TCONS_00000180 (transcript) - C. hemisphaerica

Overview
NameTCONS_00000180
Unique NameTCONS_00000180
Typetranscript
OrganismClytia hemisphaerica (Jellyfish)
Sequence length4304

Sequence
The following sequences are available for this feature:

transcript sequence

>TCONS_00000180 ID=TCONS_00000180|Name=TCONS_00000180|organism=Clytia hemisphaerica|type=transcript|length=4304bp
TTTAGCTCAATAAGGAAAAATAATCTCCGATGATAAAAATCTGAAGCAAA
CCGTTTATCTTTATAACGGACTGAAATACTTTACATGGTTTTATAtggaa
gaaatttaaaacaaaagatcttgaaaataaatttcaacaacgtcattaag
aaaatttataaCAATGTCTAGTGATAGCACAAACGGGACTTCACTTTTAA
NCAACGTcattaagaaaatttataaCAATGTCTAGTGATAACACAAACGG
AACATCACTTTTATTGGGTAATGGCACTACGACGCCGATTCCAGACGGCT
TCTGCGACGCTTCAATCGAGCTTGAATTCGGAAAACGTCGATGGTATATG
TTTATACTAATCTCACTGGTTATTTGGGTCGGTGGATTAATTTGTATCGT
ATTGGGCCGTTGTTTACACGCATGGATTTTCAACCGAAGACGTGCCAAAG
AGAAATTATACGGTAATAAATCACCTAGTCACGTGTATGTAGAGAATGGA
AGTAATTGGTATGTTTTAATGACCAATATGGCGGGTGATTTGGAATCGGG
ACGCAATTTGGCGGGAAAAATCTTGATTGCGTTATCATTTTTGGCAAATA
TGGCGGCCTTTGGTATTTACGTTCGACAAACAACAACACAtccaGTTGAA
TATTGTTTCGACTACAAAAAGAACACTGGAGATGAAATTATAGTTGATAT
CTTCGTCGCTGAACTTGTGCTCTATATTTTCTTCTTATTACACTTTATAC
TAAGGCTCATCTCAGCGACcgataaattttcattttgggcATGGGACATA
TACACACATATCGATCTATTGACGCTACCCTTAGTCTTTCATACAGATAT
CGGAAAACAAGCTGGCTAGgGTTGCGCTTTCTGAGAATCATTTATGCCCA
AAAAGCACCACTAATGTTACATTATCTCAACGTTCTAACTGCAGGaccta
aTCTGACAATGGGGTATGTGGTTGGCAAAGTATTTGCATTGATTCTCGCT
TCCGCTGGCATTATTCATTTGCTGGAGAACACAGGAGATCCATGGGTTGA
TGGAGATAGTAATCGACAGAAGCTGACCTACTTTGAATGTGTCTACTTTA
TGATTGTGACCTTATCGACAGTTGGTTATGGAGATTTTTCATGTAACACA
TACCTTGGCCGTGTCTTTTGTATGCTCATTATCATCTTTGGTTTGGGTTT
ATTTGCTTCATACATCCCAATGATTTTCGACTTCATTTCGTCACATACAA
AATATGATCGGAAATTTAAAACAACGCCCGGCAAAAAGCACGTGGTGGTG
ACCGGACATATTACGGACGAGACCGTGTCCGCATTTGTTCAAGATTTTCT
ACATCCGGACAGAGCGTTCAATAACACATCTGTTGTATTCTTAGCTCCAA
ACCACCCGACAGTTGTCATACAATCCATCTTGCAACGTTATTTTTCGAAA
GTCAGTTATTTCGTTGGTACTATATACAAGCACCACGATTGTGAAAGAGT
ACAGATGCAAGAAGCAGACGCAGTGATTATTCTATGTGATAAAAAATGCA
CTAACCCTGATGCGGAGGATGCTGGGAATATTACAAGGGTCATCTTGGTC
AAGAAATTCTACCGTCACGTGAGATGTATTGTTCAATTAATGAGAAAAGC
TAGTAAAGCACACATTTACAATTGTCCACAATGGAAAGAATCGAATGGTG
ATGCTATTGTTTGTATTGATGAGTTGAAACTTGGCATAATGGCTCAATCA
TGCAATGCACCAGGATTTTCAACACTTCTTGCTAACTTATTCGTTATGAG
AGAAAATGAGAACAAACACTACCAAGACAACTGGCGAGAGACGTATTTAT
CTGGTGTCTCTGTGGAAATGTATTCCACTTTGTTATCAGATTATTTCATT
GGAATGTCTTTCCCAAAAGCTGTCGAGATTTGCTTCACAAAGTTGAACCT
ATTGTTAATTGCTGTTGAAGTACACCACAAAGATAAAGGAGAAATATTTG
CGATCAATCCATCTAGTTCGTTGAGACTAACAAAAGGATCACGGGCATTC
TTCATATCCCAGGATGCAGATGATGTCTCAAAAGCTCGTTTTTATTGTGA
TCGATGTCACACAAATCATACGAGTTCGAAACGCATGCTTCCAAAGTGCA
AGTGTATGTCAGGTAGTTCAAGTAATGTGTCATTAGAGGGATCcttcgaa
aatttaaagaaagatCACTCGACAACTAACGGCAAAAATCACGTGACTGT
TTCCCTTGACAACCCAGGGTACAACAACAAAGTTACCATGAATGGaaaaa
ctttgaacaaaTTCAACAGTAGCagcatgaaaaagaagacattaccACCA
TTAGATTATAAGAACAGTAAACGAGAAATGTTTGATGAGACTGGAACATT
CTTTTGGTGCCCTGAAAAATTacttgaagacgccattatgTCATTAGAAG
TAGCAGAACAAGAGATGTTTGATGGCCACGTGGTCATTTTGGTCATTTCT
GATGTTCGTGCACCTTCACTTGGATTACAACAATTGATTCAGCCATTGAG
AGCGAGCAACCAACCATACGAAGACCtaaagaaaatcatcattttggGAG
ATGATAAATTCTTAGCAAGAGAGTGGTCAACAATCAACACATTCCCAGAT
GTTCATATAGTCACTggTTCACCGTACAGCCGAGTGGATTTAAGGGCAGT
GAACGTGCACACAGCGGATATGTGTATTTTGTTATCACCCTTTAAAAATG
TGGTCTTTGAGCAAGAAGAACATGAAGCTATGTCAGATAAAGAAGTGATT
ATGGTCGCTCTCAATTTGAGAGcaatGACATTTGACAATATCAGTAAATC
AACTTTAACCTCACCAGTGCCTTATGACGAGCTACCTTCATACAAATCGA
ATTTCAACGTACAAAATTCTTTCGATATGTTATACTCGGAAAACGCTTTG
ATGGCAATCGGAACATGCAATTTAGATACGAACGGTGATACCATTACAGG
AGAAAATATACGTATGATAACTGAGCTAGTATACGATTCGAACACTTTAT
ATTTGGACGACGAGAGACAGTCGCAATGTTCCTCGGAAGGGATTTGGATG
ACTCAATCATATGCTTGTGGCTCTGTATTCACTGTATCTGTTCTTGATTT
CCTCGCTAGTGCGACGTACTTCAATCAAGATACGCTGACCTTGGTCTTGA
ATCTGGTAACCGGAAGTGTCAACCCGGAACTTGATAAAATCCTAGCGGAA
GGAAAGAAGCCGGACGGTgtattagaaaacgaaagtatcgCAGCAACAAG
AAATAGATGTCGTGTCGATCAATTATCGTTGGATGACCCACACTTTGCTG
CAATGGGGcGCATCAACGAATACGGCGATTTATTTGTCAAATCAATTCAA
GAACACAACATGCTGTGCCTTGGACTATACAGGCTACACACGAACAGTTC
CAAAACAATGTCGCTGAACACTCGCTATGTTATAACATTCCCCAGTCGGG
ACATGAGGCTCGAGCCGACAGACCGTGTTTTTGTTCTGATGCAGTTCAAA
GAAGATAAAGGTGATTTTTATACCTCAAGTGAAGATAGTCAAATGTAGTT
TGGATTTAGAATAAAGGATGAAAGAGGATTTACGTTGTAAATGGCATGGG
GACCACGCTACGTTGTGTTAACGTCCATCCAACGTTATTAGATGATCGTT
AAATGGATGTTGGTTTGAAGTTTTATGCCGATGACATTATGGTACATTGC
TTAACtcgcacataacgttgtttcaacgtttatctatcgttcacaacgtc
catataacgttggatgaacgttgaaacgttTCGTGCTAACTGAGGAAAGA
ATTCAATCTTATGAGGCAAATGTGAGATTTTTTGTCaagacaagcaaaca
aaatttgTGCCAGATAGGATTGCTATTGGATACAGATAGTCACACTTACC
ATAGACTTACCCCAATTCGCTATTGATCATTGATAATGCAACTGAAAACC
AAATTGGTAGAATTTTGAGTTAAAATCCTCGGGAACTAATATAATATTTG
ATAATTTTAGCCAAGATAATAAGTTCGCGTTCTTaaaattatataatttt
tgtAGATTTAAATGAGGGATTGACCGCATATATTATCttctaaatttcaa
ggaaaCTTTAGGTAAGCAATGGATCACTATTTCTAAATTTATTAATTACA
ATAAATATAAAACAATTGAAGAACTCCCCCAAGCGGGGGGCCTCGTTAAA
CTGGGATACACAAAATTTCATCTAAAAACATCATCTGGGTATCAAAGGAT
AGCA
Run BLAST on NCBI

protein sequence of TCONS_00000180-protein

>TCONS_00000180-protein ID=TCONS_00000180-protein|Name=TCONS_00000180-protein|organism=Clytia hemisphaerica|type=polypeptide|length=935bp
MGHIHTYRSIDATLSLSYRYRKTSWLGLRFLRIIYAQKAPLMLHYLNVLT
AGPNLTMGYVVGKVFALILASAGIIHLLENTGDPWVDGDSNRQKLTYFEC
VYFMIVTLSTVGYGDFSCNTYLGRVFCMLIIIFGLGLFASYIPMIFDFIS
SHTKYDRKFKTTPGKKHVVVTGHITDETVSAFVQDFLHPDRAFNNTSVVF
LAPNHPTVVIQSILQRYFSKVSYFVGTIYKHHDCERVQMQEADAVIILCD
KKCTNPDAEDAGNITRVILVKKFYRHVRCIVQLMRKASKAHIYNCPQWKE
SNGDAIVCIDELKLGIMAQSCNAPGFSTLLANLFVMRENENKHYQDNWRE
TYLSGVSVEMYSTLLSDYFIGMSFPKAVEICFTKLNLLLIAVEVHHKDKG
EIFAINPSSSLRLTKGSRAFFISQDADDVSKARFYCDRCHTNHTSSKRML
PKCKCMSGSSSNVSLEGSFENLKKDHSTTNGKNHVTVSLDNPGYNNKVTM
NGKTLNKFNSSSMKKKTLPPLDYKNSKREMFDETGTFFWCPEKLLEDAIM
SLEVAEQEMFDGHVVILVISDVRAPSLGLQQLIQPLRASNQPYEDLKKII
ILGDDKFLAREWSTINTFPDVHIVTGSPYSRVDLRAVNVHTADMCILLSP
FKNVVFEQEEHEAMSDKEVIMVALNLRAMTFDNISKSTLTSPVPYDELPS
YKSNFNVQNSFDMLYSENALMAIGTCNLDTNGDTITGENIRMITELVYDS
NTLYLDDERQSQCSSEGIWMTQSYACGSVFTVSVLDFLASATYFNQDTLT
LVLNLVTGSVNPELDKILAEGKKPDGVLENESIAATRNRCRVDQLSLDDP
