TCONS_00026155 (transcript) - C. hemisphaerica

Overview
NameTCONS_00026155
Unique NameTCONS_00026155
Typetranscript
OrganismClytia hemisphaerica (Jellyfish)
Sequence length6238

Sequence
The following sequences are available for this feature:

transcript sequence

>TCONS_00026155 ID=TCONS_00026155|Name=TCONS_00026155|organism=Clytia hemisphaerica|type=transcript|length=6238bp
gaaaaagccTGGAAACTAGTACAGTAGAAGCTAAAAGATGATTTACCTCG
CCTGATCACACGACCTCACTCAATATGGGAGCACATCCCttcaaatttga
caaagaaGCATGGAGATGGAATTTGCTTTACTTCACATTATGGTTATTGT
TCCAAGGTGCTTCTACATTACCAGTGAGCGGAGGTCACATTCAAATGGAC
TTACCACAAGACCTAACCATTTCTAATCAATGGATTTCATTAAGTCACTG
GGATAGTAGTATATACAAAAAAGGGCTTTTTATGTCCGATTTTGAAATGC
CATCAAACACAACATTCTTTGTGAAACGTTCTGGAGTTTATTTCGCATCT
CTTTACGTGCATTTAGAACAAGCGACGTCCAAAGATTTCGCCATACGAAT
TCATACaaatcaaaacgaaagttaTACATCGATTggtaaatcaaaatcaa
aactcaaAGTCTTACATTTGAATCAAATTCTacttttaaatgaaaaacaa
actttCACAGTTGATGTCAACTGTTCCCATTTAAacacaatcagccagaa
aactGTAATCTCGATacatttcatttccaatttCGCATACACGTTAGGCT
TTATTGCCAACCCGAATGAAATACAAACTGTCAAAAGCCAAGATTACGAA
CAGGTCCTTGTCAACTGGAATGTTATGTTTGAAACTAGCTATGGGTTCTC
TGCTGCTACTGGTCAATACACTGCACTAGAAAGCGCTTATTACGTCATTA
CTGTACAattaacattacgtaatgtttatggTAAAGTGATGTTATCATTA
CGCAATGATGACGTACGTGACGTCATTAAGGAGGAGTATTTTGAGGATTT
AAGTGAAATTGTGACCATGACGTATAGCGGGATCCATCGAATCAACATAA
AGAGAAATATTTTGTTGTctgtcaaaacattcgattgtaaagCCATTATC
GATAAGCGTTCTGTTTACTCTGTCATGCGCACTGAAACAATTTATGGTTA
CCAGGCCTCTTATTCGTCTCATGATGATAAGTCTCAAAAAGCTATCATTg
agaaaaacaatcaaatcgaaagtgaaagtgaacaAACTTTAAAGCACTGG
CGAACTTTTCACAACCATACGGCATTTCTTAAGAACCGTGCAATGTTTCA
GTTAAGAAAATCTTCATTGTATTTTGTCTATGTTCAAGTGAAAATGAAAT
CCATAGATTCGCCTACAGACCTCATTGATGTTGAGCTTTGTATTGATGAA
AGAACGAACAAATATTTGTTATCTAGGCAAAATGAAGGGAGTCTTTGGGC
AACACTAGCAGGTGTATTTTACATCCAAGACAGTCAAGATATTTCAATTA
TTATCCATAACAAATCACCAAATCCAATCGAAATCGCGGGTGATCAGACG
AGCATTTATATTTCAGAACTGAGCTTTCAGACGTATTCATCTACTTATGC
TGTTGTACCAATTTCTGACGAAGAGATCCATAATGGCAGCCTGTATCCTG
TTGCTTTGACAATGGAAGCAACATCCAATTTCAATATGGTAACGAAAGCT
GTGAGAAATATTATAACAATTCAACACGAGGGTACTTATCATGTATCTTT
GAACCTTTATTTGCGAAATATTAAAGAAGATATAGAATTTGTGGTAATGT
CAAGGTTGGATGGAAATCGAATGAAATGGGACACGTTGAGTAAATGTATC
ACTGGCCAAACTGACCAATGTTTTGTTGCTTCGATTATGCGATTGAAAGA
AGGGCAACAGTTTATGGTTGGTGCGTCCACGcctttaaatgacgtcatcg
tcaAGGAATCGTTCTTTCAAATCATATTTCTTCGTTCGCAAGATGAGACG
ACGAaaactttacagaccagaatggccAAGGATAAAAATACACTAGCAGA
AATTAACCCTGTTTTTAAATTCAACGATGGCGATAATTTCTATCTTTTAA
CTTTGAATTTGATTCTCGCCAATGTCTCTGATTCTCATGTCCGTGTAAAA
TTCGATTTCAAACTCGGAAGACTCTGGAAACCCATTAAGAAGTTCCAAAG
ACAACTAAATGAAAATCAAACGCGAGTCAGCTTTACTTTAACCGAAGGTT
TCTACGCTCGAAAGGGATCTGAAATTAAAATGGAAATCATAAATCTCAAA
GGAGGGAGCTACATTATAGAGTCGTTACAAACTGCACGCTTAATGTTACC
GAAAAATGAAGAAGGCAAAGCAAGATTCAAACATCTCCGCGTGGACACGC
GAGCGGGCGTGCAATCCGTGTTAAACTTCGTTGCACCAAAACGCAAACAT
TCAAATGGGAAGTATTTCACTGTAGTCAATTATTTAAAAGCAGAGAAATC
ATCCACAGCTCTTCTGATGGTGACTTTAGAAGGACATTTAAAATGCCAGA
ATCATCAACGTCACAGATTGAAAGCTAAAATTCTTCTCCGAAAAACTGAA
ACAACCATACAAGGCTATAGAGAGAACTTAAAATGCAACGAATTTGTTTC
ACTACACATGACAGGGGTCGTAGTAGCCCATGTTGAGGATTCAATTAAAG
TTTTGATCGAAACTGACCGATCCTCTTCTTTCACTGCGACTAGACAAACG
ACCATTACTTTACTGGTGTTGAAAGAGAATCCACTGAAAATGTCACCAAC
CTCTGATCTATTTCTTTCCAAAAGTTTGGTAACGGATGACACTGATTATG
ATAAAGATATACAAGATACAGAAGCTGGTGGATTATATGAATATCTGGTA
GCATTGGAACGCTCTCAAAATAAGAGAATCCATTTCGAATTTTCCGTTGA
GAAAAATCACCAGAACAGCAGAATAATAACGAAAAGAGACACGTCAACTT
CTCCAAAACTATTCATCTTTTCGtaccaagaaaaaaagaatatacGTATC
AAGATTTTGGTCAATTTACAAAAAGGTCAACAAATCAAATACTCACCTCA
AGTCGATGACGTTGAAATACAACGACGGAAACTCTACGAGTTGAATCTGA
