TCONS_00061010 (transcript) - C. hemisphaerica

Overview
NameTCONS_00061010
Unique NameTCONS_00061010
Typetranscript
OrganismClytia hemisphaerica (Jellyfish)
Sequence length4601

Sequence
The following sequences are available for this feature:

transcript sequence

>TCONS_00061010 ID=TCONS_00061010|Name=TCONS_00061010|organism=Clytia hemisphaerica|type=transcript|length=4601bp
gtgaaaaataattaaaaaaaatatgaatataTTCAAAGAGCTGCAATGGC
GAAAAAACAGTCACTGGAACTTGAAATCTTAAAAAGTGGTCAAAGATGGC
TATCGTGTAACAAAAGCTGAAGAGCTGAAGATTCCTTTTAATTAGAGGCT
CAACAATCTATCGTCAGAGACTTAAACATTATGGAGAATTTCGTACTTTA
CGATGAAATTGGTACCGGAGATAAACGTATGGTTTATAAGGGCCGTCGTA
AAGGTTCCGTATCGTACGTAGCTATACATTGCGTGGAAAAGGAATACCgt
aacaaaatacaaaatcacGTACGTATCTGTTACGAGTTAGATCACGTCAA
CATCGTACAGTTTTACGAATGGTACGAAACCACCAATCATCTGTGGCTGG
TTGTCGAGCTCTGCGCTGGCGGATCTTTACAAAATATATTAGAGTTGGAT
TCCTATCTACCTGAAAAAGAGATTAGAAACTTTGCGAAGGATGTGGTCAA
AGGGCTAGCTTATTTGCATTCGCAAGACATTATATATGGTGATTTATGTT
CGGCTAATATTTTGCTTGACTCAAGTGGAACTttgaaattcagtaatttt
tgttCAGCCAAATTTTCTGATGCCTCCGAGGAAAATGAGCAGGAAGATGA
CGTCACTCAACATCAGTCTTATTTTAAATCACCTGAAGAGCTAGCCGGGG
GAGAACAGAGTAAAGAAAGTGACTTGTGGGCACTAGGCTGTGTTCTGTAT
GAAATGTTTACAGGAACGGAACCGTTTCGAGGCTCAACGCGTGCACAAAT
CGAACAAAAAATTAAGCACGAAAATATCCCTTATCCGATGcaagGTCAAG
AAGGTACTTTCATTAAAGCTTCAGAAGATCTATACATGCTCATCCAAGGT
CTCTTACAAAAAGATCCTTCACAACGCATCGACTTATTAGAACTCTGCAT
GCATCCTTTCTGGCAAGGGGAACTAGCATCATTGGCTGACATGTTCGATA
CTCGTGAAAGTTTAGTATCCTACACCAGCACCAGTATGGCAACTTCAGTT
ATGGATGAGGAGAATACCACAAGTAGAGATGTTGGAAGACAGAGCAGTGC
CTCTGAAGCTGACGTCATCACTTTACAAGATAGCATTTCTGCCAACGACA
ATAAAAAACTCCAATCCCAATCGTTGAACATATTGGCCAACGAAGAAAGA
GAGGAGCGTGAAGCATTGAATTCATCCACCAGATCTTTAGTCACCACTAA
CAACGCCAACATCTCCAAGAAACAAGCCTGGGGAGGAACATATAAACTGG
AAAGAGGATCTGCCGTTCATAATCTAGCCGACGTTGTCGATGATCAACAA
CAAACTCGTAAACACTCAGCAAAATCTACATCCTCGGTCAAATCACAGAA
ATCTTCGGTAGCTTCTGAGAAATCTTCGGTTTCCAGCGAGAAACCTGAGA
AACAAACTCGCCAAGCATCAGCCAAACCACCTCAACCACCAGGATCAGAA
CGAAACTCAATCATCAAATCGTCCTCGGCAGCCGCCAGAGCTGCAGTAGG
ACAATTGAAGTCCCAAACATCAGATTCTCTTCAAGATTCAATGGAGCCTT
CAAGCATCAGTACCCTTGTATCACGTGATCAGTCGGATATCATTCCATAC
