAGGATTATGGGTTAAGAAACACT
CTCTGTCATAAATCTTGAACCCTACACCCTTTGATCCGCCACCGGGTGAA
GGAAGATGTGATGCTACCGCCCCTCTATGGTGGAAATGTTAATGATATCG
CGCCCTGATTTTCGTTTGGTATTAAAAGAACTGAACCTTGAAGATGATGT
GAACATTTTTACAGTTTTGAACCttctcagctggcacacaacgttgtttc
aacgttcatttaacattatatggacgttgtgaacattaatAAAGGTTGAA
ACAACCTTGTTTGCCAGCTGATGTATGATGGTGATGGAGAGAACACACGA
ATCTCGAGAATCTATTTCAAAGGTGGCAACAACGCAGTGAAGTGGTATTT
TGAACAATAATGCTCGTTAGATGCATAAAAAAACTCTGACTCAATCCAAT
ATTTGTTTCTGTTACAGTTCCAAATTGCAAAAGTTGGACAGACTGTCAAC
GAAGATCTTTCCTTAATCTAACTCAATCATATCATTCTCTGGGATTTGAT
AATGTAATTCTTAACTTGTTTACTTTTGTGTCAACCTAACATTGACTTAT
GGGTAACCTAGGTTTAGCAACTTATTCTGTCCTCTTAAAATTTACCTCTT
TTGTGCAAACACGTTAtccgaaagaaaatttgagtatCGGAACTAGACAC
ATAAGAGCCTTTAGCGTAAAAGATTGTTAAAAGAAAGGCGTTAATTTCTT
GTAATACTTTGTTTAGCTTTATTATCAAATTATCCGTTGTTGTCGATAAC
GACTTACAATCTGTAAAGTTTCCTTTATCGACAACAAAGGATATTTTGCC
AATAAAGCTAAATAAAGTATTACCAGACATCCAACAACATTCAAACCAAT
CTGCCATTAAGGCCCTAGAGTCAATGATGAGCTCTGTTTGTACTCTAGCA
GAAAGTACAAGTATCTAATATGAAAGGAGAGTTTTTATCAATTTCATTAG
ATACCCCTTGTTAACCCTTTAAGTGTCACGGTCATTTTTTTTCTAAGTTT
TTTAACGAAAATCGCTAGTTCAAACTTTAAAGGCTTATATCTCCGGATCT
AAAAGGAGTTAGAAGCTCGTTCATAGTCCGTTGGATAGCTTAGAGTCTCC
CCTTTTTCTTAGGCGCCGCCCGATTTAGGAAGGGCGGGATGGGCGTCGGC
TAAGGGGGGTAGGTAAGGGAAATTATAGCGCTGCGTGGACCTGACTGAAT
GATAGAGAGGTGCCGGGTGGTAAAACTTCAAACTATTTCGCTAATTCACT
AATTTTGTTTTTTTTATGACTTTTTAGCTTAAAATCTCGCTGAAAAGACT
CACTTTTGATTTTTTTTTTTTTGCTTGGCCATGAAGCCCAATGCGATTCA
TACGAGTTAGACCAAAAATGACAATTTCTAACTCAAACTAAGAATTACAG
GAGGGCTTCGCCCTCCTACATAGCCCATGTCTGATATATACGACATTGGC
ACTTTAAGGGTTAAAGATATCAAATGTAAATATTACTCTAAAAGTACCAA
AAGAGTGCTAAGAAGAGGCAATTATTTAAAATATAACGTTTTTAAAATAT
CAGATACTGTGTAACACAATAATAATTTTAAATAAATATTGAAAAAATA
Run BLAST on NCBI

protein sequence of TCONS_00016961-protein

>TCONS_00016961-protein ID=TCONS_00016961-protein|Name=TCONS_00016961-protein|organism=Clytia hemisphaerica|type=polypeptide|length=310bp
MTDDEHTQSVACMKIVFEKELRLGMYRHWSLFESFMNSRYTVCGLRLFTM
KGRKRLHELFADIGLPIVQCKQKYSSMDVEIRKDVKGWIEGIAEKYGMDD
ISFGSFASQYGYKTKICAEDMVCAISALLEYAREDISFSDQFVDALDALN
RSSIDQLNGAIELGKKQVSSMVSQVRSFIDSHQIACAGPFLYAHILEGSP
TAYIFAKPCIIGRLARFTLEVYSTMTKQKKARSLPFVLAVPSDLEEGMSL
LVGVPPVGESSIKSFFGAAFKQAGEKTRSRVRHDFFDPTVIEIKTEDRSK
FFDNLAALMA
Run BLAST on NCBI

transcript from alignment at sc0000255:868..22689-

Legend: exonfive_prime_UTRCDSthree_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
>TCONS_00016961 ID=TCONS_00016961|Name=TCONS_00016961|organism=Clytia hemisphaerica|type=transcript|length=21822bp|location=Sequence derived from alignment at sc0000255:868..22689- (Clytia hemisphaerica)
TCTTAGAGAATATTGGTTTTAGTTGCACTCGATGTTGATGCATTATGTGC
CTGCAGAATAGTTAAGGTAATTGTTATTTAAAATATGTTTTATTATTAAT
CTCTGCTTAGGGGTCTTCTTTAATGAAATGAAAAAGTTACTTTGAAAAGT
AGGTTGAATATGTGTTTGTTCTATTGAGGATTGCATCATGACATGAACCC
TGCAAGTTAAAACTTTTTTTAATCAAATTGCATATCTTTAGATGAGACAC
CAATTTTTTTGACTCAGGAAATAGAAAAAGCCAAAGGCAATAAGTTTGCT
ATCAGCTAAACAATTTTTCCTAGAACTTGTTCCAACAAGACAATGTACAA
TACACAATTGTTCCTGTTTCTGGGATTGACAACATCAAGGAAGTCTATGA
TGAACACAAGGAACAAGTAGGTGGATTTATTTAAAGCTCTCATGCATTGT
TTTTTATAACAGCAATTGTTTTAAAAAGTCAAGCAGAATTGGTTGAGTCT
GCTAACTGACTGACTAATACACTTTGTATACTCTGTTTTTTATACAACAG
CTATCTAATAATAGTCTATGACTAATATTGTTTTATTAATACCTTAAAGG
TAATCTTTCGTTGAGAAATCCAGTACTTGTATATTCAGACAAAAAAATAA
TGAAAGGTGCTGTGGCTAATGAGCATTAATTATTCCTTATATATTTTGCT
CAAATTTAAAAGAATTTTCTCCAGCATTATGTGATTTTATTTATTTTATT
CTAATAAGTATACAGAAGGATTTTATCATGCTGAAATTTCATCAAACAGT
ATCAAAATCATCTTTAATTTATTTTACAGGACTTTTTTGATTCCATGCAT
GACTAATTGGTTTTTTTTGTTTCAGATCAAATATTTTCTCCTGATCAACT
GTGGTGGAAACATTGATTTTGATGTACTTGAAGCTGACGAAGACTCCACT
TTCTTCATTGTTGACAGGTTCGGTTGTTTGTTATCCTAGAAGTCTTATCC
AAACAGATCCAAAAGTTTTTTGTTATTTTTGGGTTGAGTTGACTTAATCC
ATAAATGAGATGGGCTCTTATCAAAAAATAATTATTATTTCTTCTAAATG
TTTTTGTTCTTGCTTTTGTATGAAATAAGCAATTTAAAGGAAAAGCTTTG
TTTTAAATAAATGCTTTACTAGCCGTATAGTCGACGTTCCATTTTATTTT
ATTTTATCCAAGATCTTGTAATTTGTGTTAAATAATATTATGACCAGTTA
TGACCATTGACCTCAAAAGTGACCCAATTTCAAATTCACCTCTGCTAACA
AAGTATTTTCCTTCCTTCCAGTCATCGACCATTAGATTTAAATAATGTAT
TCAAGGAGCAAATCAAAATTCTGATCAAAGAAGGAGATGCAACAATCGAT
GAAATTCCTGACCCTGAAAAAGTCATCGAATATGTAAGCCAATCAAACTT
CTTTTATTGCAAAAGTGAATCTCCTCTTTCAAGTCTGGCATAACTTTTTG
CATAGAATTTCTTTAGCATCTGAACTGTTAGTATGAACCACTAACGTCAC
TTTGTTAACACTTTTTCCAAAGAAGAACCTGTGTATTAGACCACGTTTGA
CACTACGGTTGTGTTAATTGCTCCAAAGCGAAATGAACCCAATCTATTGG
TTAAATTCAAGTTTTACTTCATTTCGCTTCAAAGCAAAATGGAACCGTTA
CATTCAAACATGGCCTTATTTTTTCAAAGCTATAAGTTTAAATTTTAAAA
CTCTTGATAATGTTCTACGTTCAGTGCAACATTTTCTCATATATTCTCTC
TGTACTTTGCTTCAACATTTTTTCATTTTTTGTGGTCGATGGAGGCCGGT
CTGGGTCCGGACGCATCGAAATGGCCGCTATATTAACTGGACTTGTTGCG
GTCATTCGGTAAAGTTTCACCGGTCATTTATTGGCCCTTAAAAGATTTTC
AGGTACTTAGAATCGCTTGTGGAGTCGCATGATATGGACCATTGCAATGT
TTTTTGGCTTTACAACACAGACCCAACAGTTGATTGGTTGTAAGTGACGT
AAAGTCAAAATGTCACTTGTAATTAATCAGCTGTTGGGTCCATGATAATA
ATGATGCATATCATGAATCCCTTTCTTTCCCACAGGAAGATGATAACGAA
GGTGAGGAGGAAGAACAGAACAAGGAAAATGAGAACAGCGATTCTGAAGA
TGACAATCCTGATGAACCATCTTCAAAACGACAAAAAACCAGCAATGTAA
GATATCATGCAGTATTCTATTGAATTAAGAGAAGGTTGAATGGTTCCTTT
TCTGTATAATTAAATACATCTTATATCTGACTAGCAATACATAGTAACTT
TAGTTTGACGGGGTAATCTAATGGTTTCTTGAACTGATAAAAAGTTTTTT
AATCTTTGAACAATCATACCAATTAAAAATAAGATTTTACACGTATCAGA
TTAAATTCCAATTTAAGTTTGAGATAATTGTTTATCATTCAGGTTTCCTA
TCTGGAAAAGCAAGTCAAAAAGAAACGTTGGGCCACTGAGAGGTTTGTTT
TAAAATATTTTTGATAAAAACATTATATAGAAATAAAGAGTAAGCATTTG
ACCATCTTTCCTTCCTTTTAATAAACGTCAACTCGAATAAACACAATTCA
AAAAGCTAAAGAGATTAATAAACGCCCAAACTGATGAAAGCTTTTCTGTT
TTTGCTTTTCAGAGAGAAGCTTCTGGATGAGTATTATGAATGTTCTTATT
ATGGATCAAGTGTATGTATAATTATAAGTCGCATTTTATCGGATAATAAG
TTTTTTTTGGCTTTCAAACTATTATAACCTGTATTTCAAAAATTTCCTGT
AACTTCGTAACTTTTTTAATTAATTTATTTCGTTTTTAAAGAGTCACTTT
TCCAGAATCATTTCAAAAACACTTGTTTATAGAATTGTTTTCAAATAAGA
TTATTGTATTAAAATGTCAAAAAGTTTCAAAATCGTCAATAAAATTATTA
ACAAAGGTACCCCAGGGTGATGGAAAACACCCCCTGATGAAAATACGGTT
AATAAATAGATCATCAGATTTTCCAGGGATATGTTATAGCGGAGCTGGAT
AACGCACATTTGAAAAAGCTTTGTTCTATCTCTGTCCCTGACATTAAAAT
TTGATATGAAATTCAACTTTTTTAATTACAAACTCGTGAAATATGGATTT
CCTCTTAACCAATGATTCTGCTGCTGCATTTATCCTTCACGATTAAAAAC
TTTTAATTATCAAGAGGGTCTGTAAAACATTGGTAAATGACAATTTAAAA
AAATGACATCGTTTCATTAGTAAAGTTATAAGAAGCTTCTTCTCTAAGAT
TATAAATAGTACTTTTTCATTTGAAATACCGCGCTACACCGCGGGGTGCC
TCACTTTCTAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAACTGAT
ATTTTCAGATAGCAAGTCGGTATGTCTGATTATGGAAAAAATTTCAAGTC
AATTGAAACAATATTTGTCAAAATATTTACATCCGAAATTTTTACAGAGA
AATCATGAAAGCTTCTCAAATTCATAACTCACGCTGATAAAAATAGATTT
CATTTACAAGGAAGCTTTTGGGGTATCTTCTACAAATATTATTTTGATGA
AAAGCGGAAACATCATAGCAAAATATGTGCAAACGTACTGCATGAATACT