AACAGTTAAACACAATACGAATTGACAAAGTCCATGAAATATGTCATAAT
TCAAATAAAGTTAGCATTCTCTCTGGCTGGAGATGTTCAGATGGGAAACA
CTGTGACCACAGCCTTCATACCGCAAACAACTCACAGACAGTTGTAATCA
ATGCCAATATCTTTGTCAAGGCTCGCAATCTAAAAAAACTTGAGGAATTG
TATATCGCAGTGGCTGGCAACGTGATCAAAAAATTCTCAATGACGTCACC
TCAACCAACAGGAGCTAATATTTATCTATTACAAGCATCTTACAGGATTT
TCATGAAGCGAGGAGAAAGATTGCAATTACATGTTCGatgtcaaaataaa
acgaaCTTCATCCAACCCAATTCTATGGTTCAAATTTACATTGAAGCCAT
TCACAAGTCGATCGTGGATGATTCGTTTCCAGTCTTCTTGGTCCACCCCT
CTCCTAACTACGTCAACAGATCTTTCATCTTCAACTATACATGTGAAGCA
CAAGTGACTGGCCAACAACAACATGACGTCAAATACTCATGGAATAAAGT
TGGATACTATTCACATGTGTTACATTCTCATCTGTCAAATGGAGATTTCC
ACACAGTGAGCGGTCAGCCTGCAGAGTCTGGTCATTATTTCTGTTCGGCA
GAATATCAAGGCTTCTCATCTCAATCACAGACTGCCACGCTTCATATTTA
CGACGAGGACGAGTGCTTGATATTATCAAACACGACACATCGAGAGTTAT
ATAACATCACATTACAGCCGTGTCACACGCATGCGCAGTGCATCAATACT
ATTGGTTCTTACATGTGTCAATGTTTTGATGGTTACCAGGGTGATGGATT
CCAATGCCAAGATCTGAACGAATGTGATGAAGTGGACAATATTTGTGGTG
AAGATTCAGATTGCTTCAACACTGTGGGGAGTTATAAATGCCAGTGTCAT
AAAGGTTACGAGGGCATAGATGGTAAACAATGCAAGGACATTGACGAATG
CGTGAGGCATGGACCCGAGTTATGTCAACAACAGACCAGATCGAACAACA
CGTTTTGTATCAACACTGATGGAGGATTTTTCTGTAACTGCACAGAAGGT
TTTTACAAGAAGAAGGGGCTTTGTATTGATATAGACGAGTGTGGTCGTGA
TCCTTATCCTTGCCATGCAGAAGCCACGTGTCTCAACTCTCCTCCTGGTA
GTTATTCTTGTGAGTGTGACCAAGGTTGGTTGGGAAATGGAACTCATTGT
GAAGATATCGATGAATGTAAACAACCTGAGAAATACAAATGTGCAGTCAA
CGCCACTTGTCATAACTTTCTCGGTTCTTATCGATGTATTTGTGATCATG
GTTTCAAAGGCGAAGGTTCTGACAATTGCGAACcacTTGGTTGTTTCCCA
CCACCTGGTTGTTCTGGTCAGTTCCTTGCTAAATGGTGGAGACGCATTCC
CTACATCGAGCAAGATGAAGCACACGAAAAAGCTGAAGGCCTCTTCAAAG
ACATCCTCAACCTCATCATCACTGATATTTGTCAGAATTGTTCACAAATC
TTGTTCGACATGCCACCTGCGAATAATTCGAAAGAAGTGGAAGACCAGGT
GGAAGCTAATCAAACAGATTTTGGATGCCCAATGTATGGATCTAAGGAAC
AAGAAAGCTTTCGAGATTTCCCTTTCATCCCCATTGttgAATCACCAGGC
GTAGCTTTCTTTgtcaaagatatcaaacaaacgTCAAGCCCTTTGCTTGG
TTCGTTGACCGGATCATGGCCAATCTTAGTGATGACACTTCTCTTGGCTT
CTGTGTCTGGTATCATCATATGGTTCTTGgacacGATTCAAAATCCAGAT
GAATTTCCACAATCATTCCTTCAAGGGTCCTGGGAAGGATTTTGGTGGGC
TTTCATTACCATGACAACAGTCGGATACGGGGATAAAGCACCTCGCTCTT
TTTCTGCACGTTTATTTGGAGTCTTTTGGATCTTAGTTGGTTTGGTCATC
ATTTCAACTTTTACGGCAACGATAACGACCGTTCTGACCACCACAACTTT
GACAAGTGAAACCAAAATGTACGGAACGAGGGTGGGCGCTTTAAACAATT
CCGAGGAATTCCGATTGGGTGTTAAACGGAATGCCGATATTCAAGAATAC
AACTCCATCCGTGAGATCATTCAAGCTTTACAGCGCGATGAGATCCAGGG
TGCATTGCTAGACACTTACATTGCCGGTGAATATCAATCAGATTTGAAAG
AATATAAACTTCAAGAGATTCTGGAGCATGTGTTCGTCTATGGTGTTGTA
TTAGCTAGAGATGCAATCCAACTTGAGAATCGGATGAGAACATTCACAGA
ACAGAAACAATCCACTATTTATAACACTATTTCCAAAGTCATTAAACCAT
TGAAGGAGATTAAGCATGGGTCAAACACGGTGACTGAATCGGTTGGGTTG
TTTGATTCTTCGTCATCTTTCTTTACCAAGACAATGATCTTTGGCTGTAT
CCTTCTCGCTTTCTTGGTCATTGTTGGATTGCTTTGGGATTGGTTGTGGA
GACAACAAATGGCCAAACAAAAAGCTATGGACAGCGACAATCGAAAGGAC
TCGAACGGTGGTAATTGGTCATCTACAGATATCATTGAATATCAACAACA
TGCTTTTAAATCTGAAGTGACAAACCTCCGAGAACAAATTGCTTCCTTTG
CGAACACGTGGGTCAATCGTTTGAATGAAATCGAAAATCATCATGAGGAT
CAGCTCACCAAAGTACAAAGCTGGCTTTCCAAGACCAATTTGAACAAATC
AAGTGGTAACAAACGAAAAATGTCGAAGAATTCACAAAACGGTTGGCTGC
ATCATAAAATACCACAAGAAGATTTCTTGTAAATTCTCTCAAatttgggc
ttttccagaaaaaaactgtaTACCCCTGCTGAGGAGGTCCATTACTGTTC
CAAGAGGGTAAGATTTGATATGTggtggaattccatagggagatacaaat
atctgtcaaaaatactggaattcaatgggggtagctttttaaatcctact
gaAATTCAGAGTTCCAGaagggtttaaacctgaaattgcctggaactCCA
GgagttacagcatttccagaCACAGAGGGATGAAACTGAGgaggtatacg
gtttttttctggaaaagcccgtTTTGCTTTTTTAGTTTCTCCAAACATGT
ACATATAGATAATTTTTGTGCTCATATATGAAACTAAA
Run BLAST on NCBI

transcript from alignment at sc0000563:97961..113037-

Legend: exon
Hold the cursor over a type above to highlight its positions in the sequence below.