HFAAMGRINEYGDLFVKSIQEHNMLCLGLYRLHTNSSKTMSLNTRYVITF
PSRDMRLEPTDRVFVLMQFKEDKGDFYTSSEDSQM
Run BLAST on NCBI

transcript from alignment at sc0000001:851142..873700-

Legend: exonfive_prime_UTRCDSthree_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
>TCONS_00000180 ID=TCONS_00000180|Name=TCONS_00000180|organism=Clytia hemisphaerica|type=transcript|length=22559bp|location=Sequence derived from alignment at sc0000001:851142..873700- (Clytia hemisphaerica)
TTTAGCTCAATAAGGAAAAATAATCTCCGATGATAAAAATCTGAAGCAAA
CCGTTTATCTTTATAACGGACTGAAATACTTTACATGGTTTTATATGGAA
GAAATTTAAAACAAAAGATCTTGAAAATAAATTTCAACAACGTCATTAAG
AAAATTTATAACAATGTCTAGTGATAGCACAAACGGGACTTCACTTTTAA
NCAACGTCATTAAGAAAATTTATAACAATGTCTAGTGATAACACAAACGG
AACATCACTTTTATTGGGTAATGGCACTACGACGCCGATTCCAGACGGCT
TCTGCGACGCTTCAATCGAGCTTGAATTCGGAAAACGTCGATGGTATATG
TTTATACTAATCTCACTGGTTATTTGGGTCGGTGGATTAATTTGTATCGT
ATTGGGCCGTTGTTTACACGCATGGATTTTCAACCGAAGACGTGCCAAAG
AGAAATTATACGGTAATAAATCACCTAGTCACGTGTATGTAGAGAATGGA
AGTAATTGGTATGTTTTAATGACCAATATGGCGGGTGATTTGGAATCGGG
ACGCAATTTGGCGGGAAAAATCTTGGTAAGTGAACGGATAAATTCTCTGA
CACCCTCATTCTCATTTGTTTCTCCGCTAGTACAAGCTTTTGAGTAAATT
TAGCTTTATTAATACCAGTGTAACCTTTATGGTGTCCATTTGGTCTTATT
CTATACATGAGGACATCTCCTTTTAAAATGGCGACCTCTGTTATCAATAA
GATATAAATAAGAAATTTTGCTTTAATTTGGAGAATCATAAAACTTATAA
AGCTCATATTCTATTGTCGAATGAAGTTAATGAGTTTTAAAGCTCATATT
CAAAAGTCGAACTTAGTCTGCTGCCTGTTTGAAATATTAGATATATCACC
TACAAATTCGTTAGAATTAAAAACAAAATTCACAGGCCCTGTGGAATCGG
GGAAACTGGGGAGACTTCAGCCTCCCCACTTTTGAGCAAAGCAGATTTTG
TTCTCAAATTCCTAGCAAATTTTATCTCATTTTGAGTCTTCAGTCTTCAA
TATTTAAGGTTGTTTCAGATTCAGATGTACTCTTTCATTGGACATTACCA
TTAATAACTATCCCCAATTTTATACTTTTAGATTGCGTTATCATTTTTGG
CAAATATGGCGGCCTTTGGTATTTACGTTCGACAAACAACAACACAGTAA
GTAGATATCATCCCATCATCTATCTAACTGACAGCTACTTCTTCGTCATT
TTAATTTTGATGGTGAAAAAGGCCATTGCTGTTAAAATTGTTTCTTGAGG
TTTAATTTGGTCCTTCTCATTGATAGACCTTAATATGTCAGAGCAGTGAC
TTAGTTATCTTCCTAGTCTAATAGATCTTTTCATAAATTACGTCACAAAC
ATCACTTGCTTCGTATTCAAACAATTACCATGGTGATTATGTCCCTTGAG
GCATGAAATTATTTTTTTATAAATAGAAAGTAGTTTTAATAAAATCCGCT
GGGAGTTCATCATCATGGTAATATTTTCAAAACGTGGCAAGTGATGTTCG
TAACGTAATTTATGAAAAGGTATATTAGAAACTTCTACAAAACCCAAAAA
AGGAGAAAAAGGAGAAAAGGGTATGTCAACGGGCTAGTTACTCGCTTGGT
GCTTGGAAATTTTTCCTAAAAATGCTTCTTTAGTAAATTTTAATAGCCTC
ATTTGCAGCCTAATAAACATTGCTTTTTTCATTCTTTTTTTTTCAGTCCA
GTTGAATATTGTTTCGACTACAAAAAGAACACTGGAGATGAAATTATAGT
TGATATCTTCGTCGCTGAACTTGTGCTCTATATTTTCTTCTTATTACACT
TTATACTAAGGGTAAGTTGGTATCCAGTCTAGTTGTGTTCTGGCAATATC
GTTTCCTTTCTGACGGTTGATCCAGAAGTTAGAAGTCTCCCTCCTATCTA
CCTTATCGGCCAAAACTTAGTCGGCCTTAATGTTAGTCGGCCTTAAAAAT
AGTCGGCCTTAAAATTAGTCGGCCCTAATTTTTGTCACCTCGTGAAAATT
TAGTCACTAAGGGCCGACTAATAATTAAGTTTTGGCCATTTCTAAATTTT
TAGTCGGCCCAAATTTTAGTCGGCCCAAATTTTAGTCGGCCCAGATTTTT
AGTCGGCCCTAATTTTAGTCACCAAGCCAAAATTTAGTCACTTAGGGCCG
ACTAAGTTTTGGCCGATAAGGTATTTGTGGTATACTTGGAGTGACAAACA
TCTCAGCTTCTATTTACTTACTGCATAGATCAGACTATCCAATCAAAGCT
AGCTTTTCGACAAAACTACGAAGGCAAATGCTCTATCTACTGAGCTACCC
GACCAGATCTAAAGAAAATGGGAAAATGTCAAATGTGGACCAGAGCACAG
GGGCACTCAACACCCCCTTTCAACCTCTCAAAATCTAGTTGAATAAATAT
CAGTCTATTCGCTTGGAAGGCTGAACGCCGAATAATCACGAGTTTTATCG
TATTTAGAAATCTTTTGACCTGCAATATCTAGATAACTTGTTCTCGTTTT
TTTCACAGCTCATCTCAGCGACCGATAAATTTTCATTTTGGGCATGGGAC
ATATACACACATATCGATCTATTGACGCTACCCTTAGTCTTTCATACAGA
TATCGGAAAACAAGCTGGCTAGGTAAAGAAAGATCTTTTTCTACCCTTAG
TCTTTCATACAGATATCGGAAAACAAGCTGGCTAGGTAAAGAAAGATCTT
TTTCTACCCTTAGTCTTTCATACAGATATCGGAAAACAAGCTGGCTAGGT
AAAGAAAGATCTTTTTCTACCCTTAGTCTTTCATACAGATATCGGAAAAC
AAGCTGGCTAGGTAAAGAAAGATCTTTTTCTACCCTTAGTCTTTCATACA
GATATCGGAAAAACAAGCTGGCTAGGTAAAGAAAGATCTTTTTTTGTTAA
AACCTGTCCTTGAGTATTGATCTGTTGACAAATATTTTTCAAATTAATGC
ATCCTCGGTCTAGATAATTCGGACCTCTACAACTCGAATTTCCCTTAATT
CGAATAAGTTTTCTGGTCCCATTACTTAACAATGTCTTATAAGCAAGTCT
TCACACCACAAAATTTTAAAACTCGAACAAGTTTGTGATTCCTGTGCGTG
TTCGAGTTAGAGAGACTTTGCTGCAATATCCCTATTCTGCCACACCTTGT
TAGATTTTGAGAGTCTCCGGTTATTCAGGACTCTCCATTGTTAGCTACTC
TCAGGTGAATAAACGGCGGATGGGGCTCGAATAATCCAGGGGTGGAAAGA
TTTTCAAATTTTAATAAATCTCCCACGTTTATCAAACGCATTTGCCGGGG
ATTGTCATAAATACTTTTAAATATCCAAATATCTAAATAAATATTTAAAT
ATAAAATTTTTAGGGTTGCGCTTTCTGAGAATCATTTATGCCCAAAAAGC
ACCACTAATGTTACATTATCTCAACGTTCTAACTGCAGGGTAAGCATATA
TGTAGTTTGTTTTTACTGTTAATTTCCTTGAGTAGTAGTAAGTCTGCGAC
GATATTCGGAGGAGACCCAAAGGCTCCTCTTTCGAAAGCCGTCTACTCGA
AGGTCGGAGAGTGCGTCACTCTTTTCCCCTTGATTTCTCCACTTATAATT
GTCTATCATGTTGTGAAAATGGTTTCTAACTGCAGTTATCATGAATCGAA
TCCCACTATTTCCTATTCTAAATGTCAACGAGGCTCAAGTTAAATCTTCA
AAACGTGAACTTGATTATTAAAGTCCGTCAAGTTTCATCCTGATCTTCAT
TGTTTTCGATTGTGAAAATAAAAGACTTATACTCAAAAGTCGTTAGAACG
ATAATCCAGATGAAACTGGGCGGACGTTATATTTTTTGTGTATTTTACAG
ACCTAATCTGACAATGGGGTATGTGGTTGGCAAAGTATTTGCATTGATTC
TCGCTTCCGCTGGCATTATTCATTTGGTAAGTGGTAAACTTCCATCTTGC
CTACAGTAGACTCTTTTTATTTTTACTATCCTCTTTTTCAAACCATATTT
CAACGCAAACAAATGTTTATTAGACAAACGTATATACACCCCATCTGAAA
GCCTCCTCTTGAACCCTGCAAAGCCCGGGCAAAGCCCTTTAAAATGAGTT
TCGGCAATGAACTCCTCTTTGAGGCCGATTCTAATAAGCTGTTCCTTATT
TTTTTTCAGTACGCGACTTTTTATAAGAACAAACTATAACTCTCCGATGG
CTAAAATATTAAGAACAAGTTAAGAACATTTTAAGGCTTTGCGGACTCTT
AAAACACCAGATTCCTAAGGAAAAACTCAAAAAGTTAAAACCATGCGAAG
GCTTCAAAAATTTAGAATATTTTTATGAAAAGGGGTGTAATTTGGTGAGA
ACAAATGCAACCCAATATTTTCTTTCTCTTCTTAGCTGGAGAACACAGGA
GATCCATGGGTTGATGGAGATAGTAATCGACAGAAGCTGACCTACTTTGA
ATGTGTCTACTTTATGATTGTGAGTTATTATACAGAACATTGTTCGGTAA
AATACACCAAGAAAGCATCCCTCCAACAAGTTTATTTACCCTTTTATACA
GAAAATTGTTCGGTAAAATACACAAAGAAAGCATCTCTCCAACAAGTTTA
TTTACCCTTTTATACAGAAAATTATTCGGTAAAATACACCAAGAAAGCAT
CCCTCCAACAAGTTTATTTACCCTTTTATACAGAAAATTGTTCGGTAAAA
TACACCAAGAAAGCATCCCTCCAACAAGTTTATTTACCCTTTTATACAGA
AAATTGTTCGGTAAAATACACAAAGAAAGCATCTCTCCAACAAGTTTATT
TACCCTTTTATACAGAAAATTGTTCGGTAAAATACACAAAGAAAGCATCC
CTCCAACAAGTTTATTTACCCTTTTATGGATTCGGAGGGACTGAAGCGAT
ATGAAATAACCCGCAAAATTAAGGACTTTAGCCGGACCTAATTCGCGAAC
CCCTCTCTCAGAAAAGTCATAAAAACCTTTCTACTTTCGAACTAACCACA
TGTGTTTGAGTCCCATGAAAAATGTCACGGATCCTAAGGGTTGGTCCCCT
ACTAACGATAAAGGTGCTGGTTTACCGTCGCTCTCAGTCAGGGAAAAGAA
AGCATAGGTTCGCTATTTAACCCTTTTTTATTACCGAATCGTGGTGCAGT
GGTAGAGCATCCGGCTACGGTTCGCAAGGTTGTGGGTTCAACCCCCAGCC