TTGTCTGCTTCATTTTTCCTATAAAAACAGAACACTCAATGGGACAGAGA
TGGATTTCTATTATCAACAGTTTACAATAGAAAAGACAAAGAAGCAATCC
GCTAAGGAATTCTCGTCCTTCATCCAGCTCCGCTATAACATATCCCTGGA
TTTTCTAAGTTAAATTATGATGTTTTTTTTGTTTTAGACTGCGTTGACTT
TATACGATTTGGCTTGGAAGTTAACCAAAGATAACAACGACCTCCTATGG
TGAGAAAAATTCCAATAAATTTTATGATACATTTTCTCAGGTATTTATTT
TTAGGTAAATTATGTATATCGGCCACCATTTTGCTACTAAATTCCATTCG
CTTAGTGCACACTAATCTTTGTTTTGCTTGCTATTTTTCAACAAATGCTA
CAATATTAGCATATTAGATTACATACCGTTGGAATAATGATTTAGAGCAC
TTTAATTTCTGAGAAAATAAAAGCCAAATTTTTCTTTTTTCAAATGATAC
TTTGAAGCCTCATTGACCACAAGTATCTTAAATCTGAAATAATCAACTAA
AACCTCCCTCCTATCTTTGTCGGTATATATTTTTACTTTTTGGCTTTCTT
TAGGCTATGGTTTTTTTTTGTTGTGCCTCGTAACATTGAACAAGGGTTAT
TGTTTAGGATTTTGCATACAATTGGTATTTTGCTAGAGCGAATAACCTCT
TTTGTAAATTATAGCTTATAATAAGATTCCAACACAGCCCTTTGTATTAG
TTCATTATGTCGAATATAATTGTTGTTTTGTATCTATCTAAGGCTGGCAA
TCGTTGGATTAACAGAACAGTATTTATTCTCCAAAATTGAAGGGTAAACT
TTTAATCTTGACTGATCTCTCTATCGATGTTGTTTCAAAATTTGGTCCAT
TTCAACCTCTAACGTTGCTAACAGAACCCATAATAAATAATTCTGTCATC
ATTAATCGTTCTCCTGTTTTGTCTCCACTNTCCTCTAAAATTGCAGGCAG
AACCCATAATAAATAATTCTGCCATTAAAAATCGTTCTGCTGTTTTGTCT
CCACTGATTTTTACGTACCCTGGACCTATATCTGCCATTTTTGATCGGAG
TTTTTTGAAAATTGTACCCCATAATGATGGGTTAGTTTATAATAAATCAA
TGTAATTTTCTGTTTAAAACTTTTTTTTTACCCACGTTGAGTAATGCTAC
CCTTGGGACACCATTTTTTAAAACTATGACAGGACGATCAGAGATTTTTC
TTGACCGGTATCTTTTGTCCAGGGTATATAAAGATTAGTGGTTGTCTCTT
CTTTTCAAGTGAGAAATATTTCGAAGACTGTACAGGGATCAAAGATCACG
TGATCAGACATAATATGACGGATGACGAACACACACAATCAGTAGCATGC
ATGAAAATCGTCTTCGAAAAAGAGTATCCTCTTCATTTAATTTTTCTTCC
CTATCCAATTTGGCACACGTTGTTTCACGCGTTGTAAACGTTAGTTATGC
CGTACATAAGTTAAAGCTCCATAAGCTCAACATTTGAATTGAATTTTTGT
TTAGAATATCTTGGTCCTTAATTTACAAAAATTGCAAAAAACGCGATTCT
TCATTGTTTGATAAAAAAATTTAAATGGTCTGACAGGGTCTGAATAATGT
TCTTTATGATATTGAATCCTTAACATAACCTTCAACATCAGATTACGTTT
AGGAATGTACCGACATTGGTCATTATTTGAAAGCTTTATGAATTCCAGAT
ACACCGTTTGCGGGTAAGTCTTATCACTAAGATTATTACTAAGCAATTCT
CTTTTTCCTTGATTTAAATGGCTCGGAAAGGAGTGGATAGACTTTTCACA
CACATATACAAACACAGAAGATACAGAATTTTTCTTGGATTTCGCACCCT
TTTGACTTTTGTTTTTCTTTCTTTTTTTTCAGCTTGCGACTCTTCACGAT
GAAAGGAAGGAAAAGACTTCATGAGCTGTTTGCTGATATCGGGTATGGTT
GTGTATTTTTTATTTAGAAATGTAGTACCTTAAGAGAAGAAATTTTGATT
ACTTCCCGCCAAATTTAGATTTATGGGCCATTCGCCAAAATTAGTTAGGA
ATATAATCAAATTTAAATTTCTTTCACACTAATCTCTATTTCTCCTAAAA
AACCTTTATTCGTCGTTTTTAAGCTTAAATATTCATCAAAAAATGGGTCG
TTCGCTAAAATTAATTCTCGCCAAGTTTGGGAATTTTATTATATCGCGAA
AATAAATTCTGCCAAGTTGCACTAAAATTGGCGAATGGTAGTCTTTGTCA
CCCCAAATGGTATACCACGAATGACGAAGTTTTCTACTTTCCAATACACG
AGGTTTTCTTAAAATTAGATAAACTGGAGCATATTTCACTAAACAGAATA
CTATTTTGTGGTGCACAAATTGATTATTAAGTTTTCCGAGGTCTGAATCG
CTGCTTCAAAAATGTTGCTTCAAAAATGCTGAGCTTCCATAAAGATTGCA
GTTATTCAACCAATCTTCAAAATAAAAGATAGCGCGTGACGTAACTAAAT
TGTTCGATTCAACACTGCACTTTAATATAACATTTTAATGACCAGAGAGT
TTACAATGTTTTGACTGCAAAGTGTCGAATAAGAATTTGAATACGTATTG
TTTGCATTTTTAATGGAGATGTGGAATGTTTTTGCAGAATAAGCAAACAG
ACTCTTGATCACGAATAGATATACTGGCTTTAAGTTAAGATTACGATTGT
TGCTACCAATCGGATCGAACCGTCGAAATATCAGCAAAAAGTCCAAGCTC
CGTATTCAAAGGTAATTTTGTCTATTCATACATCGTTCTGGCTTTTTCTC
AAACATTTTGTTTTACTTTTGAAGGTTACCCATAGTACAATGCAAGCAGA
AATATTCTTCAATGGACGTTGAGATAAGAAAAGACGTCAAAGGCTGGATC
GAAGGGATCGCTGAGAAATACGGGTCAGTAATTTGTTTGTGTCAATTTTT
CTCATTCAATAAACGGCCCCTCCGTTTTGTGACCCATAGAGACATCTTTA
ATTAGTATTCTAAAACATTCCAATTCCCCCCTCCTGTCTGTATTACGCTT
CTCAGATTTTAAGCTTATATCATTTAAAAGCTTTTCAGGCTCTAATTAAA
AGAACACTGTATGAACATTTTTTAGGCTTCTAAGCAACGTAATGTATTGT
TGTAATGTTTGTTTTAATGTATACGGAAGCATGGCGTTTGCCATAAGATA
ATTGATTGAATTCAAAATTAGTGGCAAGCACCGGGTCTTTCTTGGGGTTG
CTTCCGTATAAAACATTACTTCATTGGTGAATATCATCACGAATTTCATT
TCATACTTTTTATAGGATGGACGATATTTCATTCGGTTCATTTGCTTCAC
AGTATGGCTATAAAACAAAGGTACGTCATCGACGAAATAAAAATTCGTTT
ATCTTCGAAGAATGAAGATCGTAATTTCTATCAGTGTTGATAGCTCTTCT
ACCTCAGACGAATGTCATTTTCACCCAAAAAGGGTGATTTTGAATTTAGT
CAAATTTGGACACCCCTTTATCAGTGACCCAGTAAGATCCGCCCCAGTGG
ATAAAATGTTGCCGAAAATTGCATAGTCTTAGGTCCTGTTGAGATGATGA
GTAATCCGGTCAAAATTAATTGAAATTTTCTACCCCGGTCAAAGTGGAAA
ATGTTTGGTCTTACCCCAGTCAACAATCGTTTTGATAAGGTCTTAACCCA
ATCAAAATAAAAATAAATTTTAAAGGGGACGTCAGCTTTGGGATATCATT
TTTACCATTTGTTTAGAGAAGATACCTACAACGAAAAAAAGTGATTGCAA
AAAGAGCGAAAAAAAATCTTTTTTTTGGCTGAGTTATTCAAATTTTAATT
TTTATTGTTTTCACAGGCCCTATTACACATAAGAATTTAGAGGTAGAATA
TACCCTCTCACTCACTCTCTCACCTGTTATTCTTCGCATCGAAATCGAAA
AATTCTAGAAAGCGTTGAAATTCTTCCTCTAAGAAATTCTTCTTAAAGAT
ACACAAGAGAATTTTACGAAATTTAATTAATTCTTTTGTTGCGAAAAAAC
AAACGGGAACTCTATTATCTACTGATTTCTTTCTCTCGTTTCCAAGCTTC
TTAAAAATTATTTTGAAAAATAAGGAGGAATGTTAGTAAAATGGAGGAGG
AAGATATTTTAATTTTTTTTCTGCAACCTTAACATTGGCGTGTGCAGCAA
AAATGTTCCAGAATTGAGTGGAAAGTTCAAACTTTCGTGATAGAACAGTA
TAGGTGAAAGATTGGCTAAAAGATGGAGATAACAAGGAAGCATATGCCAA
TATTTTTCAAGAACTCCATTTGAAAGACAAGGAAAATTTTAGAAGATATT
TGCGAATGAACACAGAAACTTTTCAGGTAAATTTCATTGTCAACTGTCGA
GGTCTCCACTCCCATGCCTCACGTTTTTTGGCAGGTGACGCTTTCCCTCT
TGTGAAACACTGTCTTAAACCGTAGTCTTAAAGTGGTTTGACACCAATGA
AGCGAACTTTCAATTATCAGTTATCAAGGAGAGAAACTGAAAATGCGTTC
GGAGTCTTGGCCAATCGTTTCCGTGTTTTTACCACGACAATATACCTAGA
TCCTGACAAGGCGACAACCATTACGTTTGCTACTCTAGTTTTGCACAATA
TGCTTTGTGAATTTTCAAATGAATCCTATCCTGAAGGCTATATCGATAAA
GAAGCAAGAAATGGAAGCATCATCGAAGGGGAATGGCGAGAGGAGGAAAC
CGAGTCAATTTTTAAGAGGATGCCAAACTGCTACACGCGAAAGCCAAGTA
AACATCGAGAGGAGATCATAAATGCATTTGTGGAGCATTTTTGGGGACCT
GGTCAAATACCTTGGCAATGGAAGATGATTTAAATCCCTAAATTGTTTCA
TAATACAGGTCGTATTTTCTTTATAGTTTGCTATTTTATTCGTAGATCCA
TGAGTAATATGTATGAATATATATGATTATAATGACAATTAATAATAAAG
TCTTCTTACAAAAAATACGCTTGAAGCACGTAAATAAAAAATAATTTCAA
TTCATAGTTTGTGATCAGTTCAACGGAGTCGAGCTCGTAAACGGCCTGGG
TGGGTGGGTTCGGGTAGGTGTATGTAGTTCAATTTGTTGCGAACTGCCAA
AGTTTAATGCATGCAATGGGTTTCGGTTTTCTTGTCCTCGGGGCTGGATA
AAATTGTGGGTGGTTTAGTGATTCTGCCGTGATCTGACAAAAGGAAGTAA
CCATCAATTTTTGAAAATTCATATTTTTGCAAAAATCAACTCCTAAGAGT
CCAGCTTGTGTTTTCCAGTAGTTGATTTCTAGTAAAAGACTTCTTTTTAT
GAATTTTTTTCGGACTAAAGTTTCATTTTATTTTCTGACAAAAGGATTTT
TATAGCCTGAAAGATGAAAATTGCTTGCAATATTTGCAGTTTATTTTCTG
ACAAAAAGAAGTAACTTGAAAATGTTTAGCTTGAAAGAGCTTGATTAGAA
TAAAACTTGTGTAGATTTTCAAAATCAAGATGTTAAACTCCTTTTAACTC
CTTCCTTTTAAATATTATACTATTCTAGGTTTTGGTCTTTCACAATCAGC
AAAAGTTTTGATCTTAAAACGATACCATTATTAATCTTAAACAAGAAGCC
CAAGGGCATGAAGGCCCAGCATTAAAAGTTTTGTTTCTAAATAAGAGTGA
TAAAGTTTGCTTTAAAATCATCAATTTTAATTTACAAGCTTTTTTATATT
GAATTGGCACGAATGTGGAGCAAGATTGGTCAGAAAGAGGAAGAGAAAAA
CATTTCTTTGCTTATATTAGCACAATATAACAAACTGATATGAAACATGT
GTCTAACATGAAACGGGAACACTTATTTATGTAAAAATAAAACTTTTGAA
AAATCTTTAACAAACATGATTGTGTTAAAGCTCTAACTAAAGGGAGCAAA
AACAAATGATAAAAAGTAAAATAAAAAAGAAACTAGCCTCGAAAAATCTT
TCCTGCAACCACAGCGGCTGCAACCTCGACAGCAGCACTCAAAAAATGCA
AAATTTGTATATAAAAATGTCCATAAAAACTGAACAATTTGGAGTTATTG