>TCONS_00026155 ID=TCONS_00026155|Name=TCONS_00026155|organism=Clytia hemisphaerica|type=transcript|length=15077bp|location=Sequence derived from alignment at sc0000563:97961..113037- (Clytia hemisphaerica)
GAAAAAGCCTGGAAACTAGTACAGTAGAAGCTAAAAGATGATTTACCTCG
CCTGATCACACGACCTCACTCAATATGGGAGCACATCCCTTCAAATTTGA
CAAAGAAGCATGGAGATGGAATTTGCTTTACTTCACATTATGGTTATTGT
TCCAAGGTAAGTAGGAACCATTAGGATCTGTAACATATTTCGTGGTAGAA
GCATCTGCACGGTATCAGATTGAAAATAGGTATAGTTTTAAGTCTTTTTT
TGAGAGAGAAGTCTGCGAATTAGGCTTGAAATCCAGTCTATATAATTTCA
ACTCTATACCGCTCTCCCGCAAAAGATGCTAGGGATCCCAAACGTCGGTC
TCCTAAGTTTTTTTAAGTCTGAAGCTCCTTTAAATTAATCTAACAGTCAG
CCAATGTCCACTTAATGTTCTGTTGTGTCAACTGAAGAAAGAAGATACAA
TTATCAAAATCTTAGCTCACTGGACTCCCCAGGCATTCATTTTTTTAATA
ATATCTTATCACCTACGTTACAACCATTTTCTTTTATTCCTTCAGGTGCT
TCTACATTACCAGTGAGCGGAGGTCACATTCAAATGGACTTACCACAAGA
CCTAACCATTTCTAATCAATGGATTTCATTAAGTCACTGGGATAGTAGTA
TATACAAAAAAGGGCTTTTTATGTCCGATTTTGAAATGCCATCAAACACA
ACATTCTTTGTGAAACGTTCTGGAGTTTATTTCGCATCTCTTTACGTGCA
TTTAGAACAAGCGACGTCCAAAGATTTCGCCATACGAATTCATACAAATC
AAAACGAAAGTTATACATCGATTGGTAAATCAAAATCAAAACTCAAAGTC
TTACATTTGAATCAAATTCTACTTTTAAATGAAAAACAAACTTTCACAGT
TGATGTCAACTGTTCCCATTTAAACACAATCAGCCAGAAAACTGTAATCT
CGATACATTTCATTTCCAATTTCGCATACACGTTAGGCTTTATTGCCAAC
CCGAATGAAATACAAACTGTCAAAAGCCAAGATTACGAACAGGTCCTTGT
CAACTGGAATGTTATGTTTGAAACTAGCTATGGGTTCTCTGCTGCTACTG
GTCAATACACTGCACTAGAAAGCGCTTATTACGTCATTACTGTACAATTA
ACATTACGTAATGTTTATGGTAAAGTGATGTTATCATTACGCAATGATGA
CGTACGTGACGTCATTAAGGAGGAGTATTTTGAGGATTTAAGTGAAATTG
TGACCATGACGTATAGCGGGATCCATCGAATCAACATAAAGAGAAATATT
TTGTTGTCTGTCAAAACATTCGATTGTAAAGCCATTATCGATAAGCGTTC
TGTTTACTCTGTCATGCGCACTGAAACAATTTATGGTTACCAGGCCTCTT
ATTCGTCTCATGATGATAAGTCTCAAAAAGCTATCATTGAGAAAAACAAT
CAAATCGAAAGTGAAAGTGAACAAACTTTAAAGCACTGGCGAACTTTTCA
CAACCATACGGCATTTCTTAAGAACCGTGCAATGTTTCAGTTAAGAAAAT
CTTCATTGTATTTTGTCTATGTTCAAGTGAAAATGAAATCCATAGATTCG
CCTACAGACCTCATTGATGTTGAGCTTTGTATTGATGAAAGAACGAACAA
ATATTTGTTATCTAGGCAAAATGAAGGGAGTCTTTGGGCAACACTAGCAG
GTGTATTTTACATCCAAGACAGTCAAGATATTTCAATTATTATCCATAAC
AAATCACCAAATCCAATCGAAATCGCGGGTGATCAGACGAGCATTTATAT
TTCAGAACTGAGCTTTCAGACGTATTCATCTACTTATGCTGTTGTACCAA
TTTCTGACGAAGAGATCCATAATGGCAGCCTGTATCCTGTTGCTTTGACA
ATGGAAGCAACATCCAATTTCAATATGGTAACGAAAGCTGTGAGAAATAT
TATAACAATTCAACACGAGGGTACTTATCATGTATCTTTGAACCTTTATT
TGCGAAATATTAAAGAAGATATAGAATTTGTGGTAATGTCAAGGTTGGAT
GGAAATCGAATGAAATGGGACACGTTGAGTAAATGTATCACTGGCCAAAC
TGACCAATGTTTTGTTGCTTCGATTATGCGATTGAAAGAAGGGCAACAGT
TTATGGTTGGTGCGTCCACGCCTTTAAATGACGTCATCGTCAAGGAATCG
TTCTTTCAAATCATATTTCTTCGTTCGCAAGATGAGACGACGAAAACTTT
ACAGACCAGAATGGCCAAGGATAAAAATACACTAGCAGAAATTAACCCTG
TTTTTAAATTCAACGATGGCGATAATTTCTATCTTTTAACTTTGAATTTG
ATTCTCGCCAATGTCTCTGATTCTCATGTCCGTGTAAAATTCGATTTCAA
ACTCGGAAGACTCTGGAAACCCATTAAGAAGTTCCAAAGACAACTAAATG
AAAATCAAACGCGAGTCAGCTTTACTTTAACCGAAGGTTTCTACGCTCGA
AAGGGATCTGAAATTAAAATGGAAATCATAAATCTCAAAGGAGGGAGCTA
CATTATAGAGTCGTTACAAACTGCACGCTTAATGTTACCGAAAAATGAAG
AAGGCAAAGCAAGATTCAAACATCTCCGCGTGGACACGCGAGCGGGCGTG
CAATCCGTGTTAAACTTCGTTGCACCAAAACGCAAACATTCAAATGGGAA
GTATTTCACTGTAGTCAATTATTTAAAAGCAGAGAAATCATCCACAGCTC
TTCTGATGGTGACTTTAGAAGGACATTTAAAATGCCAGAATCATCAACGT
CACAGATTGAAAGCTAAAATTCTTCTCCGAAAAACTGAAACAACCATACA
AGGCTATAGAGAGAACTTAAAATGCAACGAATTTGTTTCACTACACATGA
CAGGGGTCGTAGTAGCCCATGTTGAGGATTCAATTAAAGTTTTGATCGAA
ACTGACCGATCCTCTTCTTTCACTGCGACTAGACAAACGACCATTACTTT
ACTGGTGTTGAAAGAGAATCCACTGAAAATGTCACCAACCTCTGATCTAT
TTCTTTCCAAAAGTTTGGTAACGGATGACACTGATTATGATAAAGGTATG
ACGATTTTTACGTCGTGGGTCTTACCGTAGCATGAAAGCGGTCAAAGCAT
CTGCCTACTATGCGAAAGGTCGGGGTTTTGATCCCCAGTCGGGTCATGAC
CTTTTTGTGGCATTATTCCAAAAAGGTTTTTGATGATTGTCTGCTTGATG
CTCAGATGATGCTACCTTTTTTATAGAGGTGTATTCTACTAACATTCTCT
GCCCTAATTGTTTGAGTGAACTTTAGAAAAAGATTTTTCATTGAATTTCA
GATATACAAGATACAGAAGCTGGTGGATTATATGAATATCTGGTAGCATT
GGAACGCTCTCAAAATAAGAGAATCCATTTCGAATTTTCCGTTGAGAAAA
ATCACCAGAACAGCAGAATAATAACGAAAAGAGACACGTCAACTTCTCCA
AAACTATTCATCTTTTCGTACCAAGAAAAAAAGAATATACGTATCAAGAT
TTTGGTCAATTTACAAAAAGGTCAACAAATCAAATACTCACCTCAAGTCG
ATGACGTTGAAATACAACGACGGAAACTCTACGAGTTGAATCTGAAACAG
TTAAACACAATACGAATTGACAAAGTCCATGAAATATGTCATAATTCAAA
TAAAGTTAGCATTCTCTCTGGCTGGAGATGTTCAGATGGGAAACACTGTG
ACCACAGCCTTCATACCGCAAACAACTCACAGACAGTTGTAATCAATGCC
AATATCTTTGTCAAGGCTCGCAATCTAAAAAAACTTGAGTAAGTAAATGT
TTAAGAAAATCGCATACCTAGGCTGATAATGAATTCGGAAGAAATATTAA
TTGAAATCTCCTCTGCTATCTATGTTAAATAGGTTGTGCTGGTTTGCCGA