GGGTCATACCAAAGATTCTCAAAATGGTACTTGATGCCTCTCTGCTTGAT
GCTCGGCAATTAAGAGAAGGATCAAGGGTAAATGGAGAAATCCAGGGGAG
CAATCCAGGGAGAAAGAGTGGCACCCTCCTCTACCTTCGGATAGATAGCT
ATCACCCTCGACTTACTGAGTCCCATGAAAAATGTCACGGATCCTAAGAG
TTGGCCCCCTACTAACGATAAAAGTGCTGGTTTACCGTCGCTCTCAGTCA
GTGAAGAGAAAGCATAGGTTCGCTATTTAACATTTTCTATCACCTTCTTA
GGTGACCTTATCGACAGTTGGTTATGGAGATTTTTCATGTAACACATACC
TTGGCCGTGTCTTTTGTATGCTCATTATCATCTTTGGTTTGGTAAGTAGC
ACTCTTCTGATTGGTTCAATTGGTTGATTGAAGAAGTTCTGAAGAAAGAG
AAGATAATAATATTCTAAGACCAGTACTGTAGCTAACGGGGCAAGGCTTT
GCCCTCAATGTACGTTTTTCTTTTAAGAACAAACTATATAAGAAGATAAG
GCTTAGATGGCCAAAATATTTAGAACATGCTTAGAATATTTGCAGGCTTT
GCGGACTCTAAAACACCCAATTCTTAGGAAAATGGACAAAAATACTCAAA
AAATGGCGAAAATAAGAACATATGCTAACAGCATTTTAGCCTTAAAACTG
AAAAAGTTAAGAACATCCGATGGCTTCAAAAAACGCGTATTCTTTTGAGA
ATTTTCTGATCTATTTTTCAAAATAATCCTTTTACTCTGAATGCATTTTC
CGGTCATCTTGAACTTAAATTTTCAAAATCCCACAAGTGAGTTTAGCAAA
AAGATTTAAAGGTTTCCCTTGGAACTACATAAGTTTACAGGTAAAATATT
CGAACCATCTGATTATCCCTTTAAAAAAACTTTTAATCTTTCAGGGTTTA
TTTGCTTCATACATCCCAATGATTTTCGACTTCATTTCGTCACATACAAA
ATATGATCGGAAATTTAAAACAACGCCCGGCAAAAAGTAAGTATACTTCT
GTTTGATAATTTCCAAAAGCGCCGCTATATAAAAGACCAAAATCAATCAA
AAGTCAATGAGATAATTTCCAAAAGCGCCGCCAGCACCACCGCTCAAAAT
TGCGAGCAAAATTCATTTGCTTACTCGTTAATTTTAATTTACAAGCTTTT
TCACATTGAATTGACATGTGTGGAGCATACTTTGCTTGTATCAGCATAAT
ATAACAATAGGCAGCCATCGTCCTGATATGAAATATGTGTCTGATATGAA
ACGGGAACACTCATGTAAAAATAGTTTTTTTCAATATGCTTACTTTATTC
ACTTATCCAAAAGCGTTCGAATGCAAAGATTGTTCTAAATTTGTTCTTAG
GCGTTGTAATGAAAAAATGAGCCTCATATTCTTACAAAAAATACTCATGA
AAAAACTTTTTTTTCATACAGGCACGTGGTGGTGACCGGACATATTACGG
ACGAGACCGTGTCCGCATTTGTTCAAGATTTTCTACATCCGGACAGAGCG
TTCAATAACACATCTGTTGTATTCTTAGCTCCGTAAGTAAAATCAAATTT
CTAGTCTAACAAATGATGGTAGGTATGGTTAGTTAAGTCTACCTCATCAA
TGGCAGTTTAAAAGAAATCTCCTATAAGGGTAGCCTATACTAGACGTCAC
GGCTTTTTTCTACGCTGTAACGTCTATTCCACTTTGCGACTTTTTCGAAT
GTTTTGAGCCCAGGTTTTTGGGCTCTAAACATTCGATTTTTTGACGTCAC
TTTAAACGTTTGAAGCTCCTGCAGTATCAAAAAAGTCGAACTTGCGTCAA
AACACTTGAAAGGCTTCTATTTTTTGAAAATCGTCAAAGTGGAACTCACT
AAGAAACGGGATGAAAAACTCCGGTTTTTGGTGAGGTGCTCGCTACTCTG
AGGGCTTCTCGGAGTTTATGTGCCAAATGATTTTAGGAGCAGGTTACCTT
CGAGAATTGAGTTGAGCCAGAGAGCTTAAGTACTTCAATAACTTCAAAGT
CTCTCTAAGGGTTACACAAATTAGAAAATTTTAAAGTAGTCCCTCTAAGG
GTCGGAAATTTACGATTTTTAGGAATTTTTTTTGATTTCGAGAGAAAAAT
TTGTAAAAAAGTCTCTCTTAGGGTATTACATTTTTCAAAAATCGAAGGAA
ATTATTTCAAAAAAGTCTTTCTAAGGCCGTCTAAGGGCACTTTTTCACTA
AAAATTCGGTCTCTCTAATGTCAGTTATTGATTATCCCGTCCGCACATAC
CCCTCAACCGCCAATCCTAGTACCCCCCAAGTGGTCTTAAAAGGTTTGTT
GTTAAGTGTTTGTCATTTAGAACACTTTCGGTCAGCTATCCCTCGGGGGA
GAAGACCACAAATAATCATACAACGAGTATACTTGTAGTCGGCAGCGAAT
GTGTTGAAAAGGATTCCCTGATTATAATAAAAAACATGTTTATTTAGAAA
CCACCCGACAGTTGTCATACAATCCATCTTGCAACGTTATTTTTCGAAAG
TCAGTTATTTCGTTGGTACTATATACAAGCACCACGATTGTGAAAGAGTA
CAGATGCAAGAAGCAGACGCAGTGATTATTCTATGTGATAAAAAATGCAC
TAACCCTGATGCGGAGGATGCTGGGAATATTACAAGGTAAGAATTTGGAG
AATTTAATTGGTTTATTATTTAACCCACGTGACCCAAGTTAAGAATTAAA
CCAATCAGCGCGCGTTATACATTCAACTAGATCAGACGCTTTTGCAACGC
TCTTCGAAAAAATGGCTGAAAACAAATAAAAACATCAAAATTCATGAAAA
CAACATCAAAATGGATAAAGATCAGCCNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NCTTCAAATTACAAACCAAAATGCTCTACAGAAGAAATCGTCAGCGATTG
GGCATTAACAGATGATGATGAATGATTCATTTTGTAAAATAGGCAGTCGA
GCTCTATTAGCTTTAAAGCTAGTACAGATTTGTACACATTTTTCGACTTT
AAAGAATATATACATTAACATTAACATTAACATATCTCTTATTTTTCAGG
GTCATCTTGGTCAAGAAATTCTACCGTCACGTGAGATGTATTGTTCAATT
AATGAGAAAAGCTAGTAAAGTAAGAACTTCATGATATTTATTACTGCTTT
TTAACAGTTTTTCGAATATATAAATCTAAGTAAGTCCGTGATCGGACGGC
TCCTTTAATAGCTGTCTGCTCGGAAGTAGAGGAAGGCGCCACTCTTTCTC
ATTGGATAGTTTTCATTATGAATCGTCCGGAGATCACAACCTTGCACACT
GTAGCTGGATCTTCACCTTTACACTATGGTCTCTTTTGATAACGCTCTTT
CTGATTACATAGTATAATGTGTAAATATGCCTTAAATGATTTTTTTCGAG
AAGAATATTCAAAAGATATCTTCATAGATATTGCATTATGGGAATATGGA
ATTAATCTTTTTGTATTTCAGGCACACATTTACAATTGTCCACAATGGAA
AGAATCGAATGGTGATGCTATTGTTTGTATTGATGAGGTAAAGTTTAACC
AGGAGTTTATTTTTTGTTTCTTCAAACATTGAGGACAAAAGAGTCGTTTT
AAATTTTACACCCCCGTGTCACAGACCCAGTAGATCCCTCAATGTAAAAA
ATATCCGCTAAATTAGCCTAAAATTTTAAACCCACTGGGAATGTGTCCTA
TAGTCTAGCAAGCTAGACGACTAATTCAGACATAGCAGAAGTAAAGCAAA
AAGTAATGGATGGATCAATTTTAGTCATAATGAAATTGATTAAAACTATT
TTATACAATCTAAATCCCGTAACGATAATTGTATTATCATATAACACCTA
CACTACTGTATTTACACGCATTATAAACGACTCCAGTCCATGTGTCATAT
AGCTTTATCCCATTCGGAAACATTGAATGGAAATAATTGCACTCATAACC
ATCTCCACTGACGTTCGAAAAATAGATTTTTCATCCCCATTTGATAGAAA
TGTGTATTCCAAATGAAGGTCTGTGCCTTCAAGCAGGCACTGGACACAGG
GGTGCGAGGCTCAAAATATGTGTACGAATCAATTGATTGATCCGAAAAAA
AAAATTAGATTAATGTTAAATCCCAGCTGGCACACAACGCTGTTTCAACG
TTCACCTAACGTTATATCGACGTTGTAACATATAGGTGGACGTTGAAACA
ACGTTGTGTGTCAGCTGGGGTAACTCTTTAAGAATTTGATTGTTTGTTAT
GACAAAGTCTTTATCATTTTCTTCAGTTGAAACTTGGCATAATGGCTCAA
TCATGCAATGCACCAGGATTTTCAACACTTCTTGCTAACTTATTCGTTAT
GAGAGAAAATGAGGTTTGTGATTGGCAATTTCTATCATTGTTTGCTCCTA
TGTGCCTGATAAATGACCCCCTCCTGGCCGTTAGTAAATTTTTCAAATTT
TCTCAACCCCTCATACCTCATTAGGGGTTAGGAGTTAATCTATACCCAGC
TGGCACACAGCGTTGTTTCAACGTTCATCTAATGTTATATGGACGTTATG
AACATTAGATAAACGTTGAAACAACGCTGTGTGCCAGCTGGGTAACTACC
TTTTTTTGGGGGGGAGGGGGGGAATAGTGTTATTAAGTGCAATTTTTCAA
ACCCCGGCAATAAGGTTTTTAAATTTTATAAGACGATTTTCCGACCCCCC
TCCCGGGGGAGCTTCAATTACATTTCCTCAAGGCACTTCAAGTAACCCTG
TGTATCATTATTTAAAAGATGACTTCAAAAGGACAAACAAAAGTCATTCA
CCCCCTCATTCATCCTAGTCTTGGGGCTTACAGCTAGACTGAATTTAGCT
TCACTTAACTTGTTGACAAAACTTGGTCAAATTTCAGTACAGACAGAAAT
AGACTCTAAAGCCTATTCACAAATGAGCTCAAGTCTATTCAACTTGTTAG
ACAATCTTGTCAGGTCTTAACAAGTCTATTATCCATAGTTATGCGCTGGG
AAGAACCTATTCTTATTNTTCACCCCCTCATTCATCCTAGACTTGGGGCT
TACAGCTAGACTGAATTTAGCTTCACTTAACTTGTTGACAAAACTTGGTC
AAATTTCAGTGCAGACAGAAATATAGACTTTAAAAGCCTTTTCACAAATG
AGCTCGAGTCTATTAAACTTGTTAGACAATCTTTCCAGGTCTTAACAAGT
CTATTATCTATAGTTATGCGCTGATAAGAACCTGTTCTTCTTTTTTTCGT
TCTATAGAACAAACACTACCAAGACAACTGGCGAGAGACGTATTTATCTG
GTGTCTCTGTGGAAATGTATTCCACTTTGTTATCAGATTATTTCATTGGA
ATGTCTTTCCCAAAAGCTGTCGAGTAAGTATATCGCGTGATGACGTGATA
GGGACTTTATTTTTGTAACTTGATTACGTGATTTAGAAATTATTTTTCGT
GATTGCGTGATGAAAGGTCAAAACGTGATCGTGATTTGAAAACATTTTTG
AGCCGTGATACGTGATTTGGACTTTTTCAAAGGGATGCATGATTAGCCAT
TTTTTTTGCTGATTTTCGTGATCGTGATTGAAGACAAAAAACTGCGTGAT