GCTGAAATTTTGTACAGTGACTCACTTTNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAGATAAATGTATCTAAAAT
GTCCTTATTGTTTATTTTTTTAATCATTATGATATGCTGAAATTGTGTAC
AAAATTTGAGCTTTTTAGTTCAATTTTACCAGGTGAAACAGGCAAAAGAA
ACTTGCAAAATCAGACAAAACCGCAATACAAGCTGCAACATGGAGAATGC
TCAAAATGCCTTGCAACAACTTTTTCAAAACAGTAGATTTGAGCCCGGCT
CGAACCACCAAAGTTATTTGTCAGTGATTCTGAGCCTGGCATGTGCTACC
AAGCCGCTGCAAAAATTTGAAATTACAAACTCCTACCCCTACCATGAGAT
CCGGTAACTTGCATCAGTGAAGGCTAACATGGTCATGCATAGCCCTCAAA
TGACTGACCAATCAAAGCAGCAAAATTTCAAAACAAATGAACAACGCAGC
TTCGCTCGCAGCTCTACTCTACCATTTTTAATAGACCTTTTTTCAAAGAG
GCCGCCCTNGCTAACATGCATAGCCCTCAAATGACTGACCAATCAAAGCA
GCAAAATTTCAAAACAAATGAACTACACAGCTTCGCTCGCAGCTCTACTC
TACCATTTTTTCTGTTTTGATTTCACTTTGCTATGCATGTTAGCCTCCAC
TGATGCAAGTTACCCGACTTCACGGTATATTGTACAAAAAATTTAATGTG
GGAAATTTGAATTTATCGCTGTCCTCACTTATTTAAATAAAAACCATATT
TCTGAACTTGCGTTTTCTCTTAAAGAGTGTGACCGTTGAAAGAATTTGTT
TCGTTTTCAACTTTGTTGAACGGAATTTTTGTCGAATTTGTCAAACATTT
CTTGTTGTCAAACTTTGTTGAACAGAGTTTTGGTTGAATTTGTCAAACAT
TTCCTGTTGTCAAAGTTTAAGTGGAACTTAATCGAATACTCACAATTTTA
GTGCAGCAACCTTTAAAAATTTTGATTAATTATGTTGTCTGGTATATGTA
CTGAACTGATGTAAACTAAAAAAACTGAGCATGATAGAGACTCCTTTAAA
AAAGCTCAAGAAATATAAAATTTCACCATAATTTTAGGCAGAAAAAGTAT
CAAAATATCCAACAATACAAATAGAGGCTATTCTAGTCAACCTTTTGCTG
TTTGAATAAATTTTTTTGTCGAATATAAAAGAACACACATTTCGCACACG
TTAAGTTAATAATTATTCTGATAAAATGCTTGATTCCTCTTAATCATCAA
GGAGATAGCAAGAGAGTAGTAAGCATTACATAAGAGAACATACCTGTAAT
AATCTGGTTGGTGTTTGATGAGAAAACATCGATGAAAACCCTCAAGCAAA
AATCAGTTTAAAAAATGCAACTTTCAAAATAGTCTTTAAAAGCTTTTAGG
TCAATAAGTATGAGCATCCACTTTTGTGGGTGCAAGTCAGAGCTACACTT
AACTAATTGAAAAACATTTGAAACAGTGAACTTTCCTTTATAAGTCTCAA
GGTCCATAAAGAAATCAAAACATTGACCGACAACCAAAATGTGATTTTCA
GGCGCCATCTTGGATTCCGTTCGGAGCAAATAAACCCACGGCCGCAGTAG
AATCGATATTCTTTACAGCACGCAGCCTAAGACGACCCGAGCAAATCGAT
TAAATTTTATGCGAATTCCCCCGATTGAATCGCACCAAAAGAGCAACCAT
GGCACGGACAGGAGTGAGGACAGAAAAACAGAACACGGCACGGACTGCGG
ACAGACAGGACAGACACACGGAAAGTTCCTCTTGAAAGGCCCCTTCGCTA
GCGCTGGGCCAATAAGGTCAACTCGAATGCAATTATCTCAAAATAAGAAA
AATAGAGTTACTTCATTTTGTCAGATCACGGCAGGATTGTAAAAGCTAGT
CGGTCGAGGCATTTGTTGATTAAAATGCAAGGCCTGTGTTTTGGAGACAA
TTTCTCTTTTACATCGTATGACTACTTGTTGTAAGTTGATTTTCAAATCC
TCCTTCAAATCACACTCAGGAATTTGTTTAATAAGACCAATCAAAAGCTT
TCCAAAAATGTCATCTGCGTCATCATCGGACGATGTTTGTGGTTTGGGTT
TGACATTTCTTCTGGAAATTACACATTCGAGAGCTTTGCTTGCATTAGCC
ATAACTTTATGCAGTTCGTTATTCTGAGTAGCAGCCGTCATCTTAGCTGA
TTTAGCATATGGAGGTTTAGCTTCTTGATAAGGAGAGCCATCATCTTCAA
CAGTTATATTAGAATCAGGTTCATTTGGGCAATTGGATTTAGTTCTTCTT
GGAGTAAACGAGTCCTTCAGAAACTGTAACGCATTAAAAAATTTCCACGT
TGGGACATAAATTTCTCCTGTTTCCATGCCACTTGAGACCGAATCTTCAA
CCAATCTTTTCTGGCCTCCATAATAATTCTTAAGGTCGGTCAGTTTCTTA
GCAATTTGCTTGCCGTTAGCAATAATATTTCTTTCCTTAAGCTTATTTTC
AACAGAAAGCATAGCTTTGAGTCTGATATCCTTATTGAAGTAGTTCTTGT
GCTTCGTGTTATATAAGTTTTCGAAACTTGACCAGATATCTATCAAAGTG
AACACTTCCTCGTTTAACCAGTCTCTCGATGCTTCAGAACTTTTACTTGG
TCGACCAGCTTTCTTTTTTGATGGGACTGTTGGTGGAGGTGGAGGTGGGG
GTGGTAGCGAAGGAACTAGTGATGGTGGGGATCTATCATCTGTATCTTTT
CTGGTAGAATGAACTTGCTCGACATTATGGTCTCCATTGATTTCTGTATT
GTTTTGTCCAGCATTTATCTCAAAATGTGGTTGAGGTGGTTAATGTCCAT
CTCCCCTTAGATATTCGTCACTTGGTTGTCTGAAAATAAATTAAGAAAGA
GCCTCATCATAAATAGTTCTGTAATTGATAAATATATTTAATTTTCAATT
TAATTCAAGCCTGAGTTAAATGCGATTCTCAGTTTAAGCCCTTTAAGCAA
CAACAAACACTGTGAAATAAAGACATGATTCAAATGAATACATAGTAAGT
AGTAGAAAACGTTAGCAGTAAAAATGTAATAAAACTTACATCATTATGTT
TTGTTCTCTCAGCTGATTGAAAAAGAAACCCTTTTGAAAATCTGTCTATT
GCGAGTCTGGAAACATCAAATTTAATAACGCTTACAAATCACGAGCCGCC
AACGCAACTTGAATGAACCTCAAACACTCTCTCTCTTCTTTTAATCTTTT
TTATCTTGTTTTGGAGTTTTTATTTTTCATGCGAAGCCACATTCCTTTTA
AGTTTTTGTTTACACAGAGCGCTAATCCAATTTTCAATAGGTTGCTCGAG
GTTGCTATTGTTCAATAGAAATGAGATTAGGGAGATAATTTTTTAACTAA
TCCTTTATGATATTCTTCAACTAAATACACAGGAAAATGAGGGAAGAATT
AACAAAATTGACAGTATTCTTCCTCTCTTCCTCTATATTCTTCCGTGTAA
TGGAGCCTTACGATGGAGAAAATAAACGAAGGAGAGTAAATTTGTGACGT
AGTGTTGTGTTTCTGTTTCCCCTCCTCTTTCTTTTAATAACAAAATTCTC
CAAATAACCGGCAAGTACATACCTATTACTTACTACCTACTGTAAAATAG
CTCAAAACGGCTCGAAATTACCTATAATATTCAGCATGTTAAGATTAGCA
AAATCGGAAACTTTGGTGGTAAAAAAGTTAAAACTTCTTCTTTTATCGTA
CTTTGAAGACTTCAAAATATATTTTCTCTTTTATTTTGTTTATGACTTTT
TCCCGCGCTTTTTCTATAAAGTTTACAGACACACTTCTTCGTAGAAGAGA
AAAATATTTCCTTCGCGCAATAACTTATTTATTCATGTCAGTTTTATGGC
AGTTTTATTTATAAGNTATTTCCTTCGCACAATAACTTATTTATTCATGT
CAGTTTTACGGCAGTTTTATTTATAAGAAATCGATCAATCTAAAAAATTG
AAATACTTTAAGTAAGTAGAGCCCTATGTTTCACTGGGTACTTGCTGAAA
ATCCTTTGACATGTCTTGACATTTATTGACAAAATGACCCTTTTGAACCA
AACTATTGACGGGTTGTTAAATAGGACCTTTGAAGACTTCATTTTATGTA
GCAGTGCCGTAGCACAACAATTTTTTCAAAAATAGTTATTTTGCAAAATG
CAAAGTTTTTCTTTTTTAATTTGTCATAATTCTTTTAAGTTTTTTTTAAG
TTATGAGTGCATTTTCAAGCAACCTAGAGCTCAAATTTTCAAAATTTCCC
CCCTCGGGCCAAACCATGGTTAGCCCTCGACACCGCCGTTCTGGTCTGTA
AATTACTCCTATGGCTTATTTCACGGACCCAGTCCATTTTGAGATGCATA
TCATGATGATTTTTAGAATCAGTATGAAAAAACCTTTCCAACGGTATATG
ATATGACATGTTTTGGAACAAAAATAAAATCAATTTTCGGGCATGCAGAC
TGGTCTGTAAATTACTTCGGTAGCCCATAACTCGGACCCAGTCCATTTGC
AGATATATGTTGTGATGTTTTTTAGAATCAGTGTGAGAAAACCTTTCCGA
CGATATATATCATATGACATATTTTGAAGATAAATTTTTTTTTTTTGCCT
GGGAGGCATTCTGGTCTGTAAAATATACAAACAGGTGTTCCGGAAGTGGG
TCAGAGGCTTAAAATGTCTCTTACCCCCTAAGGTACCACTGTACCAAATT
TCATGCTTTCTAGTCAAAAATGCACAATTGTATTTATTTTTAGCACACTT
TCCCTGGACTAATTCATAAAAAAATAATTTAATATCTCAAGGGATGTGAT
CACCATGGGAATTTTTTGAATACGAGGCAAGTGGTGTCGGTGACGTAATT
TATGAAAAGGTCTATTCATCAGACATGTGGTCACTTTCGATTTCAACGCT
TTTGATAATTATGAATAATTAATAATAATTACGTTTGTTACGTCAGAGAT
TTAAAAGGAAGGGAAATTTTCAAACGCCTATTATTACGCATTGAGAAAAA
AACTTATAATATATAGCTCGTTTTGATCGTCTTGTTCTAAATTTTCTAAA
TGTAACCAAAAATGTGTGGTAAAAATTTGGGCTGACCTCCCCTTTCATGG
ATTCAAGGAATAATGTATGAACGTGTATTTGTTTTCCCTACCCCTCCCTG
TGGACATTGAGCTAAAAGTTCTCGCCCCAGTAAGTTGGGATCTCGAATTC
AAACTCAGTGAAATTTTACTTATTTCATTGCCAACCTAGTAGATTTCAAA
ACATAACCTGGTCAAGTCTATCTTCCGTCTAAGAGGAAAAAAACTTAACG
TTGATTCCGATTTTATCATTAATTTTTGAACTTTTTAAAGTTAATTTTTT
CTTGGGTTCTATTCAAAAGTTTAACATCATTGTCAACATTCAATACTCAA
TATTATTTACTACAGTTTTGTACTTTCAGCCAAAAAATTCACATTCATTT
TATCATAGATATGTGCTGAAGATATGGTTTGTGCCATTTCTGCATTACTG
GAATATGCTGTAAGTTTTCTGCTCATTGTATATTGTGTGTCACTGGTAAG
ATTGTATCCCCTTTCCACAGAGTTCGGTGTATTGGGCTTTTCCAGAAAAA
AAAATTGAATATTGGGAATGGTGGATGAAATATTTTTTCGAAATCTACCC
CCCGGACATTGTGACTTTTGACCCCCCAGACAGCAGGTCTAACCCCCCGG
ACAAGCATCTTTTCACCCCCTGGATTTAACATTACCCTCAAATAAAGTAA
AATTACCCCCAATCAGAGCAAGTTTACCCTCCGGAAAAGGTAAATTTTGT
AGATTATATCCTCCACCTCCATGTACGAACATTTTCTGGAAGAGCCCATT
CTCTCTTCGCATATAACTTGAGTTTGAATACATTTTTAAGAAACATTTAT
TAGGAGACCTATTGAAGTCTATCAGCTTCCTTTGCCAATAAAATTCTTCC
ACCTGCTTAACTTAAACAAGATCTGTAGGCTGCCCCATGTCCCATAACAT
ACTATTGGGAAATATTCGGACGAAAGTGAACAAAGGACTATTTTTTGTCG
ACTTTTTTTAACGTTTCTCAAAGGACTGTTCAAGAATATTGATATGGCTA