CTTGGAGGTCCTGACGTCAACGTTCTAGATCATCTTTACCATCCATCAGA
CCTTACCGTAAGCCCCATAGCTGAGAATCGACTTTTCGATAAGTTTCCAA
CGCTCAAATGGGACCAAAATGTTATCAATACATCTATATACACTTCTGAG
CAATTGGCGATTATGAGTTTGGATGATATTCGATNATGTTATCAGTACAT
CTGTATACACTTCTGAGCAATTGGCGATTATGAGTTTGGATGATATTCGA
TCACACCTTAAAGATCTTACTGGTGTGTTTTCGGCGCCGATGAATCAATC
CAACGAGAAAGTTCGTCTCCGGCAAAAGATGAACATTGTTGCTTATCTTA
TCACAGCAGTTCGAGTGGAAGAAGTTGCCAACAGTTTTTTAAAAGATGCC
TTGGTCAAATGTTTCCTCAATGATTTGAAAGTGGCATCAAATCAAGATCT
GAAAATGAGAATAGCTCGTTTACTGAGCGTCGTTGCCAGCAATGCCACTT
CAATCGATCCACAATTCAAGATGGGGGATGTGTTCACAGTGGTCAGTAAT
CAATTGAAACAGAATTTTAGGAACACGCGTTTGAGACACGCTTTCTTACC
GGTGATTGGAGAATTTCTGTTTTACGCAGCAACtcaagaagaaaatgaag
ctcGATTAATATCGTCATGGGAACCGCCAGGAGCTGTTTTCACCATCATC
ACACGTTGTTTGCACCTTCTTGATGGCGAGGAAGTCACTCGTCTGATGGC
TGCAAAGATCATCGAAAATATCACCTCCACTACTGGCAgatattgtaaaa
aattggttAACAATGACGTCGGATTGGGATTATGGAATCTCTACACTCAC
TCATCAATGGATAACGTCAAGGAAACAGCTGCGTCAGCACTTTGTCGTCT
TTGCATGCACTCCACCGTTGTTATTCAACACGTCTCCGACCGCGCGGGCT
TTGATCAGTTCGTATCGGGTGCCACTTTGGGTTCCTTGAAAACTCAACAA
TCGTTTGTTACCATACTGGTATCCCTGCTGTCAAGTGCGAATCATTTGAA
AAGGATTTTGGGTGATCGCCAACTGTTAACGAAACTAGTACGAAATCTCG
AAGGGCATTCACTGATTCTCAAAGGAAAAATCTACCTCCTACTTGCTGAA
ATGTGTATGCGATCCCACCCCACTCTTTTGACGTGTTGTCAACAGAAATT
AATGATTTATGTTGAAAGAGACAGTAAACGTGCTTTGAACAGCTCTGGGA
GAGACAATAGTGGACTGACAGAGTATCTACATCAATGTTTGGCTATCGTG
GTCAGTAATGTCTTGAAAATCGTGCCAAGAATTCAAGAAGacATCATTCA
CATTTTGGACACCATCTCAGGTAGACATCATCCAAATCCTGCACAAGTCA
AACAGTTGAAGTCTTTGTTAccactttttgacattttcatgcATCTAATC
ACCAGTTCTGTATTTCGGAAAAGAATGGGAGATAATTTCATCGCCTCCAT
TGGAATCTTCATGAAACGAGTGCAAAAGATTCATACAGGTGAAATCAATT
TATCCAACCCATCCGTTCGAAACCTTGGTGAATCTCTGACAAACACAATG
TTCTCAATGGTTGAAGCCATCGCACAACATCCTCACATGTTGTTACATGG
ACATCGAGTCTTCATCAACGAGGTGCTTCCAGAACTTTCAGAGTTCTTTG
ACGAAAGTGAtggaaatattaaaatattatgCTTGAAACTGTTCACCGAA
GTCTCAGCTTTTTATCTGGAATCTGAAGAAAACGAAGGACTTGGCACCTC
AGCTGATCAAAGAACCCTGTCCAAAATCAATTTGCTCAAGGTTATCAATA
AGGGTTTCATACCGCGATTCGGAAATCTGCTTCAAGACCAGATTCCTTTT
CCATCGTACAGTCTCAAACTCATGCGCGCATGCGTTGAAAAGTCAAACGA
CATGGCTGAAACGTTGCTTCAAGATACGGCGGTCTTATCCATGCTGTTTA