GAGGTTATGTAACTTGTAACTTGGAAATCTTTATCAAGAAAAAATCTAAA
CGAAAAACAAATCAAGCAAAAATCAAAATCCCGTTCATTAAAACTAAATC
AACGAGTGTTATTGCACACGCGTTTTAACGCTTAAAACCTAAAGTCACCA
TCCTTATACCATCCCAGTTTTCTTTCATTATGGTGGAAATTATGTAACTA
ACCTGAAAAACCTTTGTTAATGCCAATCTGCTCCGTCGATAATTTTAGAA
TCTCGTCTTTGCAGCCTTTAGAAATAAATTATTGCTCTTGTAGGGAATTG
TATATCGCAGTGGCTGGCAACGTGATCAAAAAATTCTCAATGACGTCACC
TCAACCAACAGGAGCTAATATTTATCTATTACAAGCATCTTACAGGATTT
TCATGAAGCGAGGAGAAAGATTGCAATTACATGTTCGATGTCAAAATAAA
ACGAACTTCATCCAACCCAATTCTATGGTTCAAATTTACATTGAAGGTTT
GTATTTTTTGTTACATACATAATGGCGAAAAGAGGAATATTGCGGAATCC
TCCATAGAACCTTAAATAAGGTTGACTCCAGTTAGTCAAAATTAAAGTCT
GTGTCAAAAAGGTGTGCAGTGTTTTGGCCATAACTTTTCCAAGCATTTGT
CGTATAATGAAAAGAAGGTCTCGTTGGAAAACTATAGCTTCCGCCGGGCC
TGTATTATTTAAGGAGCTTCTAGCTTGGTTTCCCTGACCGAACGCAGAAA
AAGCATACCCACGTACGGAAAGGTTAACGCATTATTTAGAATTGAAGACA
GTGGGATAAGGCCGAAAAATTAGAATAAAGTTTGGTTTTCGTTTCTGAAT
ATTTTAATAAACCCCTTCGGTTGGGGTCTACGATGAGATTTGTACGATGA
GAAGGATTTATATACCAATAGCAGTTCGAATGAGCGATAGTAAACTGTAA
TCCTAAAACAGCTAATATTCCAAGGTATTTTCTCTTTATCATAGCCATTC
ACAAGTCGATCGTGGATGATTCGTTTCCAGTCTTCTTGGTCCACCCCTCT
CCTAACTACGTCAACAGATCTTTCATCTTCAACTATACATGTGAAGCACA
AGTGACTGGCCAACAACAACATGACGTCAAATACTCATGGAATAAAGTTG
GATACGTGAGTACGATTCATTCTACCGCAACGGACTAAATGTGGCGAAAA
ACGACTAAATCCTTTATTTTCATTTCCCATGATATAAAGGAGTCGAACCC
AAACATGACCTTTAAAATCGACTAAATTCATCAGTTTGCATTTGTCTTAG
TGTTTTTGGAGTCCATTTTATATTTGAAGGCAGACCCTTATGTAAAAATT
TCTCTAATGAATCACTTCTTTAGGGTCCTTTAGGCCTTTACGTTTAGAGT
AGGTCTCAATGTATTCAGCTATTGTAATTTTGACACACATTGTGGGAAAA
TGCAGCTTTGATATTGGGCTTTTCCAGAAAAAAACCGGGGCTGAGGTTTG
ATATGTGGCGGAATTCCATAGGGAGATACAAAAATCTGTCAAAAATAACT
GGAAATCCATGAGAGTAGCCTTTTAAATCCTACTAAAATTCAGAATTCCA
GAAGGGTTTACGTCTGAAATTGCCTGGAATTCCAGGGGGTTGCAGCATTT
CCAGCCACAAAATGATGGACCTCCTCAACAGGGGGTATACGGTTTTTTTC
TGGAAAAGCCCATTTGAAAATCACAGGGAACCTTTGATATTTAAAAAAAC
AATTTTTTGGAGCTGTGAAAATATAATTTTTACTTTTCATTCGCAGTATT
CACATGTGTTACATTCTCATCTGTCAAATGGAGATTTCCACACAGTGAGC
GGTCAGCCTGCAGAGTCTGGTCATTATTTCTGTTCGGCAGAATATCAAGG
CTTCTCATCTCAATCACAGACTGCCACGCTTCATATTTACGGTGAGCAGC
TTTTACTTCGAAAGATTTATCGGTTTCTTGAAAGACGTTTAGGCTATTTC
GTTTCTATTTTTCACAAAAAACCTCAACTCTGAAACATTGCTCATATTAA
TCTTTCTTCAAAGTCAAAGTACTCTTCTTCGCAAAAATAAATCTTCATTT
TCTTTTAATTCCATCCATGGCGAGCACATAAAAATAATTCAAACATTATG
ACAATCCAAGAACGATCGCGATTTCGAAATTTGTTATCGAACCCCCTAAA
GTGAGACAAGGTTTACCAGCGTTCGCCAGCGGCACATCACGTTATAATAA
CACCTATAACGTCTTTAGTCCAGGCTGGATGTCAATAATCTAATGTTTTT
TTTCCTTTTCATAACCTACCGCAGACGAGGACGAGTGCTTGATATTATCA
AACACGACACATCGAGAGTTATATAACATCACATTACAGCCGTGTCACAC
GCATGCGCAGTGCATCAATACTATTGGTTCTTACATGTGTCAATGTTTTG
ATGGTTACCAGGGTGATGGATTCCAATGCCAAGGTTTGTTTGCTTCTCTT
CAATGTGAAAAAATATGTAATATTAGAACGGAACACATAACGAATACATC
TTTACTGTAGCCAATTAGTAACGAGTCACGCGGAGTCCCTGAAAGCAAAT
TTTCTCCCATTACGCCTTCACACTAAAAGAATTCTCTTTTCAGTAACGCA
TAAAGCTTTTTGAAAATAATAGATGATCACGCCCTTACGCCAAAAAAGAC
CCAATCACGCAAACGCGGGGGCAACAGTTACCTTCTATTATTTCAAATCT
ACACTAAGAATAAAAAGAATGCGTAAAGAGGTATGAATCTAAGATATCAT
ATCAAATAACGCAACTATGACGACATTGGTTGTGCAGTGCAAAGTGTCTG
ATAAGAGATTTACAGGGAAATAACAGATATTTTTATTCAACAATAGATCT
GAACGAATGTGATGAAGTGGACAATATTTGTGGTGAAGATTCAGATTGCT
TCAACACTGTGGGGAGTTATAAATGCCAGTGTCATAAAGGTTTGTTCGAA
ACGAGTCATATCATGCAACAAAAATTTGTTACTTATACTAGTTTTCAGAG
ACCTTGTCATTGTATACAACTGTTAGTTCTGGGCTCTTTATGGAGTCAGG
CGTTAACCTACCTACCTAGGTCGGGTGTCAGACAGACGTTTAAGTCTATT
TTATAGCAGTGGAAACCATGTGAGTATATACTTTAACCTTTATCACACCC
CTGTCTCACAGCCTCTCTGAACTTTTTTCCTCAGTGGGGATAAAAATTCC
TGTTGAAATCCCAATGAGGATAGAAATTCCAAGGTTAAAAAATCCATGGT
TTTGGAGTGCAATTTTCTTTTGTGAGACAGGGGTGTTTTATCTTATTTGT
AATTTTTTTTCTCACTCACATCCACAGAAAAAAGAGTTAGAATCTCATAA
GATTCCGTTTAGCTCGTGAAAATCCTGGTCCTGTAAACCAATCTTAAATA
CTGGTGAAAGTTGTAGCTGCCTAATAAATCTGTATAGTATCGACTCTACC
TGTACACGTTTTTTTTATAAGAACATCCAAAATTGTTGAAGTCTTCGGAT
TTTTGAGTTTTAAGCCTAAAAATGTTCTTAACATGTTCTTATTTTGACCA
TTTTGGGGATATTTTTTATCATTTTGCGAAGAAATAGGGTGTTTTTGAGT
CCACAAAGTCTTAAAATGTTCTTAACTTGTTCTTAACATTTTAGCCAGCG
AAGCCTTATATTCTTATATAGTTTGTTATCATAAAAAAAAAAAAACGTGT
AATGTATTTATAATGTTTCACAACCATATCCATCTTTCAATCTCGCATGT
TGCTAGGTTACGAGGGCATAGATGGTAAACAATGCAAGGACATTGACGAA
TGCGTGAGGCATGGACCCGAGTTATGTCAACAACAGACCAGATCGAACAA
CACGTTTTGTATCAACACTGATGGAGGATTTTTCTGTAACTGCACAGAAG
GTACGTACATACAACATCCATCAAACATTCATAACGTCCGGGGCATAACG
ATGGGCATTCAAAACAACGTTGGTGCCNTATTCATAACGTCCAGGGCATA
ACGATGGGGGCATTCGAAACAACGTTGGTGCACCATCTTTAAAGAAGATT
AAAAGAGCAGTTTCAAAACTTGGCAGAAATCGGCAATACTAAACAGTCCT
GGCTTTTCAGGGATAAAAAGCTAAAGTTTTTTCACCTTTTGTCTCAAGAC