CCCAAAGTAATTTTAGGATGAATGTGCACTGACTTCTGCATATTTTGCCC
TATGAGTTTTAGTAAAATTTAGACTAAAAAACTCGTGCTTGTATTTTCCT
ATAACAACATTATACTTAATACAAACTAATTTAATGTAAATCTTTTTTTC
CAGAGAGAAGATATTTCATTTTCTGATCAATTCGTAGATGCTTTGGACGC
ATTGAATAGGTAAGCGGGAAGTAAATGTCTTGAAATATATTGAAATATAT
TGAAACGTTTTGAAATATATTGAAACCGAAACTGATCTAGCCTGAATTCG
GATCGATAAATGGGTGTGGCTTAATCGGATGCTGTGGTTTACACCTCCGT
CTCAATCAAACCAATGTTGCCAATGGCTGGGATTATATTTTTACTATTTA
TTTGTGAAAAGTGTATATTTCTTTTCAATTCTAGATCAAGTATAGATCAA
TTAAATGGAGCAATCGAGCTAGGAAAGAAACAGGTATCTTTTCATATTTT
CTTCTAATATCAATAGAGAATCTCAAAAGATTTTGGTAGGAAATACATCC
CCTTTTTCAGCCAGTGGGGGTGAAAATAACGGGTTGAAATACAATGGGAT
TGGCATTTCCATGTTTTTTTATGGCTGGGAATCTTTAATTCCATTGTTTT
CATTTTTAAGCCATAAATTTTGCTATTTTGATTATTTTCAGCGGGGAAAT
AATTGGAGTATAACTTTCTACTAGGGAAGATATTTTGACCAATTTTTACA
GTGGGAAGGGGTCCCAGTGGGTCTGTGAGAAGAGGGTGTTGAAGTGAAAC
CCAATTCAAAAATGGATGTTTTGAATTTATCCATGACTTTGTACACAATT
TGATTTATAAATTGGGTAATTCTTCTCAAGGACTTCATGAATTTGTTGTT
CTTTCATCTTCTAGGTGTCTAGCATGGTATCACAAGTTCGATCGTTTATC
GATTCACATCAAATCGCATGCGCTGGCCCATTTTTGTATGCTCATATTTT
AGAGGTATGTGACATTTTCTGAAAGGTTTGCCCTTTTTCTATGGTTTCAT
TGTGGTCTATGGACAAAGATCACGCTCAAATGACGTGATTCCATGTAATT
TTGAAAGAAAGAGGAAGCAGTGCTGTTCTTTAAGAAGTTTGTCCTAATTT
CGGACAGCTTCATTTCTTTTTGGTTAGATAGAATTCATTAATCTTTATCT
ACTTAACATTTAATAGAATAGAATAAGTAATTGAATGAATGAATGAATGA
CTAAGTAAATAAATGAACGAATGAGTAAATAAATTAACAAATAAGTAAGT
CTTTTATTAAAAATCTTTTATATGACCCTCTCATATAAATTTTAATTTTA
TCTCAGAATTATCCAATTCAAGATTACTTACTTTTGATTAAATTTAACGC
AACAACAACATCTCATTTCTTTCTCTTCTATCTGTAGGGATCACCAACTG
CTTATATTTTTGCAAAGCCTTGTATCATTGGTCGATTAGCTCGTTTTACA
CTGGAGGTGTACAGCACTATGGTACGATAATTAACTATGTATTCGGATGT
ATTTATCGTGCCTCTGGTATTTCTTTTTCATGTTTCCTTAATTTGATTTC
TCAACGGAACCTCGTTAACCCATTAAATGCCTACCGATACAGGACCGAAA
AAATGAGGAATCTCATAATGCCAGTGACACTTAATAATGGGTTAAGTCTC
CCATCCCATGCTCCCTACTTCATTAGAAATATATTTCCTCTGAGTGGTAA
TTCCTTATATTTATGCTCTCCTGTAATGTCAAGTTTGAATTTCATATTGC
TATATTTAGTGTGTAACTTCATAGTCAAGCTCAAAAAAATTGAATTCGAG
CTGTTTTCAGTGATTGGGTTTTGAAAGTCAAAGTTTTCACCCGTATGATG
GCATCCCGTTTTTCTTTTTCTTTAATAACTTTAGTCGTCATGGTCACTAT
CTAAATATTTCGGCCCTGAAAATTGAATTCAGTAAGAATCATTTTTCTTT
CTTTCTTTCATAGACCAAACAAAAGAAAGCAAGGAGCCTACCGTTCGTTT
TGGCTGTACCCAGTGACCTGGAAGAAGGTATTGTACAGTTTATTAAGTGA
TCCCAGTGTATCATAGGCTTTATTATCCAGGAAGGATTGTACGGTAATAT
CGAAAATATTTTTAAGTCGTCGATACACTAAGAACCAGATAACCGATTTT
ACACTTTCTTTTCCTTTAGCGTTATACAATTGAGTCTCCGTAACTCAGAC
ACGAACGGGGAACCCAAATTTGTTCGAGTTAGGAGACATTCGAGTTATAG
AGGTTCGAGTCAAAGAGACTCTGCTGTAATAGTTCACTTTCTTAATTGTT
TATATTTATTTCAATTTATTCAATTTCTTTTAATAGGAATGTCTTTATTG
GTAGGAGTACCGCCCGTTGGTGAGAGCTCAATCAAAAGGTACCTGTTCAT
CATAATTAAGTATTTTAAGAGGGCTCCTTGACGGGGATTGAGAATTAGTT
CAATTATTTTATTTTTCTAATGGACTATTCCAGGAAGAAGTTGTATTTGG
GAAAGGTGACCCCTGGTTTTTATTTCAATTTTCAGGACCCCTTTGGATTT
TTCTTTTGGACCAGCCTCTCGTTTTACTGACCACCCTGGTTTTTCCACCC
ATTTTACTGACTACTCTGGATTTTCAGCCCATTTTACTGACTACCCTTGA
TTTTCCACGTAATTTTACTGACCCTGCCTGGATTTTTACATCCGAAAAAC
CAGACCAACCTGCACGTCACACCTCCTCAACAGAGAGACTATATCCCAAT
TCAATTTCCTATTTATTTAATTTTTTAATTTTTTTCTTTCCAGTTTCTTT
GGAGCAGCATTCAAGCAGGCTGGTGAGAAAACACGGTCAAGAGTGCGCCA
TGATTTCTTTGACCCAACAGGTAATGTTCAAAAAGGTCTCTTATTTTAGT
TTAGCCCACTTTCTGCCCTGCATATTCTAATTAATTAAAAGAGTAGGCGA
AAAGTAGAGAGAAAATTGTCAAAAATTTTACTTGGAAAATATTGAACTTG
ACACCAGTCAGTGTATTGACGTCAAAAGAGAGCAACGCATCGACTTTAGA
AAACCAAGTTTCTACACACTTTGATTCACAATTAGAATTGGATTAGGACC
ACTAGGATAGTAGGGTTGTTGATAGTTTTCAAAGAACATTTTTATCCTTC
AATTTTAGGTTAATGTTAAACTTTTTTCAGAAAATATAGAATTTTTTTAC
AAGTAATTTTGTCAAGAGGGAGGTGAAGAAAATACAATAGCCTAGCTTTT
TGTGGTTTCAACGATTCAAACCATTTTGTGGTATTCTTTCCTTAGTCAGC
TATCTTTGGACTCAAGTATTTCAAGTTCAAGCGATCAATAATTTTTGACA
TCCTTTTCAATTTTTCAATTTTAGTGATCGAAATCAAAACAGAAGATCGG
AGTAAATTCTTTGACAATCTAGCAGCTCTCATGGCTTGAGAAATCCCTCA
ACAAATTTGTAAGTGTTATCGTCTTAATTATGTATGGATTCTTGAAGACT
TGGTGATGGAAATTAATATGGTTCAATGATCAGGGTAGTTGGTTTAATAT
CTAACCTTTTGGATGTAGGTTTTGACAAGCCATAAATTAGACCCAACACT
GTTAATATAAGAATAAGAAACTTTTTGAATATTATCTGGCATTGATTGAG
ATATTAAATGTGACTTGTATGATGGTGGAAATGTTGTTGATAATCTATGT
TTTGATTGGATACAACTTCGTCGAAATGAGGAATCATTTAAAGGACAAAT
TTGGATTTGTTTGTAGGAAATTTATGAAGGAGAGTCTTGATTTCCTTATA
AGGATTATGGGTTAAGAAACACTCTCTGTCATAAATCTTGAACCCTACAC
CCTTTGATCCGCCACCGGGTGAAGGAAGATGTGATGCTACCGCCCCTCTA
TGGTGGAAATGTTAATGATATCGCGCCCTGATTTTCGTTTGGTATTAAAA
GAACTGAACCTTGAAGATGATGTGAACATTTTTACAGTTTTGAACCTTCT
CAGCTGGCACACAACGTTGTTTCAACGTTCATTTAACATTATATGGACGT
TGTGAACATTAATAAAGGTTGAAACAACCTTGTTTGCCAGCTGATGTATG
ATGGTGATGGAGAGAACACACGAATCTCGAGAATCTATTTCAAAGGTGGC
AACAACGCAGTGAAGTGGTATTTTGAACAATAATGCTCGTTAGATGCATA
AAAAAACTCTGACTCAATCCAATATTTGTTTCTGTTACAGTTCCAAATTG
CAAAAGTTGGACAGACTGTCAACGAAGATCTTTCCTTAATCTAACTCAAT
CATATCATTCTCTGGGATTTGATAATGTAATTCTTAACTTGTTTACTTTT
GTGTCAACCTAACATTGACTTATGGGTAACCTAGGTTTAGCAACTTATTC
TGTCCTCTTAAAATTTACCTCTTTTGTGCAAACACGTTATCCGAAAGAAA
ATTTGAGTATCGGAACTAGACACATAAGAGCCTTTAGCGTAAAAGATTGT
TAAAAGAAAGGCGTTAATTTCTTGTAATACTTTGTTTAGCTTTATTATCA
AATTATCCGTTGTTGTCGATAACGACTTACAATCTGTAAAGTTTCCTTTA
TCGACAACAAAGGATATTTTGCCAATAAAGCTAAATAAAGTATTACCAGA
CATCCAACAACATTCAAACCAATCTGCCATTAAGGCCCTAGAGTCAATGA
TGAGCTCTGTTTGTACTCTAGCAGAAAGTACAAGTATCTAATATGAAAGG
AGAGTTTTTATCAATTTCATTAGATACCCCTTGTTAACCCTTTAAGTGTC
ACGGTCATTTTTTTTCTAAGTTTTTTAACGAAAATCGCTAGTTCAAACTT
TAAAGGCTTATATCTCCGGATCTAAAAGGAGTTAGAAGCTCGTTCATAGT
CCGTTGGATAGCTTAGAGTCTCCCCTTTTTCTTAGGCGCCGCCCGATTTA
GGAAGGGCGGGATGGGCGTCGGCTAAGGGGGGTAGGTAAGGGAAATTATA
GCGCTGCGTGGACCTGACTGAATGATAGAGAGGTGCCGGGTGGTAAAACT
TCAAACTATTTCGCTAATTCACTAATTTTGTTTTTTTTATGACTTTTTAG
CTTAAAATCTCGCTGAAAAGACTCACTTTTGATTTTTTTTTTTTTGCTTG
GCCATGAAGCCCAATGCGATTCATACGAGTTAGACCAAAAATGACAATTT
CTAACTCAAACTAAGAATTACAGGAGGGCTTCGCCCTCCTACATAGCCCA
TGTCTGATATATACGACATTGGCACTTTAAGGGTTAAAGATATCAAATGT
AAATATTACTCTAAAAGTACCAAAAGAGTGCTAAGAAGAGGCAATTATTT
AAAATATAACGTTTTTAAAATATCAGATACTGTGTAACACAATAATAATT
TTAAATAAATATTGAAAAAATA

Coding sequence (CDS) from alignment at sc0000255:868..22689-

>TCONS_00016961 ID=TCONS_00016961|Name=TCONS_00016961|organism=Clytia hemisphaerica|type=CDS|length=13062bp|location=Sequence derived from alignment at sc0000255:868..22689- (Clytia hemisphaerica)
TGATCGAAATCAAAACAGAAGATCGGAGTAAATTCTTTGACAATCTAGCA
GCTCTCATGGCTTGATTTCTTTGGAGCAGCATTCAAGCAGGCTGGTGAGA
AAACACGGTCAAGAGTGCGCCATGATTTCTTTGACCCAACAGGAATGTCT
TTATTGGTAGGAGTACCGCCCGTTGGTGAGAGCTCAATCAAAAGACCAAA
CAAAAGAAAGCAAGGAGCCTACCGTTCGTTTTGGCTGTACCCAGTGACCT
GGAAGAAGGGATCACCAACTGCTTATATTTTTGCAAAGCCTTGTATCATT
GGTCGATTAGCTCGTTTTACACTGGAGGTGTACAGCACTATGGTGTCTAG
CATGGTATCACAAGTTCGATCGTTTATCGATTCACATCAAATCGCATGCG
CTGGCCCATTTTTGTATGCTCATATTTTAGAGATCAAGTATAGATCAATT