GTATCTTGAAGGGCAATCGAACCGAGATTTACGATTCTGTTTTACAAAGC
ACTGTGGGTATTTTTAGTAATTTGTTACCAAGTAAAGAGTTGAAGTTGGC
TTTACTATGCGAGCAAGACTTTCTAGGGGATGTGGCGTCTTTGGTTGAAA
CGGCTAACTCGTATCTTGGGAACCACTCCTATGAAATGTCGCATTTGCTT
TTGCAGTTGTTGGATATTCTAAACCACATTTTAAAGAAAGTCGAGGAGCC
TGTCAAAAGAGTTTTATCTTCAAAGGGAGCAAGAAAGCCTGGCTCCCCGT
CTGCTAACGACACTGAACAACTTTTACAAGAGACTAAACATTTATCCAAG
CTTGATGGTATATTAATGAACCTGTCGATTGCTAATGATTCTGATATACA
AGAATGGGCTTGTCGTTGTTTGTATCTATCAGCTGAACTATACGGTGGTA
GCCAGGACGAATGCAATCTCACCATTGACCATATTGAGTCCCTTGTGTCG
GCCGTCAAATCCTCAGGCGTCGTCTCTAGGAAACGCCAAAAATTGTTAAT
GCGTATATTGAAACGTTTTCTTCAGACCAACGAGTTTTGTCAACAATATG
CGTTGGAATCACCAGCGTTGAAAGACCTTTTTGAAGGATTGTTATCATCC
ACTAAAGAAGGCACTGACCAGGATTCGAAATCTGTACGTCAAATGGCAAC
AGATTTACTTGTAAAATGGACTAAACATTGACGGTGTACTGAATATACTG
AAGTCTGTCCTAGATAATGAATGTACTCTTTTTCACTTCTATGCAAATTT
TCAAGGGAATTTACGGTGAAAACATCGACATGGTTTTCATACAACAGCCA
AATGAAATGCACACTTATATTGTTAACAGAGTTCAGAACTTCAAAGTACT
TGTCATTACTGTattgttttttaattgaaatttctagacacaggaaaatt
t
Run BLAST on NCBI

transcript from alignment at scaffold_352:86..16372-

Legend: exon
Hold the cursor over a type above to highlight its positions in the sequence below.
>TCONS_00061010 ID=TCONS_00061010|Name=TCONS_00061010|organism=Clytia hemisphaerica|type=transcript|length=16287bp|location=Sequence derived from alignment at scaffold_352:86..16372- (Clytia hemisphaerica)
GTGAAAAATAATTAAAAAAAATATGAATATATTCAAAGAGCTGCAATGGC GAAAAAACAGTCACTGGAACTTGAAATCTTAAAAAGTGGTCAAAGATGGC TATCGTGTAACAAAAGCTGAAGAGCTGAAGATTCCTTTTAATTAGAGGCT CAACAATCTATCGTCAGAGACTTAAACATTATGGAGAATTTCGTACTTTA CGATGAAATTGGTACCGGAGATAAACGTATGGTTTATAAGGGCCGTCGTA AAGGTTCCGTATCGTACGTAGCTATACATTGCGTGGAAAAGGAATACCGT AACAAAATACAAAATCACGTACGTATCTGTTACGAGTTAGATCACGTCAA CATCGTACAGTTTTACGAATGGTACGAAACCACCAATCATCTGTGGCTGG TTGTCGAGCTCTGCGCTGGCGGATCTTTACAAAATATATTAGAGTTGGAT TCCTATCTACCTGAAAAAGAGATTAGAAACTTTGCGAAGGATGTGGTCAA AGGGCTAGCTTATTTGCATTCGCAAGACATTATATATGGTGATTTATGTT CGGCTAATATTTTGCTTGACTCAAGTGGAACTTTGAAATTCAGTAATTTT TGTTCAGCCAAATTTTCTGATGCCTCCGAGGAAAATGAGCAGGAAGATGA CGTCACTCAACATCAGTCTTATTTTAAATCACCTGAAGAGCTAGCCGGGG