ATCGTGATCAGAGTTACCACTGGGGGCCTCATTTATAATACGGAAAGATG
GGTGATCTGTCATGGCATAACCATTACCGAAGCTTTTACATGCTTAGCCT
ATCATTAGCAAATGGTCATTCGCTTTACAATTTACAATAAATCAATCTAC
ATTCACTGAGCACTAATTTTTCCTTTTGCCGATTACCAAATTCAATATCT
TATAATTTCAGGATTTGCTTCACAAAGTTGAACCTATTGTTAATTGCTGT
TGAAGTACACCACAAAGATAAAGGAGAAATGTAAGTCATAGAGATCTTAT
CAAGTACAATATTGACTCTCTCTGATTCGATCTTCAAGGGACTTCAGGTT
TTCTTCGAATTATAGAAAGATTCGAATTACAGAGAGTAATTTATAAGACT
TTCCAGCTGAGGGGATCGTCGATGAGGGGATCAATATTTTAGCTCGAATC
GTAGAAAGATTCGAATAATAGTTGTTCGAATTAGAAAGGGCCCACTGTAT
TTTATGAGGCATCTATATCGGCATTTTGAGGAATATAGATTGATACTGTC
TTAAGAAGATACTTAAACCCCTGGATATCTGCTTTCAGAGATGGATTTCC
TTCCTTTATACCTGCTCTCGGAGAGATTATTTTCCTGGATATCCACTCTC
AGAGATGGCTCCCCCACCTAAACATATCACACATAAATCTTTCTTTTCAT
AGATTTGCGATCAATCCATCTAGTTCGTTGAGACTAACAAAAGGATCACG
GGCATTCTTCATATCCCAGGATGCAGATGATGTCTCAAAGTAAGTTGACA
CTTCCCGCATCCCACCCCGCATACACGCACTGTTCGAACTTGTCCTTTTT
TCCGAAACATTTTTAATTACCTTATTACACGAATATTACTAGGCAAGTAT
TCAACGGCCTTGGAATTAACACTCCAAAAATTAACAAAAATGTTATTCAT
GAATATTGCCCTTAGCCTTATGTATTACAATGAAGTGAATACAATCGCTC
TCATAGTGTTTTCTGACCAGCCACCACAAATTTTATTGCTTTTTCAAGGA
CACCACGTCTGGTTTTAATTAAGGGGGTTTTTATTAACACGAAATTTTTC
AGTTCGTGTTAATAAAATGACTAAAGTCTGTCTCAAAATAATTTGCAGCT
GGAGAAAAAATGGCTGTAACTTTTGATAGAATTCGAATCAAGTTGCGATT
TTGTGCTCGTTAAAAAGATATTCGTGAATGGAATATTATCAAGTAAAAAA
TTTGAGAAAAAAAAGGATCGAAAGTTGATCGACAAAAGGCTGTTTTTTTG
TCTTTTTTTACTACTTTATAGAGTCAACCAGCAATAAACTTTGTTTGATA
TCTTTTGATTGAATGAATATTTTTGAAAAAATTTTCGACAGTGATGATGA
TTTAAGATTGAAGAATCACTCCTGTGAAAATAGTAATTATACCACATTTC
TACAAGAAATTGATTTTTTTCTTCTTCATTTTTCATTTTCATTTTCCTTT
TTTTCCTCAATTTTTTTACTTGATAATATTCCACTCACGAATATCTTTTT
AACAAGCACAAAATCGCAACTTGATTCGAATTTTATCAACAGGTACAGCC
ATTTTTGTCTCCAGCTGCAAATTATTTTGAGACAGACTTTAGTAATATTC
GTGTAATATAAGGTAGCTTCAAAGGTGTTACTTTTTATCAAGCCCTGGGG
GGAGGCACTTAAGGTAAAATGACCTACCGCACGTGCAGCCCTTAGGGGTA
TATTTTAAAGCTTCCCAAAGTGCTCTGTCAGGGTCAAAATCAGCAAAGAT
GAGAAAAATTAAACCTCTAAGTGTGTAAAATTTCGAAAATCTGACCATAT
TTTGCCTGGAAATGGTCAAAAAATATAAGGGTAGACTTTTCGCTCAAATT
TGCTCAAATTTTGCACCTTTTTCTCTGCACTGTAAGGTTTCCGATTTCAA
AGACCTAATTTTGGGCCGCACGTACGGTCGTTTTTGAATCGAGTGCCCCC
AACCTCTCGGGTATCAAGCCTTTTAAAATTAAATAGCAAGGTATACGTTC
TTTTATTAGAACCAGAAAATTCAGACTGACACTCAGATGTTACTACGGAT
TGAAAGAGAGCTTCAAAGTCTTCATTTTGTAGAAAATAAATGAGTCAAAT
CTTTTAAATTTGAATATAACGAGACACAATATTTATTACTTAACAATATT
TAAAATCCTATTACCTGTGTTTAGAGCTCGTTTTTATTGTGATCGATGTC
ACACAAATCATACGAGTTCGAAACGCATGCTTCCAAAGTGCAAGTGTATG
TCAGGTAAGTTCATCAAAATTATTTAGGAGTTTACTAGGGATAAAGATTG
GAATTTGATCTGAGTCACAGACCTCTACAAAACCGCAAGTTAATAAGGAG
CTCGTATAATACAAAGTTTCTTTGCTAGATGTGATTTAAGCGTATAGCTT
TAAGGAACGCAATCTCCCTTTAACATTTCCCTAGAAGAGAAGCTCTTCGA
ATACATAAACTAAATGACTGTGTAACACCTATCGTTTTCAAAATATTTAT
TTTAATAATGATGCCTTAGCTAGAAAATTTTATGGTTCTGTTTGTCAATT
ATAACACGTCATTTGAAATCAACCCATCTCAAAATTTTCAAGTTTTCTGC
TACCAAAGTCATCATTCTCCGCATCATTCTTAGGTAGTTCAAGTAATGTG
TCATTAGAGGGATCCTTCGAAAATTTAAAGAAAGATCACTCGACAACTAA
CGGCAAAAATCACGTGACTGTTTCCCTTGACAACCCAGGGTACAACAACA
AAGTTACCATGAATGGGTGAGTAGTGTTACGTCATAACAGTGTCCATTTA
ACGTCAGAAGACACACATACCCTGCACATGAAATTATATTTTTAGTCGGG
AAATTTGTCGGTAAACATCGGGGAAACATTTAAAAATCAGGGAAATCTGT
ACAAAAAAAGGAGAAAATTCACTAGTCACACAAAAATAGCGTTATTTCAT
TCATTCACGCAATCAAAAAGTGGATTTTCAGATGTCCACGCAAGTTTCTT
CAATTCACGCATTCACGCAACTAAAAAAGCCCCATTCACGCATTCACGCA
AACCACTGGCAGGGACCCATTAAACGACTACAAGCTTCCCTGAGCGGTAC
AGTAATAGATACAAGACTGTAATTTTATAATTTTGGTTCTCTCTATCTTT
TTCAGAAAAACTTTGAACAAATTCAACAGTAGCAGCATGAAAAAGAAGAC
ATTACCACCATTAGATTATAAGAACAGTAAACGAGAAATGTTTGATGAGA
CTGGAACATTCTTTTGGTGCCCTGAAAAATTACTTGAAGACGCCATTATG
GTAAGTAGTTGATATTGTTGCTAAGACACGCCCCCGGGGGGGGGGGACTT
TAAGTAAAAATGGGTGCTGGATGTGTGCGGACGGTAAGGGTCAGTTTTTA
CACCTCTCTTGCAAAAATCAGAAAATTCGAAATTGGTCTACAAATAAAAC
AGCCGTAATGACGACTGCAAACGTCGGTAATTGTCATTTTTGAATAGCGA
ACCATTATGCAAACATCTTTATCGCGGTCAACCTTTCTTAATATATCTAA
CATAAAATTTAAAAGAGTATACCCTAGTTAGTGCGAGCGCAAACGCAAAC
CAAATCGGGAAATCAAATTGGAAATATCGGGAAATCGAACCCGACTATCG
TGATTAATCATACTTGTATCGGATTTACGCACAATCACAAATGAAAACAC
TGATTTTAAGAAACTCCATAACCGGAGTTTAACTAGTGCATACGAGAAGT
AACTCTTGAGCTTAAAGCTGAAGACCAGAGGTGGATCTTCAACCTTTCCC
AAGGAACAAAAAGTGAAGCCTTAAGATTTGCGCTGTATTTCCGGGTTACG
GATTGAATCTAGCACTTTCTTTGTTTCCGCATTCTACATTTTCAAATGTT
ACTTCCAATCTAGCATTTCTATGAAAACCACTCGGGTCGCACTACTTATG
AAGGAAAAGTGGTTTAAAATCCTACATAATAGGACATTCGACAATCCTGC
TGCTATACCTTATTGAGTATTTTAGCTCCTAGAGTAATATTTAATTAAAA
TCAATCTTTCCTTTGCAGTCATTAGAAGTAGCAGAACAAGAGATGTTTGA
TGGCCACGTGGTCATTTTGGTCATTTCTGATGTTCGTGCACCTTCACTTG
GATTACAACAATTGGTAAGAAATCAAAGATCTTGATCAATATTTTAATGT
TATCTGTAGACAGGAGACCCGTCCTATATTTTTATAATCGGATGTATGTA
TACAGGGACGTTCTCGACCTTCAGGCAGATTTTATATTTTGTATTTAAAA
ACTTTACAGTAGGAAATTTTGAATTATATTTTTCGTCAGCGATTTCGAAC
ATCCTATTATATCCAGCTTTAAAGAAGGGTGTCGAAATTAGATGAGGGAT
GTCGATAATAGACCAACCTATAGTAAATATTTTGACGCTGCAAAGGTTGA
TCCCCAGATTCACAAAACAACGAGTATGTAATACAAAACTTACGGTATCA
GATTTCTTTCTAGTTATTCCATCTTTAATTTTTCGTTTGTAGATTCAGCC
ATTGAGAGCGAGCAACCAACCATACGAAGACCTAAAGAAAATCATCATTT
TGGGAGATGATAAATTCTTAGCAAGAGAGGTAAGAGAATCTTACGAGAGA
TATATATTAGGATTCCACAATATTTTTTTCTTGGTATAATGCCGTTCATT
CTTAGATATCAAGTTTCTTGGATCCAGTTTATCACTTTCATTAAATTGGA
TAAGTCAATTAAAATTGTTAGTTCGAAGCTCAAATAATAAGGGAAGGTTA
GCACCAATGTCGAGATTTTAAAAATATTTTAAGACCATGTTCACACGTTA
CTGTTCAATTTCGCTCCCGTATGATTTTTGTTACGTGTCAAATGTGTTCA
TATTGGTTTCGTAACGTTTGGAGCAAGAAAACGGAGCAGTTCCGTTCCGA
TGAAAAAAGTGGAGCGAAACCGTTTCGATCTGTTTTTCTTTGTAACGTCT
GCTTTTTTGACGTTTTGAATTTTCACGTTCACACTTGTTTCGGAACCGTT
TCGTTTCGTTTCGGAATGGAACAGTAACGTGTGAACATGGTCTAAGGTTT
TGTGGAATCTAAAACTCCCAAATTATTAGAAGATCGTGAAATTAAGGTGA
TTTTATAAGAGCATTTTAGGCTTTAAACTCTTAAAGTTAAGACAATTTGA
AGGCTTTAAAACTTTTGGATGTTCTTATAAAAAACCTTTATTCCTATCCA
GGAAGATTTTCAACTTAATCTGTTCTTTTTTCATAGTGGTCAACAATCAA
CACATTCCCAGATGTTCATATAGTCACTGTAAGTTAGGCGGGACCAATTT
TATATGTGTTCTACGGGAAGATCGTTAGTAAAATATGACTCGGTCGGTCG
GTAAAATAAAAATAAGATTTTCATTAATCAATGAAGGTAATTAGGCTTTA
AGTAATATTTTCAAATAATCCTGGTCGAAAATTCATCATTCATCTTTGAT
GGAGTTTGTAATAGAATAGCATTCATGATTCTAGATTCTTTTCAACTTTT
TAAAAGTGTTACTAGTGTGACTAGTATTAGAATCTGTGGCATAGGAAATT
CAATATTATTATTTTTTCGTTTGCAGCAAATGCTGGGTCGGTCACGCCCG
TAGAACAACAAATTAAATTGACCATATAGATTTTATTTAAAATTTTTATA