AAATGGAGCAATCGAGCTAGGAAAGAAACAGAGAGAAGATATTTCATTTT
CTGATCAATTCGTAGATGCTTTGGACGCATTGAATAGATATGTGCTGAAG
ATATGGTTTGTGCCATTTCTGCATTACTGGAATATGCTGATGGACGATAT
TTCATTCGGTTCATTTGCTTCACAGTATGGCTATAAAACAAAGGTTACCC
ATAGTACAATGCAAGCAGAAATATTCTTCAATGGACGTTGAGATAAGAAA
AGACGTCAAAGGCTGGATCGAAGGGATCGCTGAGAAATACGGCTTGCGAC
TCTTCACGATGAAAGGAAGGAAAAGACTTCATGAGCTGTTTGCTGATATC
GGATTACGTTTAGGAATGTACCGACATTGGTCATTATTTGAAAGCTTTAT
GAATTCCAGATACACCGTTTGCGGATGACGGATGACGAACACACACAATC
AGTAGCATGCATGAAAATCGTCTTCGAAAAAGATGATCGAAATCAAAACA
GAAGATCGGAGTAAATTCTTTGACAATCTAGCAGCTCTCATGGCTTGATT
TCTTTGGAGCAGCATTCAAGCAGGCTGGTGAGAAAACACGGTCAAGAGTG
CGCCATGATTTCTTTGACCCAACAGGAATGTCTTTATTGGTAGGAGTACC
GCCCGTTGGTGAGAGCTCAATCAAAAGACCAAACAAAAGAAAGCAAGGAG
CCTACCGTTCGTTTTGGCTGTACCCAGTGACCTGGAAGAAGGGATCACCA
ACTGCTTATATTTTTGCAAAGCCTTGTATCATTGGTCGATTAGCTCGTTT
TACACTGGAGGTGTACAGCACTATGGTGTCTAGCATGGTATCACAAGTTC
GATCGTTTATCGATTCACATCAAATCGCATGCGCTGGCCCATTTTTGTAT
GCTCATATTTTAGAGATCAAGTATAGATCAATTAAATGGAGCAATCGAGC
TAGGAAAGAAACAGAGAGAAGATATTTCATTTTCTGATCAATTCGTAGAT
GCTTTGGACGCATTGAATAGATATGTGCTGAAGATATGGTTTGTGCCATT
TCTGCATTACTGGAATATGCTGATGGACGATATTTCATTCGGTTCATTTG
CTTCACAGTATGGCTATAAAACAAAGGTTACCCATAGTACAATGCAAGCA
GAAATATTCTTCAATGGACGTTGAGATAAGAAAAGACGTCAAAGGCTGGA
TCGAAGGGATCGCTGAGAAATACGGCTTGCGACTCTTCACGATGAAAGGA
AGGAAAAGACTTCATGAGCTGTTTGCTGATATCGGATTACGTTTAGGAAT
GTACCGACATTGGTCATTATTTGAAAGCTTTATGAATTCCAGATACACCG
TTTGCGGATGACGGATGACGAACACACACAATCAGTAGCATGCATGAAAA
TCGTCTTCGAAAAAGATGATCGAAATCAAAACAGAAGATCGGAGTAAATT
CTTTGACAATCTAGCAGCTCTCATGGCTTGATTTCTTTGGAGCAGCATTC
AAGCAGGCTGGTGAGAAAACACGGTCAAGAGTGCGCCATGATTTCTTTGA
CCCAACAGGAATGTCTTTATTGGTAGGAGTACCGCCCGTTGGTGAGAGCT
CAATCAAAAGACCAAACAAAAGAAAGCAAGGAGCCTACCGTTCGTTTTGG
CTGTACCCAGTGACCTGGAAGAAGGGATCACCAACTGCTTATATTTTTGC
AAAGCCTTGTATCATTGGTCGATTAGCTCGTTTTACACTGGAGGTGTACA
GCACTATGGTGTCTAGCATGGTATCACAAGTTCGATCGTTTATCGATTCA
CATCAAATCGCATGCGCTGGCCCATTTTTGTATGCTCATATTTTAGAGAT
CAAGTATAGATCAATTAAATGGAGCAATCGAGCTAGGAAAGAAACAGAGA
GAAGATATTTCATTTTCTGATCAATTCGTAGATGCTTTGGACGCATTGAA
TAGATATGTGCTGAAGATATGGTTTGTGCCATTTCTGCATTACTGGAATA
TGCTGATGGACGATATTTCATTCGGTTCATTTGCTTCACAGTATGGCTAT
AAAACAAAGGTTACCCATAGTACAATGCAAGCAGAAATATTCTTCAATGG
ACGTTGAGATAAGAAAAGACGTCAAAGGCTGGATCGAAGGGATCGCTGAG
AAATACGGCTTGCGACTCTTCACGATGAAAGGAAGGAAAAGACTTCATGA
GCTGTTTGCTGATATCGGATTACGTTTAGGAATGTACCGACATTGGTCAT
TATTTGAAAGCTTTATGAATTCCAGATACACCGTTTGCGGATGACGGATG
ACGAACACACACAATCAGTAGCATGCATGAAAATCGTCTTCGAAAAAGAT
GATCGAAATCAAAACAGAAGATCGGAGTAAATTCTTTGACAATCTAGCAG
CTCTCATGGCTTGATTTCTTTGGAGCAGCATTCAAGCAGGCTGGTGAGAA
AACACGGTCAAGAGTGCGCCATGATTTCTTTGACCCAACAGGAATGTCTT
TATTGGTAGGAGTACCGCCCGTTGGTGAGAGCTCAATCAAAAGACCAAAC
AAAAGAAAGCAAGGAGCCTACCGTTCGTTTTGGCTGTACCCAGTGACCTG
GAAGAAGGGATCACCAACTGCTTATATTTTTGCAAAGCCTTGTATCATTG
GTCGATTAGCTCGTTTTACACTGGAGGTGTACAGCACTATGGTGTCTAGC
ATGGTATCACAAGTTCGATCGTTTATCGATTCACATCAAATCGCATGCGC
TGGCCCATTTTTGTATGCTCATATTTTAGAGATCAAGTATAGATCAATTA
AATGGAGCAATCGAGCTAGGAAAGAAACAGAGAGAAGATATTTCATTTTC
TGATCAATTCGTAGATGCTTTGGACGCATTGAATAGATATGTGCTGAAGA
TATGGTTTGTGCCATTTCTGCATTACTGGAATATGCTGATGGACGATATT
TCATTCGGTTCATTTGCTTCACAGTATGGCTATAAAACAAAGGTTACCCA
TAGTACAATGCAAGCAGAAATATTCTTCAATGGACGTTGAGATAAGAAAA
GACGTCAAAGGCTGGATCGAAGGGATCGCTGAGAAATACGGCTTGCGACT
CTTCACGATGAAAGGAAGGAAAAGACTTCATGAGCTGTTTGCTGATATCG
GATTACGTTTAGGAATGTACCGACATTGGTCATTATTTGAAAGCTTTATG
AATTCCAGATACACCGTTTGCGGATGACGGATGACGAACACACACAATCA
GTAGCATGCATGAAAATCGTCTTCGAAAAAGATGATCGAAATCAAAACAG
AAGATCGGAGTAAATTCTTTGACAATCTAGCAGCTCTCATGGCTTGATTT
CTTTGGAGCAGCATTCAAGCAGGCTGGTGAGAAAACACGGTCAAGAGTGC
GCCATGATTTCTTTGACCCAACAGGAATGTCTTTATTGGTAGGAGTACCG
CCCGTTGGTGAGAGCTCAATCAAAAGACCAAACAAAAGAAAGCAAGGAGC
CTACCGTTCGTTTTGGCTGTACCCAGTGACCTGGAAGAAGGGATCACCAA
CTGCTTATATTTTTGCAAAGCCTTGTATCATTGGTCGATTAGCTCGTTTT
ACACTGGAGGTGTACAGCACTATGGTGTCTAGCATGGTATCACAAGTTCG
ATCGTTTATCGATTCACATCAAATCGCATGCGCTGGCCCATTTTTGTATG
CTCATATTTTAGAGATCAAGTATAGATCAATTAAATGGAGCAATCGAGCT
AGGAAAGAAACAGAGAGAAGATATTTCATTTTCTGATCAATTCGTAGATG
CTTTGGACGCATTGAATAGATATGTGCTGAAGATATGGTTTGTGCCATTT
CTGCATTACTGGAATATGCTGATGGACGATATTTCATTCGGTTCATTTGC
TTCACAGTATGGCTATAAAACAAAGGTTACCCATAGTACAATGCAAGCAG
AAATATTCTTCAATGGACGTTGAGATAAGAAAAGACGTCAAAGGCTGGAT
CGAAGGGATCGCTGAGAAATACGGCTTGCGACTCTTCACGATGAAAGGAA
GGAAAAGACTTCATGAGCTGTTTGCTGATATCGGATTACGTTTAGGAATG
TACCGACATTGGTCATTATTTGAAAGCTTTATGAATTCCAGATACACCGT
TTGCGGATGACGGATGACGAACACACACAATCAGTAGCATGCATGAAAAT
CGTCTTCGAAAAAGATGATCGAAATCAAAACAGAAGATCGGAGTAAATTC
TTTGACAATCTAGCAGCTCTCATGGCTTGATTTCTTTGGAGCAGCATTCA
AGCAGGCTGGTGAGAAAACACGGTCAAGAGTGCGCCATGATTTCTTTGAC
CCAACAGGAATGTCTTTATTGGTAGGAGTACCGCCCGTTGGTGAGAGCTC
AATCAAAAGACCAAACAAAAGAAAGCAAGGAGCCTACCGTTCGTTTTGGC
TGTACCCAGTGACCTGGAAGAAGGGATCACCAACTGCTTATATTTTTGCA
AAGCCTTGTATCATTGGTCGATTAGCTCGTTTTACACTGGAGGTGTACAG
CACTATGGTGTCTAGCATGGTATCACAAGTTCGATCGTTTATCGATTCAC
ATCAAATCGCATGCGCTGGCCCATTTTTGTATGCTCATATTTTAGAGATC
AAGTATAGATCAATTAAATGGAGCAATCGAGCTAGGAAAGAAACAGAGAG
AAGATATTTCATTTTCTGATCAATTCGTAGATGCTTTGGACGCATTGAAT
AGATATGTGCTGAAGATATGGTTTGTGCCATTTCTGCATTACTGGAATAT
GCTGATGGACGATATTTCATTCGGTTCATTTGCTTCACAGTATGGCTATA
AAACAAAGGTTACCCATAGTACAATGCAAGCAGAAATATTCTTCAATGGA
CGTTGAGATAAGAAAAGACGTCAAAGGCTGGATCGAAGGGATCGCTGAGA
AATACGGCTTGCGACTCTTCACGATGAAAGGAAGGAAAAGACTTCATGAG
CTGTTTGCTGATATCGGATTACGTTTAGGAATGTACCGACATTGGTCATT
ATTTGAAAGCTTTATGAATTCCAGATACACCGTTTGCGGATGACGGATGA
CGAACACACACAATCAGTAGCATGCATGAAAATCGTCTTCGAAAAAGATG
ATCGAAATCAAAACAGAAGATCGGAGTAAATTCTTTGACAATCTAGCAGC
TCTCATGGCTTGATTTCTTTGGAGCAGCATTCAAGCAGGCTGGTGAGAAA
ACACGGTCAAGAGTGCGCCATGATTTCTTTGACCCAACAGGAATGTCTTT
ATTGGTAGGAGTACCGCCCGTTGGTGAGAGCTCAATCAAAAGACCAAACA
AAAGAAAGCAAGGAGCCTACCGTTCGTTTTGGCTGTACCCAGTGACCTGG
AAGAAGGGATCACCAACTGCTTATATTTTTGCAAAGCCTTGTATCATTGG
TCGATTAGCTCGTTTTACACTGGAGGTGTACAGCACTATGGTGTCTAGCA
TGGTATCACAAGTTCGATCGTTTATCGATTCACATCAAATCGCATGCGCT
GGCCCATTTTTGTATGCTCATATTTTAGAGATCAAGTATAGATCAATTAA
ATGGAGCAATCGAGCTAGGAAAGAAACAGAGAGAAGATATTTCATTTTCT
GATCAATTCGTAGATGCTTTGGACGCATTGAATAGATATGTGCTGAAGAT
ATGGTTTGTGCCATTTCTGCATTACTGGAATATGCTGATGGACGATATTT
CATTCGGTTCATTTGCTTCACAGTATGGCTATAAAACAAAGGTTACCCAT
AGTACAATGCAAGCAGAAATATTCTTCAATGGACGTTGAGATAAGAAAAG
ACGTCAAAGGCTGGATCGAAGGGATCGCTGAGAAATACGGCTTGCGACTC
TTCACGATGAAAGGAAGGAAAAGACTTCATGAGCTGTTTGCTGATATCGG
ATTACGTTTAGGAATGTACCGACATTGGTCATTATTTGAAAGCTTTATGA
ATTCCAGATACACCGTTTGCGGATGACGGATGACGAACACACACAATCAG
TAGCATGCATGAAAATCGTCTTCGAAAAAGATGATCGAAATCAAAACAGA
AGATCGGAGTAAATTCTTTGACAATCTAGCAGCTCTCATGGCTTGATTTC
TTTGGAGCAGCATTCAAGCAGGCTGGTGAGAAAACACGGTCAAGAGTGCG