ATTTTTGAGTCACTGGTTGATATCCTGGTGACTATATGCAAGTCCAAGTC
TGTGAGAAAGGGGTGTTTTAAATCCAGATGTCAGGTCAATGTTAAACAAC
TGCGCCAAATATGACATGATATCTAACCATTTCATTAGAACCCAGTCTGC
AAACATGATATACCACGAAGATCACAATCCATAAATCCACATTTATCACT
TTCAGCTTTTTACAAAAAGAAACATACAAGCCCTTTACTTGGTTCATATT
GCATAATATGCCAGGAATAACACTTGCTTACATCTGGATTTCTTACTTTC
AGGTTTTTACAAGAAGAAGGGGCTTTGTATTGATATAGACGAGTGTGGTC
GTGATCCTTATCCTTGCCATGCAGAAGCCACGTGTCTCAACTCTCCTCCT
GGTAGTTATTCTTGTGAGTGTGACCAAGGTTGGTTGGGAAATGGAACTCA
TTGTGAAGGTGAGTAAATTAGGCCATGGGCTACATAACTTTTCTACAGGG
CGTCTGGCGAAATAGTATCGATTTAGAACATTTTATCGAGTAGAAAAGTT
TGTGTGCTCGTTATCGCCCAGTTATTAGAACGTATTACATCATACAGGCT
TATTAGAAAAGTTTGAACGTACTAATCGATAGTCTTTTCCTTGTTGCACA
AATGTACGTCTTTAAAAATCAAAGGAAAAAGAGAGATAACTCGAAATATA
ATTTTGTGAATGTACACATAAAAATTTTTGACTCGTAGTTGTGTTTCGAC
TTGATACTTTTTTTTCTGGACACTCTGTACTTCTTGAAAGATTTTTCGTA
TCGCTACTGCATGGTGTCACTTCATGGTGTCACTTTTCCTAGGAAAACAC
AATGCTCCAATCACTTCAGTCCTCAGTTAAGTAGCTCGCTGATAAATTGC
CGAGGTCGTTGCGCTATTTCCATGTTTGCACTATTATGGCAAGTCCTCAA
TAGGGTTCATCAGAGTAGCTAGTACCCTGAGTATCAGAGGTTAAGTTTTC
AAAGAAAATAGTAACCTCTGAAGACAAATAATAGAAATTTTATCGCGCAT
GTGTCAATCTAATCCCTGTAGAAAAAATCAAAGATGAAGAGCAAATATTA
CCATATTAATGTCTAGCAGACTGTGTCAGTATGCAGTTTACTATTTACGA
ATTCCCCAGAAACCTCCAAGTGTAGTTGAAATGAGTTTATTTCGAAAGAA
ATCTTTTACATGATCCCCAAATGTATAACAGTAATTACTAAACTTTTAAT
TATGGAAATGTCACTTTAATTGAATCGTAATAATAGACAGAGTTTATGTT
ATGGTTCTCTATCACTGACTCTTTTTACAAAGCATTGCTGACTTTTTGTA
AGTTGTGTTTTCAACGACGGGAATAAAAATATCGACTATGACGCTCATCC
AAGATCTTGGTTGGTCGTCATGGTTACTTTTGTCTTCGCTGATTGCGCGA
TGAATAGAATCTCGATTCGTCGGCACAGCGTAAATATATGATTTTGAGCT
GTGCTTTTCACGGTAAGTAGCTAGATCTTCTGTTAGGGACTCGAACCATG
TCCTTAAGTTTGTTTTTGCTTATTTTGATAGCGCTCACGAAAAGATTGTA
TCAAGTCCATCAGTAAAACGAAAAAGTGATGCAAGTACGAGATTTCAAAT
TCCAAAATTTCCATGTTCATTCGAATTTACTACATTTATTCCCATTGTTT
CCACACAGATATCGATGAATGTAAACAACCTGAGAAATACAAATGTGCAG
TCAACGCCACTTGTCATAACTTTCTCGGTTCTTATCGATGTATTTGTGAT
CATGGTTTCAAAGGCGAAGGTTCTGACAATTGCGAACGTAAGCAATTTTA
TTCAGTATTTGGATTTATCAATAACTCAAACCTTCCCAAAAGTTGATTAG
CTCTAATACGAACCTTTTCATAATTTGAAGCTCTCCATAACTTGAAAATC
TAAAATTCAGACATATCCATAAGTCAAAAGTTTGAAACTCGAGCGTCGGC
TTAGCTCGAAAAGCTTTGATTTGAACTTCTTCTTAACTTCTAAAACTGGA
TCCTCCCCATCAATTTTCATAAAAGGAACATTTATAATTCGAACTTCGCC
ATAACTCAAACATCTCCATAACTCGAATTTATTAAACTCAAACCTATTAA
TATATACTATATCTTTATAACTTTTACACTATGTCTTGTCCCTGCCGATT
TCACAAACGACCCTCTAAATCACCTTTTCAGCACTTGGTTGTTTCCCACC
ACCTGGTTGTTCTGGTCAGTTCCTTGCTAAATGGTGGAGACGCATTCCCT
ACATCGAGCAAGATGAAGCACACGAAAAAGCTGAAGGCCTCTTCAAAGAC
ATCCTCAACCTCATCATCACTGATATTTGTCAGAATTGTTCACAAATCTT
GTTCGACATGCCACCTGCGAATAATTCGAAAGAAGTGGAAGACCAGGTGG
AAGCTAATCAAACAGATTTTGGATGCCCAATGTATGGATCTAAGGAACAA
GAAAGCTTTCGAGATTTCCCTTTCATCCCCATTGGTAAGCTTGTACGAAT
TATACGAATACTTCAGTTAGAAATCACTAAAGTTTCTATACCTCAGTTAG
CTAAACCCAATGTTAACCAGTAATATTCGAAAGATTCACCACGATGAAAT
TAAATAAACCGCTAGGTTCGATCTGTCATCGCAAATGCGGTGCAAATATT
AAGGCTTCATTTTTTTCTCAAAGATTCCTCTCTACTAGCCCTTTCGGTTA
GGTCATCATCATATCGCCCGTTCATTTCCCATCTTAATTTTTTTTCATAG
TTGAATCACCAGGCGTAGCTTTCTTTGTCAAAGATATCAAACAAACGTCA
AGCCCTTTGCTTGGTTCGTTGACCGGATCATGGCCAATCTTAGTGATGAC
ACTTCTCTTGGCTTCTGTGTCTGGTATCATCATATGGTTCTTGGTAAGTG
AGACCAAGGTCCAAGGATGTGTTCATTAAGAGTACTGTCGTTTGGGGCAA
GATTTCAATCTTGTTGAATTCCAACCTTTTACAATTTTGAGGCGTGGGAA
ATACAGCAACAACAATATCCTGGAAAACTTAGGGGATTTTTATTCCGGGG
AGTGGAATCTTAGCTCAATCGACGGTAAAACGCATCCGATGCAAAGCTAA
GTTATAATGGATAGTCCCTCTTTCAATGCAATGACTTCAAATTCTATTGT
TCGATACGCTATTCCGAAGTTCAATGGTATTCTCGAAATAATGATTAAGG
TCTCAGTCGGTATAGAAATTTAGTTTTTGAACGGTGATAAAATATCTCGT
TATTTTTACGAAAAGAAACACAGAATATTTTTTTGACTGATTTTTATTGA
GCTAGGAAGGGTTCCATCGGGTCTGTGGCACATAAGTGTGTGGTAAGAAT
AAGGAAACGGTAAAATTCCTCATTTTTCCAGGTTCATTTTATTTTTTTCA
GGACACGATTCAAAATCCAGATGAATTTCCACAATCATTCCTTCAAGGGT
CCTGGGAAGGATTTTGGTGGGCTTTCATTACCATGACAACAGTCGGGTAA
GATATTATTTTGATTGGTAGAAAATATCTCTATTCAGATTGGCTGAAAAA
GAGGACTTCTTTAATTCGATTGGTTGAAAAATGAGAAATCTGTCTTTTTC
TTGGCTGATTTAACATTTAACTTTAATTTTTTTTCGTTCGAATTTCTCAC
TGCTATATATACTGTAGGATATACTGTTAAATTTCACAATGGTTTTGGAC
AAATCTTAAAGATATTTGATTGTTGTCACCTAACAAAATTCGTTATATCT
TATATTCAATAAATTTAACTTTAATTACCTTTTCTTTGTTTCTAGATACG
GGGATAAAGCACCTCGCTCTTTTTCTGCACGTTTATTTGGAGTCTTTTGG
ATCTTAGTTGGTTTGGTCATCATTTCAACTTTTACGGCAACGATAACGAC
CGTTCTGACCACCACAACTTTGACAAGTGAAACCAAAATGTACGGAACGA
GGGTGGGCGCTTTAAACAATTCCGAGGAATTCCGATTGGGTGTTAAACGG
AATGCCGATATTCAAGGTAAAGGTTTATCATTATCCATCTAGTCTGCCCT
TTGCCAAAAATAAATAGTGTATATACACATCGGTTTTTCTATAGTTTCGT