ATTTTTTTACTTGTATAAAACATATAGTTTAGATCTTAGGGCAAAGTTTG
GAAATTTACAAACGAATTATCTAAAAAGATTCTTGTAGAGGTTTTTGCTG
TTGCTACGTTCTAAAATAATAGTTGGAAAGCTCTCCTGGTAGCGTTGTTA
GGGTAACAGCACGCCGCGGTGAATCTTGAAATAATCACTAATCACCACAA
TTTATTTCTTTGTACGATTTTCAATCCCATTCCATCCTTCTTTGCCTTAA
TTGTTTTTACACAATTGATTACATACTATATAGTGACCGTAGTGCAGTGG
TAGAGCACGTGGCTACGGTGCGCAAGATCCTAGGTTCAGTCCTCGACCGG
GTCATACCTAAGACTTCGTACTTAGTAAAAATGGTACTTGATGCATCTCT
GATTCGTGCTCAGCAATTAAGAGAAGGATCAAGGGTAATGGTGCCCTCTC
CTACCTTCGGGTAGATGGCTATCGAAAGAGGAGCCTTCGGGTCGCCTCCG
ACTGCAGTCGCAGACTTACTTACTTTACTTACAATATCAAAAAACAAGTA
TGATTTTCCAATCATTCCGAAATGAATTGTGGGATTGAAAGTCGTACAAA
TCTTTAGCTAAAAGAATTATGACGCTGGCGTTGCTACGGCAATTTGTTTT
GACCATGTGATTCTTTTTTTTTTAGGGTTCACCGTACAGCCGAGTGGATT
TAAGGGCAGTGAACGTGCACACAGCGGATATGTGTATTTTGTTATCACCC
TTTAAAAATGTGGTCTTTGAGCAAGAAGAACATGAAGCTATGTCAGATAA
AGAAGTGATTATGGTCGCTCTCAATTTGAGAGGTAACGGGAGTTATTCTT
TTATACTCTTAGGTTCCAAATAAACGCCCCCCACCGCTTGTTAAATTTTC
CAACCCTCCGGACCTTATTAGGACCCCCTGTTTATTAATCTTTAAGAATA
GTTTCAGTTGGCAAAAAGAAGTCCCCTTATTTTGCTTTAAAAAGCCTGAT
TTTAGCCTATATTTACCATATTTTTGGGTTTTCAGAAGTACAATTTCCAA
CCCCCCCCTCCGGCAATTAGGAATTAGGTCCCCCCATGTTTAAACATAAA
AAGCAATGTGTAACCAAATCAAAATAAAACATAACACATTTTTCCTATAA
CGATATTTCGACCTCCGTGCCTTTTTCAAGTTCATAGGTTCAAGTATTTT
CACTTTTTAGCGGATACTAAATTTACATGAATCGCAATCGAAATACTTTT
TTCAAAGGGAAATCAAATATTACGGATTTCTTACGCGCATTTTGCGTGTA
TTTTCGTGAATTAAGAAACTTTAAAGCTCGGTACTCACTTGTGCAAAAAA
TATCGCGTCTAAATGCGCTTAAGTGCGTTTAGTGAACGTATTCACTAAAA
AGCAAAAATGTTTTCGACCCACTTATTAAGCGCACATAGACGCACTTAAA
CCCGATTTTTTGCACAAGTGATTACCAAGCTTAAGAGGAAGACTGATGGG
ATAAAGAAGAACGCATGTAAATTGTAGCTTGACAAGCAACGTGTCAACCC
TTAATGAAACCATGAATTAGACAAATCTTTTACTATAGGCAGGGGCAGTA
AAATTTTGTAGTTTTTTTGGAGTTTTTTTGCGATTTTAGATCCATACATG
ATTTTCTGCGCGTATTTAATTTAGCGATTATAAATCGGTGAAAAAATTTA
AACTGTATTAAATTCTTGTTTTTTTTTTCAGCAATGACATTTGACAATAT
CAGTAAATCAACTTTAACCTCACCAGTGCCTTATGACGAGCTACCTTCAT
ACAAATCGAATTTCAACGTACAAAATTCTTTCGATATGTTATACTCGGAA
AACGCTTTGATGGCAATCGGAACATGCAATTTAGATACGAACGGTGATAC
CATTACAGGAGAAAATATACGTATGATAACTGAGCTAGGTGAGTTTTGTA
CATACAATTTGACGCTCTCTAATTCGACATTGTTTTACTATCGAAAAGCC
TTAAAAATCGAATTAGAGAGAGGCAACTGTACTTAATAATGAAATGAAAA
TCATTCCAGTTTTGCCACACTCTTTATATTTTCAACTGCAATGGGGTTTC
TACATATAGGAACAAATGTTCACTTTCTTGAAATTTGAAGGCAAACTACT
TGAAGTTTATAAGGTAATGCACATTTTGTCTGCCAGCAACTATCTTAATA
ATAATGAAAACGAAATATCATGTTGGTCTATATCAACAAATTTTCATTTA
AAATTGACTCTGATTTCAGTATACGATTCGAACACTTTATATTTGGACGA
CGAGAGACAGTCGCAATGTTCCTCGGAAGGGATTTGGATGACTCAATCAT
ATGCTTGTGGCTCTGTATTCACTGTATCTGTTCTTGATTTCCTCGCTAGT
GCGGTAAGTTGTTATTAAGGAGATAAAACATTAAGGGGATAAGTTATCAA
GTTAAGGGTGTTTGAATCTGAAGGACTTTGGATGACTCAATCATATGCTT
GTGGTTGTGTATTCACTGTATCTGTTCTCGATTTCCTTGCTAGTGCGGTA
AGTTGATATTAAAGAGATAATAAATATTAAGTTAAAATGAAGGGTTTGGA
TTTGAAGGAATTTGGATGACTCAATCGTATGCTTGTGGTTCTGTTCTTGA
CTTCCTCGCTAGTGCGGTAATCGAATACAGTGGAGTCTCTTCAACTCGAA
GCTCTATAACTTAAATGTCTCCTTAACTTGGACAAGTTATATGGTCCCTT
CATTTAACAATGCCTTGTAAGCCTTACTCCATAACTCGAAGTTTCCTTAA
CTCGAACATATTTGTGTTCGAATTATGGAGACTCAACTGTAGTAGATTGA
CTACACTTACGTTCGGTTTTCACTACATCTCTTTTCTCGGCTTCTTAGAC
TTCGCGCAGTAAATTGGCATTAAGGAGATAATCAATCTAAAGCTTTATCT
GCCTTGGTAGTATGATAAAAAAAGCCTGTGTTTTGATTTCGATCTTTAAA
TCTCTTTAGACTACTTGAGGATATTTAGAACATAAAATCAAACTCTTATC
TTGGGTAACTTAACCCTAGTAAGGTCTAATTTTGAGACCTCCCATTTATT
GAAAAGGAATAATAGAATATCCTAAAACATGCTCAACTACCATAGCAAGT
GTCAAACTGTCTTCAAAAAAAGGTGTAAAATTTAATGTATCTCATCTGTT
TATTATCAGACGTACTTCAATCAAGATACGCTGACCTTGGTCTTGAATCT
GGTAACCGGAAGTGTCAACCCGGAACTTGATAAAATCCTAGCGGAAGGAA
AGAAGCCGGACGGTGTATTAGAAAACGAAAGTATCGCAGCAACAAGAAAT
AGATGTCGTGTCGATCAATTATCGTTGGATGACCCACACTTTGCTGCAAT
GGGGGTAAGTAGTGAGGTCAAGTTGTCAGTAGCGAAGACAAGAGGTCTTC
AAAATTTGTGTAGGAGAGAAGAGTTTTACGACGTTGTAATTATATATTCA
TGATACAAAAAGATGATTACTACACGTTTTTATAAGAACAAACTATATAA
GAACATAAGGCTTCGACAGCCAAAATGTTAAGAACAAGCTAGGAACATTT
TAAGGCTTTATGGACTCAAAAAACCGATTTCTTAGGAAAATGGGTAAAAA
TGGTCAAAAAATGGCAATTATAAGAACATTTTAAGAACATTTTTAGGCTT
AAAACTCAAAAACATCCCAAGGCTTCAAAAATCTTGGATGTTCTTATAAA
AAACGTGTATTTAATAAGAATCTGCTCTGCTTAAACAAATTTTATGCCCC
TCTTATCTACCTACTTGTACTAAGTTCAAGTAACGCTTTTTGGGACACAT
TATATAATCAACGCATTCAATGTTCTGAGATCCAGCAATCCGTGGAGTCA
TTATGTAATTCTTATTTTGTCAACTTTAGCGCGTCAAACTGAATTCCATT
TTTGTCATTTTAGCGCATCAACGAATACGGCGATTTATTTGTCAAATCAA
TTCAAGAACACAACATGCTGTGCCTTGGACTATACAGGCTACACACGAAC
AGTTCCAAAACAATGTCGCTGAACACTCGCTATGTTATAACATTCCCCAG
TCGGGACATGAGGCTCGAGCCGACAGACCGTGTTTTTGTTCTGATGCAGT
TCAAAGAAGATAAAGGTGATTTTTATACCTCAAGTGAAGATAGTCAAATG
TAGTTTGGATTTAGAATAAAGGATGAAAGAGGATTTACGTTGTAAATGGC
ATGGGGACCACGCTACGTTGTGTTAACGTCCATCCAACGTTATTAGATGA
TCGTTAAATGGATGTTGGTTTGAAGTTTTATGCCGATGACATTATGGTAC
ATTGCTTAACTCGCACATAACGTTGTTTCAACGTTTATCTATCGTTCACA
ACGTCCATATAACGTTGGATGAACGTTGAAACGTTTCGTGCTAACTGAGG
AAAGAATTCAATCTTATGAGGCAAATGTGAGATTTTTTGTCAAGACAAGC
AAACAAAATTTGTGCCAGATAGGATTGCTATTGGATACAGATAGTCACAC
TTACCATAGACTTACCCCAATTCGCTATTGATCATTGATAATGCAACTGA
AAACCAAATTGGTAGAATTTTGAGTTAAAATCCTCGGGAACTAATATAAT
ATTTGATAATTTTAGCCAAGATAATAAGTTCGCGTTCTTAAAATTATATA
ATTTTTGTAGATTTAAATGAGGGATTGACCGCATATATTATCTTCTAAAT
TTCAAGGAAACTTTAGGTAAGCAATGGATCACTATTTCTAAATTTATTAA
TTACAATAAATATAAAACAATTGAAGAACTCCCCCAAGCGGGGGGCCTCG
TTAAACTGGGATACACAAAATTTCATCTAAAAACATCATCTGGGTATCAA
AGGATAGCA

Coding sequence (CDS) from alignment at sc0000001:851142..873700-

>TCONS_00000180 ID=TCONS_00000180|Name=TCONS_00000180|organism=Clytia hemisphaerica|type=CDS|length=2808bp|location=Sequence derived from alignment at sc0000001:851142..873700- (Clytia hemisphaerica)
ATGGGACATATACACACATATCGATCTATTGACGCTACCCTTAGTCTTTC
ATACAGATATCGGAAAACAAGCTGGCTAGGGTTGCGCTTTCTGAGAATCA
TTTATGCCCAAAAAGCACCACTAATGTTACATTATCTCAACGTTCTAACT
GCAGGACCTAATCTGACAATGGGGTATGTGGTTGGCAAAGTATTTGCATT
GATTCTCGCTTCCGCTGGCATTATTCATTTGCTGGAGAACACAGGAGATC
CATGGGTTGATGGAGATAGTAATCGACAGAAGCTGACCTACTTTGAATGT
GTCTACTTTATGATTGTGACCTTATCGACAGTTGGTTATGGAGATTTTTC
ATGTAACACATACCTTGGCCGTGTCTTTTGTATGCTCATTATCATCTTTG
GTTTGGGTTTATTTGCTTCATACATCCCAATGATTTTCGACTTCATTTCG
TCACATACAAAATATGATCGGAAATTTAAAACAACGCCCGGCAAAAAGCA