CCATGATTTCTTTGACCCAACAGGAATGTCTTTATTGGTAGGAGTACCGC
CCGTTGGTGAGAGCTCAATCAAAAGACCAAACAAAAGAAAGCAAGGAGCC
TACCGTTCGTTTTGGCTGTACCCAGTGACCTGGAAGAAGGGATCACCAAC
TGCTTATATTTTTGCAAAGCCTTGTATCATTGGTCGATTAGCTCGTTTTA
CACTGGAGGTGTACAGCACTATGGTGTCTAGCATGGTATCACAAGTTCGA
TCGTTTATCGATTCACATCAAATCGCATGCGCTGGCCCATTTTTGTATGC
TCATATTTTAGAGATCAAGTATAGATCAATTAAATGGAGCAATCGAGCTA
GGAAAGAAACAGAGAGAAGATATTTCATTTTCTGATCAATTCGTAGATGC
TTTGGACGCATTGAATAGATATGTGCTGAAGATATGGTTTGTGCCATTTC
TGCATTACTGGAATATGCTGATGGACGATATTTCATTCGGTTCATTTGCT
TCACAGTATGGCTATAAAACAAAGGTTACCCATAGTACAATGCAAGCAGA
AATATTCTTCAATGGACGTTGAGATAAGAAAAGACGTCAAAGGCTGGATC
GAAGGGATCGCTGAGAAATACGGCTTGCGACTCTTCACGATGAAAGGAAG
GAAAAGACTTCATGAGCTGTTTGCTGATATCGGATTACGTTTAGGAATGT
ACCGACATTGGTCATTATTTGAAAGCTTTATGAATTCCAGATACACCGTT
TGCGGATGACGGATGACGAACACACACAATCAGTAGCATGCATGAAAATC
GTCTTCGAAAAAGATGATCGAAATCAAAACAGAAGATCGGAGTAAATTCT
TTGACAATCTAGCAGCTCTCATGGCTTGATTTCTTTGGAGCAGCATTCAA
GCAGGCTGGTGAGAAAACACGGTCAAGAGTGCGCCATGATTTCTTTGACC
CAACAGGAATGTCTTTATTGGTAGGAGTACCGCCCGTTGGTGAGAGCTCA
ATCAAAAGACCAAACAAAAGAAAGCAAGGAGCCTACCGTTCGTTTTGGCT
GTACCCAGTGACCTGGAAGAAGGGATCACCAACTGCTTATATTTTTGCAA
AGCCTTGTATCATTGGTCGATTAGCTCGTTTTACACTGGAGGTGTACAGC
ACTATGGTGTCTAGCATGGTATCACAAGTTCGATCGTTTATCGATTCACA
TCAAATCGCATGCGCTGGCCCATTTTTGTATGCTCATATTTTAGAGATCA
AGTATAGATCAATTAAATGGAGCAATCGAGCTAGGAAAGAAACAGAGAGA
AGATATTTCATTTTCTGATCAATTCGTAGATGCTTTGGACGCATTGAATA
GATATGTGCTGAAGATATGGTTTGTGCCATTTCTGCATTACTGGAATATG
CTGATGGACGATATTTCATTCGGTTCATTTGCTTCACAGTATGGCTATAA
AACAAAGGTTACCCATAGTACAATGCAAGCAGAAATATTCTTCAATGGAC
GTTGAGATAAGAAAAGACGTCAAAGGCTGGATCGAAGGGATCGCTGAGAA
ATACGGCTTGCGACTCTTCACGATGAAAGGAAGGAAAAGACTTCATGAGC
TGTTTGCTGATATCGGATTACGTTTAGGAATGTACCGACATTGGTCATTA
TTTGAAAGCTTTATGAATTCCAGATACACCGTTTGCGGATGACGGATGAC
GAACACACACAATCAGTAGCATGCATGAAAATCGTCTTCGAAAAAGATGA
TCGAAATCAAAACAGAAGATCGGAGTAAATTCTTTGACAATCTAGCAGCT
CTCATGGCTTGATTTCTTTGGAGCAGCATTCAAGCAGGCTGGTGAGAAAA
CACGGTCAAGAGTGCGCCATGATTTCTTTGACCCAACAGGAATGTCTTTA
TTGGTAGGAGTACCGCCCGTTGGTGAGAGCTCAATCAAAAGACCAAACAA
AAGAAAGCAAGGAGCCTACCGTTCGTTTTGGCTGTACCCAGTGACCTGGA
AGAAGGGATCACCAACTGCTTATATTTTTGCAAAGCCTTGTATCATTGGT
CGATTAGCTCGTTTTACACTGGAGGTGTACAGCACTATGGTGTCTAGCAT
GGTATCACAAGTTCGATCGTTTATCGATTCACATCAAATCGCATGCGCTG
GCCCATTTTTGTATGCTCATATTTTAGAGATCAAGTATAGATCAATTAAA
TGGAGCAATCGAGCTAGGAAAGAAACAGAGAGAAGATATTTCATTTTCTG
ATCAATTCGTAGATGCTTTGGACGCATTGAATAGATATGTGCTGAAGATA
TGGTTTGTGCCATTTCTGCATTACTGGAATATGCTGATGGACGATATTTC
ATTCGGTTCATTTGCTTCACAGTATGGCTATAAAACAAAGGTTACCCATA
GTACAATGCAAGCAGAAATATTCTTCAATGGACGTTGAGATAAGAAAAGA
CGTCAAAGGCTGGATCGAAGGGATCGCTGAGAAATACGGCTTGCGACTCT
TCACGATGAAAGGAAGGAAAAGACTTCATGAGCTGTTTGCTGATATCGGA
TTACGTTTAGGAATGTACCGACATTGGTCATTATTTGAAAGCTTTATGAA
TTCCAGATACACCGTTTGCGGATGACGGATGACGAACACACACAATCAGT
AGCATGCATGAAAATCGTCTTCGAAAAAGATGATCGAAATCAAAACAGAA
GATCGGAGTAAATTCTTTGACAATCTAGCAGCTCTCATGGCTTGATTTCT
TTGGAGCAGCATTCAAGCAGGCTGGTGAGAAAACACGGTCAAGAGTGCGC
CATGATTTCTTTGACCCAACAGGAATGTCTTTATTGGTAGGAGTACCGCC
CGTTGGTGAGAGCTCAATCAAAAGACCAAACAAAAGAAAGCAAGGAGCCT
ACCGTTCGTTTTGGCTGTACCCAGTGACCTGGAAGAAGGGATCACCAACT
GCTTATATTTTTGCAAAGCCTTGTATCATTGGTCGATTAGCTCGTTTTAC
ACTGGAGGTGTACAGCACTATGGTGTCTAGCATGGTATCACAAGTTCGAT
CGTTTATCGATTCACATCAAATCGCATGCGCTGGCCCATTTTTGTATGCT
CATATTTTAGAGATCAAGTATAGATCAATTAAATGGAGCAATCGAGCTAG
GAAAGAAACAGAGAGAAGATATTTCATTTTCTGATCAATTCGTAGATGCT
TTGGACGCATTGAATAGATATGTGCTGAAGATATGGTTTGTGCCATTTCT
GCATTACTGGAATATGCTGATGGACGATATTTCATTCGGTTCATTTGCTT
CACAGTATGGCTATAAAACAAAGGTTACCCATAGTACAATGCAAGCAGAA
ATATTCTTCAATGGACGTTGAGATAAGAAAAGACGTCAAAGGCTGGATCG
AAGGGATCGCTGAGAAATACGGCTTGCGACTCTTCACGATGAAAGGAAGG
AAAAGACTTCATGAGCTGTTTGCTGATATCGGATTACGTTTAGGAATGTA
CCGACATTGGTCATTATTTGAAAGCTTTATGAATTCCAGATACACCGTTT
GCGGATGACGGATGACGAACACACACAATCAGTAGCATGCATGAAAATCG
TCTTCGAAAAAGATGATCGAAATCAAAACAGAAGATCGGAGTAAATTCTT
TGACAATCTAGCAGCTCTCATGGCTTGATTTCTTTGGAGCAGCATTCAAG
CAGGCTGGTGAGAAAACACGGTCAAGAGTGCGCCATGATTTCTTTGACCC
AACAGGAATGTCTTTATTGGTAGGAGTACCGCCCGTTGGTGAGAGCTCAA
TCAAAAGACCAAACAAAAGAAAGCAAGGAGCCTACCGTTCGTTTTGGCTG
TACCCAGTGACCTGGAAGAAGGGATCACCAACTGCTTATATTTTTGCAAA
GCCTTGTATCATTGGTCGATTAGCTCGTTTTACACTGGAGGTGTACAGCA
CTATGGTGTCTAGCATGGTATCACAAGTTCGATCGTTTATCGATTCACAT
CAAATCGCATGCGCTGGCCCATTTTTGTATGCTCATATTTTAGAGATCAA
GTATAGATCAATTAAATGGAGCAATCGAGCTAGGAAAGAAACAGAGAGAA
GATATTTCATTTTCTGATCAATTCGTAGATGCTTTGGACGCATTGAATAG
ATATGTGCTGAAGATATGGTTTGTGCCATTTCTGCATTACTGGAATATGC
TGATGGACGATATTTCATTCGGTTCATTTGCTTCACAGTATGGCTATAAA
ACAAAGGTTACCCATAGTACAATGCAAGCAGAAATATTCTTCAATGGACG
TTGAGATAAGAAAAGACGTCAAAGGCTGGATCGAAGGGATCGCTGAGAAA
TACGGCTTGCGACTCTTCACGATGAAAGGAAGGAAAAGACTTCATGAGCT
GTTTGCTGATATCGGATTACGTTTAGGAATGTACCGACATTGGTCATTAT
TTGAAAGCTTTATGAATTCCAGATACACCGTTTGCGGATGACGGATGACG
AACACACACAATCAGTAGCATGCATGAAAATCGTCTTCGAAAAAGATGAT
CGAAATCAAAACAGAAGATCGGAGTAAATTCTTTGACAATCTAGCAGCTC
TCATGGCTTGATTTCTTTGGAGCAGCATTCAAGCAGGCTGGTGAGAAAAC
ACGGTCAAGAGTGCGCCATGATTTCTTTGACCCAACAGGAATGTCTTTAT
TGGTAGGAGTACCGCCCGTTGGTGAGAGCTCAATCAAAAGACCAAACAAA
AGAAAGCAAGGAGCCTACCGTTCGTTTTGGCTGTACCCAGTGACCTGGAA
GAAGGGATCACCAACTGCTTATATTTTTGCAAAGCCTTGTATCATTGGTC
GATTAGCTCGTTTTACACTGGAGGTGTACAGCACTATGGTGTCTAGCATG
GTATCACAAGTTCGATCGTTTATCGATTCACATCAAATCGCATGCGCTGG
CCCATTTTTGTATGCTCATATTTTAGAGATCAAGTATAGATCAATTAAAT
GGAGCAATCGAGCTAGGAAAGAAACAGAGAGAAGATATTTCATTTTCTGA
TCAATTCGTAGATGCTTTGGACGCATTGAATAGATATGTGCTGAAGATAT
GGTTTGTGCCATTTCTGCATTACTGGAATATGCTGATGGACGATATTTCA
TTCGGTTCATTTGCTTCACAGTATGGCTATAAAACAAAGGTTACCCATAG
TACAATGCAAGCAGAAATATTCTTCAATGGACGTTGAGATAAGAAAAGAC
GTCAAAGGCTGGATCGAAGGGATCGCTGAGAAATACGGCTTGCGACTCTT
CACGATGAAAGGAAGGAAAAGACTTCATGAGCTGTTTGCTGATATCGGAT
TACGTTTAGGAATGTACCGACATTGGTCATTATTTGAAAGCTTTATGAAT
TCCAGATACACCGTTTGCGGATGACGGATGACGAACACACACAATCAGTA
GCATGCATGAAAATCGTCTTCGAAAAAGATGATCGAAATCAAAACAGAAG
ATCGGAGTAAATTCTTTGACAATCTAGCAGCTCTCATGGCTTGATTTCTT
TGGAGCAGCATTCAAGCAGGCTGGTGAGAAAACACGGTCAAGAGTGCGCC
ATGATTTCTTTGACCCAACAGGAATGTCTTTATTGGTAGGAGTACCGCCC
GTTGGTGAGAGCTCAATCAAAAGACCAAACAAAAGAAAGCAAGGAGCCTA
CCGTTCGTTTTGGCTGTACCCAGTGACCTGGAAGAAGGGATCACCAACTG
CTTATATTTTTGCAAAGCCTTGTATCATTGGTCGATTAGCTCGTTTTACA
CTGGAGGTGTACAGCACTATGGTGTCTAGCATGGTATCACAAGTTCGATC
GTTTATCGATTCACATCAAATCGCATGCGCTGGCCCATTTTTGTATGCTC
ATATTTTAGAGATCAAGTATAGATCAATTAAATGGAGCAATCGAGCTAGG
AAAGAAACAGAGAGAAGATATTTCATTTTCTGATCAATTCGTAGATGCTT
TGGACGCATTGAATAGATATGTGCTGAAGATATGGTTTGTGCCATTTCTG
CATTACTGGAATATGCTGATGGACGATATTTCATTCGGTTCATTTGCTTC
ACAGTATGGCTATAAAACAAAGGTTACCCATAGTACAATGCAAGCAGAAA