GAGAACAGAGTAAAGAAAGTGACTTGTGGGCACTAGGCTGTGTTCTGTAT GAAATGTTTACAGGAACGGAACCGTTTCGAGGCTCAACGCGTGCACAAAT CGAACAAAAAATTAAGCACGAAAATATCCCTTATCCGATGCAAGGTATTT TTTTTGAATTCTTTATTCGTCTTTCCATTACCCTAGATAGCCCTCTAGTT TTGTAAAAGGCTTATCTGGTTTCCTACTGTCAGTAAATACACGTTTAACT ATTTATCTAACTAATTAACTTTTTCAGTTTTAAGCCAACAAATTTTCTTA ACAAATTCTTATTTTCACCATTTTGTGACCATTTTTACCCATTTTCCTAA GAAATCGGTTGTTTTCGAGTCTGCAAAGCCTTGAAATGTTCTTAACTTGT TCTTAATATTTTGGCCATCGAAGCCTTATGTTCTTATATAGTTTGTTCTT ATAAAAAAAACGTGTAAAGTAATATGGAGTACGTACAGTGAGTTCGACTG ACAATTCCTGCATTAATAACACGCATGCGTAATTTGTCGTTCTTTTAAAC CACATGTAGTTAATTCTCGTGATAAACAAAGAGGAATGAATCCGTGGTAT GGTCACTTTCGGTCGGGGTTGTGGACGGCAAAATTTGTCGCTCTATATGA AATTTGACGTTCTTTTTGTCTTTATTTAGTAATGCAGGATTTGTTAGATA AACCCCCTCGTGCATACTCAATACTGGTAATTCCTCTTCTTTTCGGTAAT CGTAAATACACATTCTCTTCCAAGGTTATAGAATACATCAACTTCATTTG CTCTACCCCTCGAATGTGTAGCATTGCTGCAGTAGCGAGTTTATGTATTT GCACTAATGAGGACGACGTAAAATAACCCGCTGTTTTGTCCCGCAAAATA GAGGACGGTAAAAGTGCTCAATTTACCGTCATCCTCAGTCGGTCAGAATG TAGACAAAATTAGAAGTTTACCGTCTCTGTCGCAGAAAAACACAGATACA TAAAGTCGCTATTGCTTCTACAAGGCAAAAAGTTGTCCGGGCTCGTCCAA TGATGCTATGTCTACCACTGCTTTGATAGGGTACCCAGCTGGCACACAAC GTTGTTTCAACGTTCATATAACGGTATATGGACGTTGTGAACGTTAGATA AACGTTGAAGCAACGTCGTGTGTCAGCTGGGTAGAAAGCAATACTGCTGA TCCAAACTCGTATTCATTCCAGACACAAATAAAACGCTAAACATGATCGA TCTCTTTTAATCCATACCAGGTCAAGAAGGTACTTTCATTAAAGCTTCAG AAGATCTATACATGCTCATCCAAGGTCTCTTACAAAAAGATCCTTCACAA CGCATCGACTTATTAGAACTCTGCATGCATCCTTTCTGGCAAGGGGAACT AGCATCATTGGCTGACATGTTCGATACTCGTGAAAGTTTAGTATCCTACA CCAGCACCAGTATGGCAACTTCAGTTATGGATGAGGAGAATACCACAAGT AGAGGTACTTTAAAACGATTATTGATGCCAACTGTACGTTAAGGTCCCGA ATAAAAGGGGGATCCGAATTTCTACCTCTGAAAACCCCAAGGTAATTATA AGTTAAAGGTTTTGTTTTAATATAAGTGTTTTGTTTTAATATAAGTGTTT CCGTTTCATATCAGACACATATTTCATATCAGGACAGTGTCTTGCTATTG TTTATATTATGATGATACAAGCATAAAAATATTTTTCTTCTCCTCTTTCT GACTAATCTTGCTCCACATCCATGTCAATCCAATGTGAAAAAGCTTGTGA ATTAATATTGATTAGTAAGCAAAGGATATCACTCTTGTTTAAAAACAAAA CCTTTTATCGATTATTGATGCCAACTGTACTCTAAGGTCCCGAATAAAAG GGGGATCCGAAATTTTACCTCCGAAAACCCCAAAGTAAGGTGATTATAAC CAGGCTATTTAGAGCTTAAAATATTTTCAAAAATAAATAAACAGGGGAAA