CGTGGTGGTGACCGGACATATTACGGACGAGACCGTGTCCGCATTTGTTC
AAGATTTTCTACATCCGGACAGAGCGTTCAATAACACATCTGTTGTATTC
TTAGCTCCAAACCACCCGACAGTTGTCATACAATCCATCTTGCAACGTTA
TTTTTCGAAAGTCAGTTATTTCGTTGGTACTATATACAAGCACCACGATT
GTGAAAGAGTACAGATGCAAGAAGCAGACGCAGTGATTATTCTATGTGAT
AAAAAATGCACTAACCCTGATGCGGAGGATGCTGGGAATATTACAAGGGT
CATCTTGGTCAAGAAATTCTACCGTCACGTGAGATGTATTGTTCAATTAA
TGAGAAAAGCTAGTAAAGCACACATTTACAATTGTCCACAATGGAAAGAA
TCGAATGGTGATGCTATTGTTTGTATTGATGAGTTGAAACTTGGCATAAT
GGCTCAATCATGCAATGCACCAGGATTTTCAACACTTCTTGCTAACTTAT
TCGTTATGAGAGAAAATGAGAACAAACACTACCAAGACAACTGGCGAGAG
ACGTATTTATCTGGTGTCTCTGTGGAAATGTATTCCACTTTGTTATCAGA
TTATTTCATTGGAATGTCTTTCCCAAAAGCTGTCGAGATTTGCTTCACAA
AGTTGAACCTATTGTTAATTGCTGTTGAAGTACACCACAAAGATAAAGGA
GAAATATTTGCGATCAATCCATCTAGTTCGTTGAGACTAACAAAAGGATC
ACGGGCATTCTTCATATCCCAGGATGCAGATGATGTCTCAAAAGCTCGTT
TTTATTGTGATCGATGTCACACAAATCATACGAGTTCGAAACGCATGCTT
CCAAAGTGCAAGTGTATGTCAGGTAGTTCAAGTAATGTGTCATTAGAGGG
ATCCTTCGAAAATTTAAAGAAAGATCACTCGACAACTAACGGCAAAAATC
ACGTGACTGTTTCCCTTGACAACCCAGGGTACAACAACAAAGTTACCATG
AATGGAAAAACTTTGAACAAATTCAACAGTAGCAGCATGAAAAAGAAGAC
ATTACCACCATTAGATTATAAGAACAGTAAACGAGAAATGTTTGATGAGA
CTGGAACATTCTTTTGGTGCCCTGAAAAATTACTTGAAGACGCCATTATG
TCATTAGAAGTAGCAGAACAAGAGATGTTTGATGGCCACGTGGTCATTTT
GGTCATTTCTGATGTTCGTGCACCTTCACTTGGATTACAACAATTGATTC
AGCCATTGAGAGCGAGCAACCAACCATACGAAGACCTAAAGAAAATCATC
ATTTTGGGAGATGATAAATTCTTAGCAAGAGAGTGGTCAACAATCAACAC
ATTCCCAGATGTTCATATAGTCACTGGTTCACCGTACAGCCGAGTGGATT
TAAGGGCAGTGAACGTGCACACAGCGGATATGTGTATTTTGTTATCACCC
TTTAAAAATGTGGTCTTTGAGCAAGAAGAACATGAAGCTATGTCAGATAA
AGAAGTGATTATGGTCGCTCTCAATTTGAGAGCAATGACATTTGACAATA
TCAGTAAATCAACTTTAACCTCACCAGTGCCTTATGACGAGCTACCTTCA
TACAAATCGAATTTCAACGTACAAAATTCTTTCGATATGTTATACTCGGA
AAACGCTTTGATGGCAATCGGAACATGCAATTTAGATACGAACGGTGATA
CCATTACAGGAGAAAATATACGTATGATAACTGAGCTAGTATACGATTCG
AACACTTTATATTTGGACGACGAGAGACAGTCGCAATGTTCCTCGGAAGG
GATTTGGATGACTCAATCATATGCTTGTGGCTCTGTATTCACTGTATCTG
TTCTTGATTTCCTCGCTAGTGCGACGTACTTCAATCAAGATACGCTGACC
TTGGTCTTGAATCTGGTAACCGGAAGTGTCAACCCGGAACTTGATAAAAT
CCTAGCGGAAGGAAAGAAGCCGGACGGTGTATTAGAAAACGAAAGTATCG
CAGCAACAAGAAATAGATGTCGTGTCGATCAATTATCGTTGGATGACCCA
CACTTTGCTGCAATGGGGCGCATCAACGAATACGGCGATTTATTTGTCAA
ATCAATTCAAGAACACAACATGCTGTGCCTTGGACTATACAGGCTACACA
CGAACAGTTCCAAAACAATGTCGCTGAACACTCGCTATGTTATAACATTC
CCCAGTCGGGACATGAGGCTCGAGCCGACAGACCGTGTTTTTGTTCTGAT
GCAGTTCAAAGAAGATAAAGGTGATTTTTATACCTCAAGTGAAGATAGTC
AAATGTAG
Gene-mRNA-Prot
This transcript is a part of the following gene feature(s):
Feature NameUnique NameSpeciesType
XLOC_000106XLOC_000106Clytia hemisphaericagene
The following exon feature(s) are a part of this transcript:
Feature NameUnique NameSpeciesType
TCONS_00000180-exon-sc0000001-1575043694:873126..873700TCONS_00000180-exon-sc0000001-1575043694:873126..873700Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:872505..872569TCONS_00000180-exon-sc0000001-1575043694:872505..872569Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:871840..871954TCONS_00000180-exon-sc0000001-1575043694:871840..871954Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:871029..871142TCONS_00000180-exon-sc0000001-1575043694:871029..871142Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:870212..870287TCONS_00000180-exon-sc0000001-1575043694:870212..870287Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:869725..869800TCONS_00000180-exon-sc0000001-1575043694:869725..869800Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:869182..869265TCONS_00000180-exon-sc0000001-1575043694:869182..869265Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:868060..868149TCONS_00000180-exon-sc0000001-1575043694:868060..868149Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:867415..867506TCONS_00000180-exon-sc0000001-1575043694:867415..867506Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:866869..866979TCONS_00000180-exon-sc0000001-1575043694:866869..866979Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:865765..865953TCONS_00000180-exon-sc0000001-1575043694:865765..865953Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:864282..864351TCONS_00000180-exon-sc0000001-1575043694:864282..864351Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:863864..863929TCONS_00000180-exon-sc0000001-1575043694:863864..863929Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:863038..863124TCONS_00000180-exon-sc0000001-1575043694:863038..863124Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:862028..862143TCONS_00000180-exon-sc0000001-1575043694:862028..862143Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:861521..861589TCONS_00000180-exon-sc0000001-1575043694:861521..861589Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:861012..861098TCONS_00000180-exon-sc0000001-1575043694:861012..861098Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:859497..859576TCONS_00000180-exon-sc0000001-1575043694:859497..859576Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:858985..859117TCONS_00000180-exon-sc0000001-1575043694:858985..859117Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:858451..858595TCONS_00000180-exon-sc0000001-1575043694:858451..858595Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:857587..857682TCONS_00000180-exon-sc0000001-1575043694:857587..857682Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:857122..857208TCONS_00000180-exon-sc0000001-1575043694:857122..857208Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:856423..856464TCONS_00000180-exon-sc0000001-1575043694:856423..856464Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:855219..855375TCONS_00000180-exon-sc0000001-1575043694:855219..855375Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:854113..854319TCONS_00000180-exon-sc0000001-1575043694:854113..854319Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:853648..853781TCONS_00000180-exon-sc0000001-1575043694:853648..853781Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