TATTCTTCAATGGACGTTGAGATAAGAAAAGACGTCAAAGGCTGGATCGA
AGGGATCGCTGAGAAATACGGCTTGCGACTCTTCACGATGAAAGGAAGGA
AAAGACTTCATGAGCTGTTTGCTGATATCGGATTACGTTTAGGAATGTAC
CGACATTGGTCATTATTTGAAAGCTTTATGAATTCCAGATACACCGTTTG
CGGATGACGGATGACGAACACACACAATCAGTAGCATGCATGAAAATCGT
CTTCGAAAAAGA
Gene-mRNA-Prot
This transcript is a part of the following gene feature(s):
Feature NameUnique NameSpeciesType
XLOC_009498XLOC_009498Clytia hemisphaericagene
The following polypeptide feature(s) derives from this transcript:
Feature NameUnique NameSpeciesType
TCONS_00016961-proteinTCONS_00016961-proteinClytia hemisphaericapolypeptide
The following exon feature(s) are a part of this transcript:
Feature NameUnique NameSpeciesType
TCONS_00016961-exon-sc0000255-1575043694:22624..22689TCONS_00016961-exon-sc0000255-1575043694:22624..22689Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:22274..22366TCONS_00016961-exon-sc0000255-1575043694:22274..22366Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:21723..21814TCONS_00016961-exon-sc0000255-1575043694:21723..21814Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:21257..21368TCONS_00016961-exon-sc0000255-1575043694:21257..21368Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:20444..20554TCONS_00016961-exon-sc0000255-1575043694:20444..20554Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:20148..20197TCONS_00016961-exon-sc0000255-1575043694:20148..20197Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:19929..19977TCONS_00016961-exon-sc0000255-1575043694:19929..19977Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:18641..18702TCONS_00016961-exon-sc0000255-1575043694:18641..18702Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:18047..18097TCONS_00016961-exon-sc0000255-1575043694:18047..18097Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:17467..17580TCONS_00016961-exon-sc0000255-1575043694:17467..17580Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:17127..17198TCONS_00016961-exon-sc0000255-1575043694:17127..17198Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:16898..16957TCONS_00016961-exon-sc0000255-1575043694:16898..16957Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:15917..16015TCONS_00016961-exon-sc0000255-1575043694:15917..16015Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:15470..15524TCONS_00016961-exon-sc0000255-1575043694:15470..15524Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:6931..6981TCONS_00016961-exon-sc0000255-1575043694:6931..6981Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:6131..6186TCONS_00016961-exon-sc0000255-1575043694:6131..6186Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:5857..5905TCONS_00016961-exon-sc0000255-1575043694:5857..5905Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:5336..5425TCONS_00016961-exon-sc0000255-1575043694:5336..5425Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:4819..4902TCONS_00016961-exon-sc0000255-1575043694:4819..4902Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:4263..4326TCONS_00016961-exon-sc0000255-1575043694:4263..4326Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:3902..3953TCONS_00016961-exon-sc0000255-1575043694:3902..3953Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:3420..3496TCONS_00016961-exon-sc0000255-1575043694:3420..3496Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:2832..2915TCONS_00016961-exon-sc0000255-1575043694:2832..2915Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1575043694:868..2523TCONS_00016961-exon-sc0000255-1575043694:868..2523Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:22624..22689TCONS_00016961-exon-sc0000255-1510915933:22624..22689Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:22274..22366TCONS_00016961-exon-sc0000255-1510915933:22274..22366Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:21723..21814TCONS_00016961-exon-sc0000255-1510915933:21723..21814Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:21257..21368TCONS_00016961-exon-sc0000255-1510915933:21257..21368Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:20444..20554TCONS_00016961-exon-sc0000255-1510915933:20444..20554Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:20148..20197TCONS_00016961-exon-sc0000255-1510915933:20148..20197Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:19929..19977TCONS_00016961-exon-sc0000255-1510915933:19929..19977Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:18641..18702TCONS_00016961-exon-sc0000255-1510915933:18641..18702Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:18047..18097TCONS_00016961-exon-sc0000255-1510915933:18047..18097Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:17467..17580TCONS_00016961-exon-sc0000255-1510915933:17467..17580Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:17127..17198TCONS_00016961-exon-sc0000255-1510915933:17127..17198Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:16898..16957TCONS_00016961-exon-sc0000255-1510915933:16898..16957Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:15917..16015TCONS_00016961-exon-sc0000255-1510915933:15917..16015Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:15470..15524TCONS_00016961-exon-sc0000255-1510915933:15470..15524Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:6931..6981TCONS_00016961-exon-sc0000255-1510915933:6931..6981Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:6131..6186TCONS_00016961-exon-sc0000255-1510915933:6131..6186Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:5857..5905TCONS_00016961-exon-sc0000255-1510915933:5857..5905Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:5336..5425TCONS_00016961-exon-sc0000255-1510915933:5336..5425Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:4819..4902TCONS_00016961-exon-sc0000255-1510915933:4819..4902Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:4263..4326TCONS_00016961-exon-sc0000255-1510915933:4263..4326Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:3902..3953TCONS_00016961-exon-sc0000255-1510915933:3902..3953Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:3420..3496TCONS_00016961-exon-sc0000255-1510915933:3420..3496Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:2832..2915TCONS_00016961-exon-sc0000255-1510915933:2832..2915Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1510915933:868..2523TCONS_00016961-exon-sc0000255