CCCGAACCCCTTATTAATAAGAAAATATTTCGGAAGTTGATAATCGGAGG GGAGACGTTTATTCGGTACCTTGTTGTTACCTTTTCCATTTTAGATGTTG GAAGACAGAGCAGTGCCTCTGAAGCTGACGTCATCACTTTACAAGATAGC ATTTCTGCCAACGACAATAAAAAACTCCAATCCCAATCGTTGAACATATT GGGTATGCTTTTAAATGATTCAAGTGCCCTTCTATATTTATATATTTATT TTGATTCCATCTTTCTAGTTGTTTTACAACTGATACTCTCTTGATTTAGT TATAAGTAAGTATGTATGTATGTAATAGTTTATTTCAAGTTGACGAACAG GTAACAACAAAGGCTAATAAAAGTCAACGCTACTTTACAATTTGTAAGGT GATTACAAAAAGCTGACACCGTCAACATAGGTCCGGCAGTTTCTACACGG GCATGATGTAGGCCTCCACTGCTTAATCTGTTCCTTAAAAATACTAAGAT CAACTATATCTCTATACTCATCCGGAATTAATTCCCAAACGATAGTGACT CTGAACCGTGAAAAACAGAGTTTATTTCTCTTGATCTGAAGTAAGGCGTT TTGCGATTTACTTTGATATTTTCATCATGTTTGAAAATTTCTTTAGTTAG ATCTGATATGTTATTTTTACATTTGAAAAGTTCTATTGCTAACAACTGAA GATTTTTATGGTGGAATTTGATGGCACTGTCTTTCTCTAAAAGCTGCTCA AAAGTAGATGTATAATCAGAATACACTATCCTCAAACATCTTTCGTGGAG GTGATTTGTTTTCTAATCTAGCCTGCGAACATGAAACATCCAGACAAGCG AACAATAATTGAATTGACATCGAAAGAAGGCATTCATGAGCCTTTGCTTT TTCTTTTGATTCATGTACGGTGCTACCCTCGCAAGCGCACTGATTTTCTG GCTAGCTTTCTTATAAATTGTGTTAATATGTGGCTCAAAAGTCAGACAGT TGTCAAAAGTTAAGTTAATCCTAGGATCTTGCCTGAGTTGCTGTTAAAGA TGCGTTCATTCTGTATAGTAATGAAGATTTCTTTGCTGGTATTATTAGCT ATCAACTCAGACTTGTNCAAAAGTCAGACAGTTGTCAAAAGTTAATCCTA GGATCTTGCCTTAGTTGCTGTTAGAGATGCGTTCATTCTGTATAGTAATG AAGATTTCTTTGCTAGTATTGTTAGCTATCAACTCAGACTTGTCTGCATT TTCTTTCATTTGATTTTGGGTTATCCACTCAAAGATGATAGCAGCTCCAT TCGAGAGCTCCTCACCAACCTGTTCCCAAGAATCAGCTATCACAAAAGGT CTTGTATCGTCAGCATAATTTAGAACATTTCTATTTTCAAGAAAGTAGAA CAAATCTCTCATGTAGATGTTAAATAGTAGTGGCCCTAGAATGGATCCTT GGGGAACACCTTCTTTAACATTATGCCAGGTACTGTAATGTTCGCCAATT TTCGTTCTTTGCTTTCTATCTGACAGGCTGCTATGAGACCTAAGGCACTC CTTGAAAATCCGTTTGCTTCAAGTTTAGCAATCAATAGTTCGTGCGAGAT TCAGTCGAAGCGCTGCAAACTTTTTCTTTTCATCTGTAGCTTTCTTCCAA ATTTCAGTCATGACTAAAAGTGGAGTTTTTGTACTCGTTCCTTTTCTATA TCCAAATTGTCTATTGCTCAAAATGTTGTTAAAGTAGGTTGAGACTTGGG TATGTATGACTTTTTCATAAATTTTTGACAGAACTGGGAGAATACTCACC GGTCTGAAGTTGCCCTTGTTATTCTTTGAACCTTTTCTCTTATACACAGG TTTTATATCGGCAAGTTTCAATTCTTTTGGAAAAGAGTTTGACTCGAAAG ACGCATTTATTTCTGAGCATAAAAACTCGGAAAATATATCACAATTATCC TTTATGATCTTCACTGGAATATTTGAGCTTGGCTGTGATTTTCCTTGAAC