:852647..852841TCONS_00000180-exon-sc0000001-1575043694:852647..852841Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1575043694:851142..852087TCONS_00000180-exon-sc0000001-1575043694:851142..852087Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:873126..873700TCONS_00000180-exon-sc0000001-1510915933:873126..873700Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:872505..872569TCONS_00000180-exon-sc0000001-1510915933:872505..872569Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:871840..871954TCONS_00000180-exon-sc0000001-1510915933:871840..871954Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:871029..871142TCONS_00000180-exon-sc0000001-1510915933:871029..871142Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:870212..870287TCONS_00000180-exon-sc0000001-1510915933:870212..870287Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:869725..869800TCONS_00000180-exon-sc0000001-1510915933:869725..869800Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:869182..869265TCONS_00000180-exon-sc0000001-1510915933:869182..869265Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:868060..868149TCONS_00000180-exon-sc0000001-1510915933:868060..868149Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:867415..867506TCONS_00000180-exon-sc0000001-1510915933:867415..867506Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:866869..866979TCONS_00000180-exon-sc0000001-1510915933:866869..866979Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:865765..865953TCONS_00000180-exon-sc0000001-1510915933:865765..865953Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:864282..864351TCONS_00000180-exon-sc0000001-1510915933:864282..864351Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:863864..863929TCONS_00000180-exon-sc0000001-1510915933:863864..863929Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:863038..863124TCONS_00000180-exon-sc0000001-1510915933:863038..863124Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:862028..862143TCONS_00000180-exon-sc0000001-1510915933:862028..862143Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:861521..861589TCONS_00000180-exon-sc0000001-1510915933:861521..861589Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:861012..861098TCONS_00000180-exon-sc0000001-1510915933:861012..861098Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:859497..859576TCONS_00000180-exon-sc0000001-1510915933:859497..859576Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:858985..859117TCONS_00000180-exon-sc0000001-1510915933:858985..859117Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:858451..858595TCONS_00000180-exon-sc0000001-1510915933:858451..858595Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:857587..857682TCONS_00000180-exon-sc0000001-1510915933:857587..857682Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:857122..857208TCONS_00000180-exon-sc0000001-1510915933:857122..857208Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:856423..856464TCONS_00000180-exon-sc0000001-1510915933:856423..856464Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:855219..855375TCONS_00000180-exon-sc0000001-1510915933:855219..855375Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:854113..854319TCONS_00000180-exon-sc0000001-1510915933:854113..854319Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:853648..853781TCONS_00000180-exon-sc0000001-1510915933:853648..853781Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:852647..852841TCONS_00000180-exon-sc0000001-1510915933:852647..852841Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1510915933:851142..852087TCONS_00000180-exon-sc0000001-1510915933:851142..852087Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:873126..873700TCONS_00000180-exon-sc0000001-1491911889:873126..873700Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:872505..872569TCONS_00000180-exon-sc0000001-1491911889:872505..872569Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:871840..871954TCONS_00000180-exon-sc0000001-1491911889:871840..871954Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:871029..871142TCONS_00000180-exon-sc0000001-1491911889:871029..871142Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:870212..870287TCONS_00000180-exon-sc0000001-1491911889:870212..870287Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:869725..869800TCONS_00000180-exon-sc0000001-1491911889:869725..869800Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:869182..869265TCONS_00000180-exon-sc0000001-1491911889:869182..869265Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:868060..868149TCONS_00000180-exon-sc0000001-1491911889:868060..868149Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:867415..867506TCONS_00000180-exon-sc0000001-1491911889:867415..867506Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:866869..866979TCONS_00000180-exon-sc0000001-1491911889:866869..866979Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:865765..865953TCONS_00000180-exon-sc0000001-1491911889:865765..865953Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:864282..864351TCONS_00000180-exon-sc0000001-1491911889:864282..864351Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:863864..863929TCONS_00000180-exon-sc0000001-1491911889:863864..863929Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:863038..863124TCONS_00000180-exon-sc0000001-1491911889:863038..863124Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:862028..862143TCONS_00000180-exon-sc0000001-1491911889:862028..862143Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:861521..861589TCONS_00000180-exon-sc0000001-1491911889:861521..861589Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:861012..861098TCONS_00000180-exon-sc0000001-1491911889:861012..861098Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:859497..859