-1510915933:868..2523Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:22624..22689TCONS_00016961-exon-sc0000255-1491911889:22624..22689Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:22274..22366TCONS_00016961-exon-sc0000255-1491911889:22274..22366Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:21723..21814TCONS_00016961-exon-sc0000255-1491911889:21723..21814Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:21257..21368TCONS_00016961-exon-sc0000255-1491911889:21257..21368Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:20444..20554TCONS_00016961-exon-sc0000255-1491911889:20444..20554Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:20148..20197TCONS_00016961-exon-sc0000255-1491911889:20148..20197Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:19929..19977TCONS_00016961-exon-sc0000255-1491911889:19929..19977Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:18641..18702TCONS_00016961-exon-sc0000255-1491911889:18641..18702Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:18047..18097TCONS_00016961-exon-sc0000255-1491911889:18047..18097Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:17467..17580TCONS_00016961-exon-sc0000255-1491911889:17467..17580Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:17127..17198TCONS_00016961-exon-sc0000255-1491911889:17127..17198Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:16898..16957TCONS_00016961-exon-sc0000255-1491911889:16898..16957Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:15917..16015TCONS_00016961-exon-sc0000255-1491911889:15917..16015Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:15470..15524TCONS_00016961-exon-sc0000255-1491911889:15470..15524Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:6931..6981TCONS_00016961-exon-sc0000255-1491911889:6931..6981Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:6131..6186TCONS_00016961-exon-sc0000255-1491911889:6131..6186Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:5857..5905TCONS_00016961-exon-sc0000255-1491911889:5857..5905Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:5336..5425TCONS_00016961-exon-sc0000255-1491911889:5336..5425Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:4819..4902TCONS_00016961-exon-sc0000255-1491911889:4819..4902Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:4263..4326TCONS_00016961-exon-sc0000255-1491911889:4263..4326Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:3902..3953TCONS_00016961-exon-sc0000255-1491911889:3902..3953Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:3420..3496TCONS_00016961-exon-sc0000255-1491911889:3420..3496Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:2832..2915TCONS_00016961-exon-sc0000255-1491911889:2832..2915Clytia hemisphaericaexon
TCONS_00016961-exon-sc0000255-1491911889:868..2523TCONS_00016961-exon-sc0000255-1491911889:868..2523Clytia hemisphaericaexon
Position
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
sc0000255supercontigsc0000255:868..22689 -
Expression

Hover the mouse over a column in the graph to view expression values in transcripts per million (tpm).
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Values : 
    GrOo_1	 GrOo_2	 FGOo_1	 FGOo_2	 EG_1	 EG_2	 P1_1	 P1_2	 P2_1	 P2_2	 P3_1	 P3_2	 PoPr_1	 PoPr_2	 St_1	 St_2	 GO_1	 GO_2	 PH_1	 PH_2	 BMF_1	 BMF_2	 MMF_1	 MMF_2	 M_1	 M_2	 GEC_1	 GEC_2	 GEN_1	 GEN_2
0.360134	0.253046	0.759067	0.242556	0.43131	1.75356	0.481819	0	3.2977	2.00297	1.15009	3.37388	0.4094	2.15586	0.53559	0.646597	3.52603	2.93803	0	0.608306	0	0	0	0.199111	1.77856	0	0	0	0	0
Annotated Terms
The following terms have been associated with this transcript:
Vocabulary: INTERPRO
TermDefinition
IPR003874CDC45
Vocabulary: Biological Process
TermDefinition
GO:0006270DNA replication initiation
GO Annotation
GO Assignments
This transcript is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006270 DNA replication initiation
Blast
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BLAST of TCONS_00016961 vs. Swiss-Prot (Human)
Match: CDC45 (Cell division control protein 45 homolog OS=Homo sapiens GN=CDC45 PE=1 SV=1)

HSP 1 Score: 419.083 bits (1076), Expect = 9.073e-133
Identity = 219/544 (40.26%), Postives = 350/544 (64.34%), Query Frame = 1 
Query:   55 RIVKNLFQQDNVQYTIVPVSGIDNIKEVYDEHKEQIKYFLLINCGGNIDF-DVLEADEDSTFFIVDSHRPLDLNNVFKE-QIKILIKEGDATIDEIPDPEKVIXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXKRQKTSNVSYLEKQVKKKRWATEREKLLDEYYECSYYGSSTALTLYDLAWKLTKDNNDLLWLAIVGLTEQYLFSKIEGEKYFEDCTGIKDHVIRHNMT--DDEHTQSVACMKIVFEKELRLGMYRHWSLFESFMNSRYTVCGLRLFTMKGRKRLHELFADIGLPIVQCKQKYSSMDVEIRKDVKGWIEGIAEKYGMDDISFGSFASQYGYKTKICAEDMVCAISALLEYAREDISFSDQFVDALDALNRSSIDQLNGAIELGKKQVSSMVSQVRSFIDSHQIACAGPFLYAHILEGSPTAYIFAKPCIIGRLARFTLEVYSTMTKQKKARSLPFVLAVPSDLEEGMSLLVGVPPVGESS-IKSFFGAAFKQAGEKTRSRVRHDFFDPTVIEIKTEDRSKFFDNLAALMA 1671
            +I++ LFQ D+VQYT+VPVSG   ++  + EHKEQ  YF+LINCG N+D  D+L+ DED+ FF+ D+HRP+++ NV+ + QIK+LIK+ D    E+P  E +   E+++E      +  +E S+            R +   V    ++ +++ W   R  +L +Y +  Y+G+S+A+ +++LAW L+KD ND+LW AIVGLT+Q++  KI   KY  D   ++ HV RHN    D+E+T SV C +I FE +LRL +Y+HWSL +S  N+ YT    +L+++ G+KRL E  AD+GLP+ Q KQK+ +MD+ ++++++  IE  A K+GM D+   +F+  +G+K K  A D+V A  +L+E   +D S +D F+ ALD+L+RS++D+L   +EL KKQ+ +    + S + ++ +   GPFLY  ++EG+P   +F++P  +  L++  L+ +   TK ++ + LP V+A P  +E G   +VG+PP  +SS  K+FFG AF++A E T SR+ H+ FD +VIE+K EDRSKF D L +L++
Sbjct:   34 KILQALFQCDHVQYTLVPVSGWQELETAFLEHKEQFHYFILINCGANVDLLDILQPDEDTIFFVCDTHRPVNVVNVYNDTQIKLLIKQDDDL--EVPAYEDIFRDEEEDEEHSGNDSDGSEPSEKRT---------RLEEEIVEQTMRRRQRREWEARRRDILFDYEQYEYHGTSSAMVMFELAWMLSKDLNDMLWWAIVGLTDQWVQDKITQMKYVTDVGVLQRHVSRHNHRNEDEENTLSVDCTRISFEYDLRLVLYQHWSLHDSLCNTSYTAARFKLWSVHGQKRLQEFLADMGLPLKQVKQKFQAMDISLKENLREMIEESANKFGMKDMRVQTFSIHFGFKHKFLASDVVFATMSLMESPEKDGSGTDHFIQALDSLSRSNLDKLYHGLELAKKQLRATQQTIASCLCTNLVISQGPFLYCSLMEGTPDVMLFSRPASLSLLSKHLLKSFVCSTKNRRCKLLPLVMAAPLSMEHGTVTVVGIPPETDSSDRKNFFGRAFEKAAESTSSRMLHNHFDLSVIELKAEDRSKFLDALISLLS 566
The following BLAST results are available for this feature:
BLAST of TCONS_00016961 vs. Swiss-Prot (Human)
Analysis Date: 2017-10-03 (blastx Clytia hemisphaerica v1.0 mRNA vs SwissProt (Homo sapiens))
Total hits: 1
Match NameE-valueIdentityDescription
CDC459.073e-13340.26Cell division control protein 45 homolog OS=Homo s... [more]
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