TAAGTCCTTAATGATTTTCCCTACTTCCTCTTTCGTTGTTGGTATAAAAG AAAATTTATTTGGATACTCAGTTTTCTTGATTTCAGTGTTGTCTATATTT CTGAATACAAATTTCAGTATGATTATTTGTTTCGTCAAATGCAACAGAGG GAGGCTCAGTCAAGTCTAGTTTTGATATTATTTCGCCATAGTATTCATTG AATATTTGAGCTATCTGTTTCTCGTCATTTATGATCTTTTCATTCTCTAC TAAAATATAACTCTTATTGTTTGAACCTTTATTTGAAAACAATGGTTGTA CAGTTTTCCAAAACTTTTTGTTGGAATCTTTAAGGTTGGCAAAGTAGTCT TTCTTAGTCCTCCTCAATAGTGATAAGCAAAAAAAATTTTGTCTGTTGTA TTTTATTTTGTTTTCTTGTGTTTTATTCTTATAGTAAAGGTTCTTGAGTT TGGATCTTACCATGATGGCTTTTCTCATATCTCTATTAATAAAAGGCATA TTATTACCTCTAACCGTTTTATATTTAAAAGGAGCTTGTTTGTCTAGTTC TTCTATGATATATTTTATTTTTGATTCAAAATCACTGTTATCACTCCTAG AACCAGAATGTTGTTATAATCGATATCTATCGCATCTATGCTAATTTGCA GCTTTTCTAGGTGCTCGTTGATGTTATTTAAATGTGGTTTATAGGAACAA CATATCAGCCATTTTTTGTTGATGGCTTTCCATACCATCTGGTACAGCAA TAAAACTTCGACACAGCCTTCTTAGGATGTCAGAGTCACACGAAACTTTC CATACTCGTAAAGTAATTTGAACAATTCCTGAAATTTTAAAAATTGGTTT TTATTCAGATATAGTATTTTTTTTAAATAAGAAAAAAGGCTTTATTTTAT GTCCTTCACATCATTGCTTTAGCCAACGAAGAAAGAGAGGAGCGTGAAGC ATTGAATTCATCCACCAGATCTTTAGTCACCACTAACAACGCCAACATCT CCAAGAAACAAGCCTGGGGAGGAACATATAAACTGGAAAGAGGATCTGCC GTTCACAATCTAGCCGACGTTGTCGANGAAACAAGCCTGGGGAGGAACAT ATAAACTGGAAAGAGGATCTGCCGTTCATAATCTAGCCGACGTTGTCGAT GATCAACAACAAACTCGTAAACACTCAGCAAAATCTACATCCTCGGTCAA ATCACAGAAATCTTCGGTAGCTTCTGAGAAATCTTCGGTTTCCAGCGAGA AACCTGAGAAACAAACTCGCCAAGCATCAGCCAAACCACCTCAACCACCA GGATCAGAACGAAACTCAATCATCAAATCGTCCTCGGCAGCCGCCAGAGC TGCAGTAGGACAATTGAAGTCCCAAACATCAGATTCTCTTCAAGATTCAA TGGAGCCTTCAAGCATCAGTACCCTTGTATCACGTGATCAGTCGGATATC ATTCCATACCTTGGAGGTCCTGACGTCAACGTTCTAGATCATCTTTACCA TCCATCAGACCTTACCGTAAGCCCCATAGCTGAGAATCGACTTTTCGATA AGTTTCCAACGCTCAAATGGGACCAAAATGTTATCAATACATCTATATAC ACTTCTGAGCAATTGGCGATTATGAGTTTGGATGATATTCGATNATGTTA TCAGTACATCTGTATACACTTCTGAGCAATTGGCGATTATGAGTTTGGAT GATATTCGATCACACCTTAAAGATCTTACTGGTGTGTTTTCGGTAAGTTG CTGTGTTACGTGCTGAGGGATGAGGTCTTTGCAAATATATCTGGAACCTA AAGTCTTTTCGCAGTAAAAATTTACACTCTTTTTACTACCACATTCAAGG GAGTTGGTCTAATTACGTTGACATGGCTTCCTTATAATAACAAAAAAGTT GCCACGTTTTAAAGTGAATAAATCACCATCCTCAAAGTCAGGATTTAGGA TTTTTTTAGGGGATTCTTTATCTTTGCTTTGAATGATGTCATTCAAATTA