576TCONS_00000180-exon-sc0000001-1491911889:859497..859576Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:858985..859117TCONS_00000180-exon-sc0000001-1491911889:858985..859117Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:858451..858595TCONS_00000180-exon-sc0000001-1491911889:858451..858595Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:857587..857682TCONS_00000180-exon-sc0000001-1491911889:857587..857682Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:857122..857208TCONS_00000180-exon-sc0000001-1491911889:857122..857208Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:856423..856464TCONS_00000180-exon-sc0000001-1491911889:856423..856464Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:855219..855375TCONS_00000180-exon-sc0000001-1491911889:855219..855375Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:854113..854319TCONS_00000180-exon-sc0000001-1491911889:854113..854319Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:853648..853781TCONS_00000180-exon-sc0000001-1491911889:853648..853781Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:852647..852841TCONS_00000180-exon-sc0000001-1491911889:852647..852841Clytia hemisphaericaexon
TCONS_00000180-exon-sc0000001-1491911889:851142..852087TCONS_00000180-exon-sc0000001-1491911889:851142..852087Clytia hemisphaericaexon
The following polypeptide feature(s) derives from this transcript:
Feature NameUnique NameSpeciesType
TCONS_00000180-proteinTCONS_00000180-proteinClytia hemisphaericapolypeptide
Position
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
sc0000001supercontigsc0000001:851142..873700 -
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
11.1267	10.9614	2.39484	1.75956	0.31017	0.413943	1.33066	2.1451	1.56545	1.97781	1.5729	1.54368	6.68206	6.59899	1.52591	2.20324	0.908703	1.27804	14.8121	18.3561	4.23937	4.84982	11.7378	16.6765	6.91439	7.21778	4.31476	2.20321	37.1316	30.539
Annotated Terms
The following terms have been associated with this transcript:
Vocabulary: INTERPRO
TermDefinition
IPR003929K_chnl_BK_asu
IPR013099K_chnl_dom
Vocabulary: Biological Process
TermDefinition
GO:0006813potassium ion transport
Vocabulary: Cellular Component
TermDefinition
GO:0016020membrane
GO Annotation
GO Assignments
This transcript is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006813 potassium ion transport
cellular_component GO:0016020 membrane
Blast
[Close]
BLAST of TCONS_00000180 vs. Swiss-Prot (Human)
Match: KCMA1 (Calcium-activated potassium channel subunit alpha-1 OS=Homo sapiens GN=KCNMA1 PE=1 SV=2)

HSP 1 Score: 660.603 bits (1703), Expect = 0.000e+0
Identity = 371/944 (39.30%), Postives = 536/944 (56.78%), Query Frame = 2 
Query:  848 YRKTSWLGLRFLRIIYAQKAPLMLHYLNVLTAGPNLTMGYVVGKVFALILASAGIIHLLENTGDPWVDGDSNRQKLTYFECVYFMIVTLSTVGYGDFSCNTYLGRVFCMLIIIFGLGLFASYIPMIFDFISSHTKYDRKFKTTPGKKHVVVTGHITDETVSAFVQDFLHPDRAFNNTSVVFLAPNHPTVVIQSILQRYFSKVSYFVGTIYKHHDCERVQMQEADAVIILCDKKCTNPDAEDAGNITRVILVKKFYRHVRCIVQLMRKASKAHIYNCPQWKESNGDAIVCIDELKLGIMAQSCNAPGFSTLLANLFVMRENENKHYQDNWRETYLSGVSVEMYSTLLSDYFIGMSFPKAVEICFTKLNLLLIAVEVHHKDKGEIFAINPSSSLRLTKGSRAFFISQDADDVSKARFYCDRCHTNHTSSKRMLPKCKCMXXXXXXXXXXXX---FE--NLKKDHSTTNGKNHVTVS-------LDNPGYNN-------------------KVTMNGKTLNKFNSSSMKKKTLPPL-------DYKNSKREMFDETGTFFWCPEKLLEDAIMSLEVAEQEMFDGHVVILVISDVRAPSLGLQQLIQPLRASNQPYEDLKKIIILGDDKFLAREWSTINTFPDVHIVTGSPYSRVDLRAVNVHTADMCILLSPFKNVVFEQEEHEAMSDKEVIMVALNLRAMTFDNISKSTLTSPVPYDELPSYKSNFNVQNSFDMLYSENALMAIGTCNLDTNGDTITGENIRMITELVYDSNTLYLDDERQSQCSSEGIWMTQSYACGSVFTVSVLDFLASATYFNQDTLTLVLNLVTGSVNPELDKILAEGKKPDGVLENESIAATRNRCRVDQLSLDDPHFAAMGRINEYGDLFVKSIQEHNMLCLGLYRLHTNSSKTMSLNT-RYVITFPSRDMRLEPTDRVFVLMQFKEDKG 3562
            Y   SWLGLRFLR +   +   +L +LN+L    ++ +  ++    +  L +AG IHL+EN+GDPW +   N Q LTY+ECVY ++VT+STVGYGD    T LGR+F +  I+ GL +FASY+P I + I +  KY   +    G+KH+VV GHIT E+VS F++DFLH DR   N  +VFL    P + ++++ +R+F++V ++ G++   HD  RV+++ ADA +IL +K C +PDAEDA NI RVI +K ++  +R I Q+++  +KAH+ N P W    GD  +C+ ELKLG +AQSC A G ST+LANLF MR +  K  +D W++ YL GVS EMY+  LS  F+G+SFP   E+CF KL LL+IA+E    ++     INP + L++ +G+  FFI+ DA +V +A FYC  CH + T  KR + KC C     S          F+    ++D S  +G+    V        L +   N+                   K   NG   N  N+S    +  P L       D  +S  + +D TG F WC  K +E  I++   A   +  GHVV+ +  DV +  +GL+ L+ PLRASN  Y +LK I+ +G  ++L REW T++ FP V I+ G+P SR DLRAVN++  DMC++LS  +N +    +  ++ DKE I+ +LN+++M FD+       +   +      +S+ +      ML   +                 TG NI +ITELV D+N  +LD +      +E +++TQ +ACG+ F VSVLD L SATYFN + LTL+  LVTG   PEL+ ++AE     G        A R+RCRV QL+L D  FA +G    YGDLF K+++ +NMLC G+YRL      T S  T RYVIT P  +  L PTD +F LMQF  + G
Sbjct:  263 YLNRSWLGLRFLRALRLIQFSEILQFLNILKTSNSIKLVNLLSIFISTWLTAAGFIHLVENSGDPW-ENFQNNQALTYWECVYLLMVTMSTVGYGDVYAKTTLGRLFMVFFILGGLAMFASYVPEIIELIGNRKKYGGSYSAVSGRKHIVVCGHITLESVSNFLKDFLHKDRDDVNVEIVFLHNISPNLELEALFKRHFTQVEFYQGSVLNPHDLARVKIESADACLILANKYCADPDAEDASNIMRVISIKNYHPKIRIITQMLQYHNKAHLLNIPSWNWKEGDDAICLAELKLGFIAQSCLAQGLSTMLANLFSMR-SFIKIEEDTWQKYYLEGVSNEMYTEYLSSAFVGLSFPTVCELCFVKLKLLMIAIEYKSANRESRILINPGNHLKIQEGTLGFFIASDAKEVKRAFFYCKACHDDITDPKR-IKKCGCKRPKMSIYKRMRRACCFDCGRSERDCSCMSGRVRGNVDTLERAFPLSSVSVNDCSTSFRAFEDEQPSTLSPKKKQRNGGMRNSPNTSPKLMRHDPLLIPGNDQIDNMDSNVKKYDSTGMFHWCAPKEIEKVILTRSEAAMTVLSGHVVVCIFGDVSSALIGLRNLVMPLRASNFHYHELKHIVFVGSIEYLKREWETLHNFPKVSILPGTPLSRADLRAVNINLCDMCVILSANQNNI----DDTSLQDKECILASLNIKSMQFDDSIGVLQANSQGFTPPGMDRSSPDNSPVHGMLRQPS---------------ITTGVNIPIITELVNDTNVQFLDQDDDDDPDTE-LYLTQPFACGTAFAVSVLDSLMSATYFNDNILTLIRTLVTGGATPELEALIAEENALRGGYSTPQTLANRDRCRVAQLALLDGPFADLGDGGCYGDLFCKALKTYNMLCFGIYRLRDAHLSTPSQCTKRYVITNPPYEFELVPTDLIFCLMQFDHNAG 1183
The following BLAST results are available for this feature:
BLAST of TCONS_00000180 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
KCMA10.000e+039.30Calcium-activated potassium channel subunit alpha-... [more]
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