GCGATGGAATTTTTACTCTCAAAGCATCAGTAGGGAAAATATATGTCTCA
AGGTACTGCACCTGATCTCAGTTCTTCCTCGGTCTTCAGCTTATCACTTC
CTTTTCTGTCTTGTGCATTCCTTTTGTTTACTTTTTTTATTTATGGTTAG
TCGTTAGTTTGTATTTTCTTCAGTGTATATAACTTGACTATATGTCTCTC
GAACACTCTCACACTAACTCGCTACATGTTTTTTATAAACATTGCACTTA
TAAGCATATATCTAGGCTCAGAAATGGCAAAAATTTAAGCATGTGATAAG
GATCACCTTGAGCCTACGAAAGATGTATTTTCCTGTTTTTGGCTGGGATT
TTGCGGATTTTCGGAATTTTGCTTGGGATATAAACATCCTAATATAAGCA
TTTTTCACCATTGTCAAGCCCTCGACCAAAGCATCTCCGATTCTGTTTTT
CATATTTTTGCAGTATAAAAAGAAACATGTAAATCACTCTCTTTACTTAT
TCTATTTCGAACAAAAATCTTAGTTTCTAAGTTCGGGCTAGGATAGGCCC
AAATACTTTCTTCATCTTTTTCAGTCATTTTTGACGTTCATTTTGATTAT
TTTCTCTTTTTTTTTACACAGAATACAACTCCATCCGTGAGATCATTCAA
GCTTTACAGCGCGATGAGATCCAGGGTGCATTGCTAGACACTTACATTGC
CGGTGAATATCAATCAGATTTGAAAGAATATAAACTTCAAGAGATTCTGG
AGCATGTGTTCGTCTATGGTGTTGTATTAGCTAGAGATGCAATCCAACTT
GAGAATCGGATGAGAACATTCACAGAACAGAAACAATCCACTATTTATAA
CACTATTTCCAAAGTCATTAAACCATTGAAGGAGATTAAGCATGGGTCAA
ACACGGTGACTGAATCGGTTGGGTTGTTTGATTCTTCGTCATCTTTCTTT
ACCAAGACAATGATCTTTGGCTGTATCCTTCTCGCTTTCTTGGTCATTGT
TGGATTGCTTTGGGATTGGTTGTGGAGACAACAAATGGCCAAACAAAAAG
CTATGGACAGTATGTTTATATTACTTTTGTATTAGTACGTCTAGTACAAC
AACCGTTTTACGCACTCACGCTCTGCTCTATAGAGATGCAAAATCCAGAA
ATTGAAATCAAAAACAAAAACAACTGGGTTCCAATGTTTATTTTTCATGA
TTGACGTTAGATCTGGATAAGAATCATTAAAGTGGTCCGTCAACCTGGTT
AAATCTTCTTTCAGAGCCATGGCCTTTAGACTGAATACTTGACATGCACA
TAGTAATCATTTGGGGGGCACTCGATTTCTAAACGACGGCATATGCCGCC
AAAAAATGGCTTTCAAAAAGTACCCTTACAGTGAATTATACCGAACGTTT
CTTACCCTTACAGTGTAGTTTGATTTCATTTCTTATTCTCCTAAAGCCAA
CACAATGTACAAAACAAATCAAAATGGGTATTGTAACCAGCTACAATAGA
AAAGCGGCCATTCGAAGTTCCGACAAGGGAAAATAGATCTTTGTAAAATA
TGACTGAAAATCAAAAAACCGAGGAAGTTTTATTCTGATGTTAAGTAAAT
CCATAGACAATCTGAATTTGAATAACCGAAAAATTTGATTAAATGAGGGT
CGGAATAATCGGGAGTTTTCTGTGATACGTTTTCTTTCTCATTCACCAGG
CGACAATCGAAAGGACTCGAACGGTGGTAATTGGTCATCTACAGATATCA
TTGAATATCAACAACATGCTTTTAAATCTGAAGTGACAAACCTCCGAGAA
CAAATTGCTTCCTTTGCGAACACGTGGGTCAATCGTTTGAATGAAATCGA
AAATCATCATGAGGATCAGCTCACCAAAGTACAAAGCTGGCTTTCCAAGG
TATCATTTCCTTTCACAATTCTCAATCCTAAAGGGGTTTGTTTCCTCGGT
AATTGTACTTGTTGGATGAGTTTTCGCGGATACGCATTTCTGCGAAATTT
TAAGATTTCGTAGGACTTGTTTTCGCGGGTGACGCCTTTTCAAATATTTT
ACGAAAAAAACAACAAGATTTTTAATGGCTAATAAGTTTGTTTTGTCCAC
GCTTGCTTTCATTATTTGATACATTTGATATTTGATATAAGTGGAGGGGC
TAAAGGCTCAAAATGAGATAAAATGAGAAAAAAAGTATATTTTGCTCAAA
AGTTCAAAAAAGCCTCCCCGGTTCCGCCGGGCCTGTACAGCATGTGCATC
ATGGTCTTCTAAATGGAGACAGACTTTTATGGAATGATCACTATCAAGAA
AAATGACTTTATTTTTTTACAGACCAATTTGAACAAATCAAGTGGTAACA
AACGAAAAATGTCGAAGAATTCACAAAACGGTTGGCTGCATCATAAAATA
CCACAAGAAGATTTCTTGTAAATTCTCTCAAATTTGGGCTTTTCCAGAAA
AAAACTGTATACCCCTGCTGAGGAGGTCCATTACTGTTCCAAGAGGGTAA
GATTTGATATGTGGTGGAATTCCATAGGGAGATACAAATATCTGTCAAAA
ATACTGGAATTCAATGGGGGTAGCTTTTTAAATCCTACTGAAATTCAGAG
TTCCAGAAGGGTTTAAACCTGAAATTGCCTGGAACTCCAGGAGTTACAGC
ATTTCCAGACACAGAGGGATGAAACTGAGGAGGTATACGGTTTTTTTCTG
GAAAAGCCCGTTTTGCTTTTTTAGTTTCTCCAAACATGTACATATAGATA
ATTTTTGTGCTCATATATGAAACTAAA
Gene-mRNA-Prot
This transcript is a part of the following gene feature(s):
Feature NameUnique NameSpeciesType
XLOC_014702XLOC_014702Clytia hemisphaericagene
The following exon feature(s) are a part of this transcript:
Feature NameUnique NameSpeciesType
TCONS_00026155-exon-sc0000563-1575043694:112882..113037TCONS_00026155-exon-sc0000563-1575043694:112882..113037Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1575043694:109943..112492TCONS_00026155-exon-sc0000563-1575043694:109943..112492Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1575043694:109200..109686TCONS_00026155-exon-sc0000563-1575043694:109200..109686Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1575043694:108592..108794TCONS_00026155-exon-sc0000563-1575043694:108592..108794Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1575043694:107933..108093TCONS_00026155-exon-sc0000563-1575043694:107933..108093Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1575043694:107147..107291TCONS_00026155-exon-sc0000563-1575043694:107147..107291Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1575043694:106605..106763TCONS_00026155-exon-sc0000563-1575043694:106605..106763Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1575043694:106099..106191TCONS_00026155-exon-sc0000563-1575043694:106099..106191Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1575043694:105138..105281TCONS_00026155-exon-sc0000563-1575043694:105138..105281Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1575043694:104430..104585TCONS_00026155-exon-sc0000563-1575043694:104430..104585Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1575043694:103051..103179TCONS_00026155-exon-sc0000563-1575043694:103051..103179Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1575043694:102354..102656TCONS_00026155-exon-sc0000563-1575043694:102354..102656Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1575043694:101945..102087TCONS_00026155-exon-sc0000563-1575043694:101945..102087Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1575043694:101342..101436TCONS_00026155-exon-sc0000563-1575043694:101342..101436Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1575043694:100822..101042TCONS_00026155-exon-sc0000563-1575043694:100822..101042Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1575043694:99679..100116TCONS_00026155-exon-sc0000563-1575043694:99679..100116Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1575043694:98839..99038TCONS_00026155-exon-sc0000563-1575043694:98839..99038Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1575043694:97961..98415TCONS_00026155-exon-sc0000563-1575043694:97961..98415Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:112882..113037TCONS_00026155-exon-sc0000563-1510915933:112882..113037Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:109943..112492TCONS_00026155-exon-sc0000563-1510915933:109943..112492Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:109200..109686TCONS_00026155-exon-sc0000563-1510915933:109200..109686Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:108592..108794TCONS_00026155-exon-sc0000563-1510915933:108592..108794Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:107933..108093TCONS_00026155-exon-sc0000563-1510915933:107933..108093Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:107147..107291TCONS_00026155-exon-sc0000563-1510915933:107147..107291Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:106605..106763TCONS_00026155-exon-sc0000563-1510915933:106605..106763Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:106099..106191TCONS_00026155-exon-sc0000563-1510915933:106099..106191Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:105138..105281TCONS_00026155-exon-sc0000563-1510915933:105138..105281Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:104430..104585TCONS_00026155-exon-sc0000563-1510915933:104430..104585Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:103051..103179TCONS_00026155-exon-sc0000563-1510915933:103051..103179Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:102354..102656TCONS_00026155-exon-sc0000563-1510915933:102354..102656Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:101945..102087TCONS_00026155-exon-sc0000563-1510915933:101945..102087Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:101342..101436TCONS_00026155-exon-sc0000563-1510915933:101342..101436Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:100822..101042TCONS_00026155-exon-sc0000563-1510915933:100822..101042Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:99679..100116TCONS_00026155-exon-sc0000563-1510915933:99679..100116Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:98839..99038TCONS_00026155-exon-sc0000563-1510915933:98839..99038Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1510915933:97961..98415TCONS_00026155-exon-sc0000563-1510915933:97961..98415Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:112882..113037TCONS_00026155-exon-sc0000563-1491911889:112882..113037Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:109943..112492TCONS_00026155-exon-sc0000563-1491911889:109943..112492Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:109200..109686TCONS_00026155-exon-sc0000563-1491911889:109200..109686Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:108592..108794TCONS_00026155-exon-sc0000563-1491911889:108592..108794Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:107933..108093TCONS_00026155-exon-sc0000563-1491911889:107933..108093Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:107147..107291TCONS_00026155-exon-sc0000563-1491911889:107147..107291Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:106605..106763TCONS_00026155-exon-sc0000563-1491911889:106605..106763Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:106099..106191TCONS_00026155-exon-sc0000563-1491911889:106099..106191Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:105138..105281TCONS_00026155-exon-sc0000563-1491911889:105138..105281Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:104430..104585TCONS_00026155-exon-sc0000563-1491911889:104430..104585Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:103051..103179TCONS_00026155-exon-sc0000563-1491911889:103051..103179Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:102354..102656TCONS_00026155-exon-sc0000563-1491911889:102354..102656Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:101945..102087TCONS_00026155-exon-sc0000563-1491911889:101945..102087Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:101342..101436TCONS_00026155-exon-sc0000563-1491911889:101342..101436Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:100822..101042TCONS_00026155-exon-sc0000563-1491911889:100822..101042Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:99679..100116TCONS_00026155-exon-sc0000563-1491911889:99679..100116Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:98839..99038TCONS_00026155-exon-sc0000563-1491911889:98839..99038Clytia hemisphaericaexon
TCONS_00026155-exon-sc0000563-1491911889:97961..98415TCONS_00026155-exon-sc0000563-1491911889:97961..98415Clytia hemisphaericaexon
Position
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
sc0000563supercontigsc0000563:97961..113037 -
Expression

Hover the mouse over a column in the graph to view expression values in transcripts per million (tpm).
Sort Descending | Sort Ascending | Only Non-Zero Values | Tile/Chart | Reset | Show/Hide Values

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
1.00693	1.02586	0.461485	0.31795	0	0.0313541	1.04846	1.40175	2.87201	2.48626	3.51992	2.28466	1.63082	1.131	0.06686	0.0772703	0	0.176733	0.566163	0	0.945772	0.575126	0.695629	0.601707	1.33263	1.43078	0.136614	0.0237023	0.0502649	0.174121
Blast
[Close]
BLAST of TCONS_00026155 vs. Swiss-Prot (Human)
Match: AGRE2 (Adhesion G protein-coupled receptor E2 OS=Homo sapiens GN=ADGRE2 PE=1 SV=2)

HSP 1 Score: 135.191 bits (339), Expect = 9.538e-32
Identity = 94/287 (32.75%), Postives = 134/287 (46.69%), Query Frame = 3 
Query: 3771 CHTHAQCINTIGSYMCQCFDGYQG-------DGFQCQDLNECDEVDNI-CGEDSDCFNTVGSYKCQCHKGYEGIDGKQ---------CKDIDECVRHGPELCQQQTRSNNTFCINTDGGFFCNCTEGFYKKK---GLCIDIDECGRDPYPCHAEATCLNSPPGSYSCECDQGWLG--------NGTHCEDIDECKQPEKYKCAVNATCHNFLGSYRCICDHGFK-------GEGSDNCEPL---GCFPPPGCSGQFLAKWWRRIPYIEQDEAHEKAEGLFKDILNLI 4517
            C   + C+N      C+C  G+             C D+NEC  +  + CG+ SDC+NT GSY C C  GYE + G +         C+D+DEC +  P LC    +S  T C+NT G + C C  GF  K     LC D++EC     PCH+   CLN+  GSY C C  GW          N T CED+DEC    +++C  +  C N +GSY C C  G+K        +    CE +      PPPG   Q L++++ ++  + +D     A    + IL  +
Sbjct:   33 CPQDSSCVNATA---CRCNPGFSSFSEIITTPMETCDDINECATLSKVSCGKFSDCWNTEGSYDCVCSPGYEPVSGAKTFKNESENTCQDVDEC-QQNPRLC----KSYGT-CVNTLGSYTCQCLPGFKLKPEDPKLCTDVNECTSGQNPCHSSTHCLNNV-GSYQCRCRPGWQPIPGSPNGPNNTVCEDVDECSS-GQHQCDSSTVCFNTVGSYSCRCRPGWKPRHGIPNNQKDTVCEDMTFSTWTPPPGVHSQTLSRFFDKVQDLGRDYKPGLANNTIQSILQAL 308

HSP 2 Score: 97.0561 bits (240), Expect = 5.617e-20
Identity = 71/213 (33.33%), Postives = 97/213 (45.54%), Query Frame = 3 
Query: 3660 GFSSQSQTATLHIY---DEDECLILSNTTHRELYNITLQPCHTHAQCINTIGSYMCQCFDGYQ----GDGFQ------CQDLNECDEVDNICGEDSDCFNTVGSYKCQCHKGY--EGIDGKQCKDIDECVRHGPELCQQQTRSNNTFCINTDGGFFCNCTEGFYKKKG--------LCIDIDECGRDPYPCHAEATCLNSPPGSYSCECDQGW 4229
            GFSS S+  T  +    D +EC  LS  +           C   + C NT GSY C C  GY+       F+      CQD++EC +   +C     C NT+GSY CQC  G+  +  D K C D++EC   G   C      ++T C+N  G + C C  G+    G        +C D+DEC    + C +   C N+  GSYSC C  GW
Sbjct:   50 GFSSFSEIITTPMETCDDINECATLSKVS-----------CGKFSDCWNTEGSYDCVCSPGYEPVSGAKTFKNESENTCQDVDECQQNPRLCKSYGTCVNTLGSYTCQCLPGFKLKPEDPKLCTDVNECTS-GQNPCH-----SSTHCLNNVGSYQCRCRPGWQPIPGSPNGPNNTVCEDVDECSSGQHQCDSSTVCFNT-VGSYSCRCRPGW 244
The following BLAST results are available for this feature:
BLAST of TCONS_00026155 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
AGRE29.538e-3232.75Adhesion G protein-coupled receptor E2 OS=Homo sap... [more]
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