CCCAAACTGTAATGCTTGATCAAATCTCCTCGTCAGAAGCGTATATTATA TTATATTTACTCCGACAACGTTAGTGTCACAAATGGGCTATTCTAGAAAT GGACTGTACGCTACCCCCTATGTTGAGGAGGAGTGACGTCCAGGGTGGTC TGAAAAATAAAAAATCCAGGGTGGTCCAAAGAAATGGGAGAAAAAATCCA AGGGGGTCCTAAAAATTCGAAAAAAAATCCAGGAAGTCACCGTTTTAAAA AAAGATCTCCTCAACATAGGGGGTACAATTTTTTTCTGGAATTGCCCAAT GTAAGTTAGAGTGGCACATGATGCCCATCCATCTTTAAGTTGTTTAAAAG GATACGAATAAGACCATATTTTCAAAAGTAACATGAAATGTTTTTATTGT TTCTTGCTTACCTCCAGGCGCCGATGAATCAATCCAACGAGAAAGTTCGT CTCCGGCAAAAGATGAACATTGTTGCTTATCTTATCACAGCAGTTCGAGT GGAAGAAGTTGCCAACAGTTTTTTAAAAGATGCCTTGGTCAAATGTTTCC TCAATGATTTGAAAGTGGCATCAAATCAAGATCTGAAAATGAGAATAGGT AGGTATTAAACCTTCAGTTTTTTTCCTTATTACTAGAATTTTAAATTTCA AACATCATTTGGTGATTATTTTGTATCTCGTACGTTAGCTTCTTGAAAGC ATTTCATTGAATACGTGGGGAATGTCCCTAGGATGTACTTTAAGGGAACT AATTTTCGTGGTCAGAAAAAAAAATCGAAAAAATCTATTTCCTGGTAATT AAGTTTTGCCCTATTTTGGAGACGTTTCTTTCATTTTAAAATTTTTGGAT GAATGTTCAGTTTTGTTATTCGCGGGTTCTAATTTTCGCTTTTCGATTCT TCAGCTCGTTTACTGAGCGTCGTTGCCAGCAATGCCACTTCAATCGATCC ACAATTCAAGATGGGGGATGTGTTCACAGTGGTCAGTAATCAATTGAAAC AGAATTTTAGGAACACGCGTTTGAGACACGCTTTCTTACCGGTGATTGGA GAATTTCTGTTTTACGCAGCAACTCAAGAAGAAAATGAAGCTCGATTAAT ATCGTCATGGGAACCGCCAGGTATATGTGGATAATTTGTTATTAGAGTCT CTCCCATCAACCGCTAAAAAGAAACTCCAAAACTCCATTATGGGTTTGAA AAGTCCTGAAGGGTTTTTTAACGGAAGGCCAGTGAAATGCTCTTTTCAGA AGGATAGGGCTAGGACAATACTGCCAACGAACCTGTTGAACTGGAAAATG TAGTATCTTAAGATTTTTCCATAATGAAACACCCGAAAATCCCTATTAGG ATGTCCTATGACGATGCGTTAAGAGGGTCAATTCCGGTTTATTTTTGGGT TTGTCTCTCAGAAAGATTGTACTGCATTTTTTACATATAAAAAGAAACTT TCACTTAATTTCTTGTCAACTTTCATTTCACCAGGAGCTGTTTTCACCAT CATCACACGTTGTTTGCACCTTCTTGATGGCGAGGAAGTCACTCGTCTGA TGGCTGCAAAGATCATCGAAAATATCACCTCCACTACTGGCAGATATTGT AAAAAATTGGTTAACAATGACGTCGGATTGGTAAGTCTGCGATGTACCGG GTGCACCAAAAAAAAGTATACAGGTTTTTCAAGATATTGTGAGCTAGCGG TTAAAGAATTTTCGTTGATTCTTTTCTTATTCTGTGAAGGAAAGGTTAAC TTATATTTTGGTATATAAAACTTTAAAATCGGTACATTCAATCAAAAGTT ATATTAAAAAAAGTGAAGATTTTGACCTACCAAAAATGACAAAATTCATT AAAAACAGGTAATCAAAATCTGAATGAAGAATCACCACTATTATCAAAGG TAATTTGATCAAACAGAGATTTTTAACATTGTTTTGGGGGAAATAATGTT TCTATGTTTTTCGCAATCCTAAAAACACCAATTCGTTTAAAAACGATGCA AAAAGTCGCAAAAAAACTGAACAAATGGCATTAAAGTATATCGATATGGT GGTCTTTTGATGGATTTCTTAAATTCTTGGTGGTTTCTTTGTGTTTTTAG CCATTTAACCTGATTTAACCAGAATCTTCGAACTTTTGATTTTAATTTTT TCTTTCTGAGGAAATTTTGTGTCTTACAGACCTTAAATCAGCCATTTCAT AATTATGAATTAAAAAATGTTATCATTTTAGGGCTTTTTGACTGTTTAAG TGGTAACTAACAAAGAGGAAATTTTGCTAACTGTTTTAAACAAATTTTGT CATTTTTGGTAGGTCAAAATTTTCACTTTTTTTAGCATAACTTTTGATTG AATGTACCGATTTTAAAGTTTAAATAACAAAATCTAAGTTAACCTTTCCT TCATAGAATAAAAAAAGAATCAACGAAAAATCTTTAACCGCTAGCTTACA ATATCTTGACAAACCTGTATACTTTTTTCTGTTTCACCCGGTATATCTAC TAAACGTACCGACATAGAAAACCTTTGCTGTAAATCTCTGAAAAAAAGTT TACTTTTTATTTTGAATCTGTTCTTCTTGGCTTCAAAGAGTAAATTGTTT TTAAGGATATTTTGGAGATTGAGCTTTTCCAGAAAAATATTTTACCCCCA CTGTCGAGGATATTGATTTTTCGAAGTATCGAACCCCTGGGATATCCTAC TTTATTAGTAAAGACGATATCCGCTCCCTTGTATATTTAACCCCCTCGAT ATCCACTTTTGAACAAAAATCGTTAACCCCCTGGATACCTTCAACAGGGG GACACGGACTATTTCTGGAAAAGCCCAATGTTTATGAGATACGTACACCA ATGGTTTTTAGATTGATTCTAACTAGAGTTGAAAACTTTTGTGGGTCTAT TAAAAGCCGGCAACAGTCTAACGGTGTTTTCAAGATCCAACCAGTGATAA AATGGGAACCCAAAATGTGCTGAATATAGAGTTTTCTGAAGTTTCTTCAA AACTACAGGGTGATTTTATTCTTTTGTTCTGGAATAGCCCAGTCAACTAT TGCCGACCTCCGAGAAAAGAAAAACTGTCTCTCCTTTACATTTCAGGGAT TATGGAATCTCTACACTCACTCATCAATGGATAACGTCAAGGAAACAGCT GCGTCAGCACTTTGTCGTCTTTGCATGCACTCCACCGTTGTTATTCAACA CGTCTCCGACCGCGCGGGCTTTGATCAGTTCGTATCGGGTGCCACTTTGG GTTCCTTGAAAACTCAACAATCGTTTGTTACCATACTGGTATCCCTGCTG TCAAGTGCGAATCATTTGAAAAGGATTTTGGGTGATCGCCAACTGTTAAC GAAACTAGTACGAAATCTCGAAGGTAAACTACAGTACTTAGCACAATGGA CTCTCGCTATTTCGAACTTGTAAATGATCGAATCTTTCTATAATTCAAAT TAATTCTCAACTCCCGTCAACGCGACAAATACTATACAATGCGAACAATT TAGACTACCCGTCCGAGCTCGAATTAAAGAGTAAACCACAGATTTCTATA AAGCCCGAAGAGGTAGATATCGCAAAAATACTACTGCTATTGTTTTTAAA AACCCGCGAGGCTTCTTATTGGTCGAGCGCTGAAATTCTATTGTAATGTC ACGTGACCTAGGTAAGATTTCCTACCTAACCTCGGCACACTTTTCAGCCA AAGCACGCCATCTAGCCCTAGCCCTTCGGGCTTTATAAATCTATGGAGTA AACTGTAATTTTGATAGGATCAGCCTTAGAGTCAACCTTATTGGTAAAAC AATCCTCGGTGAAAAGTTATAAAACCTTTAAATGTTTTGAAGCAAATTTT GAATTTGTGTACTAGAGTATTTTTGCACCTTGCTATTCTTTTCACCAGTA GCGAGTTTTGTTACTCATTCAAAGTCCTTTTATTTTCATCCTCAGGGCAT TCACTGATTCTCAAAGGAAAAATCTACCTCCTACTTGCTGAAATGTGTAT GCGATCCCACCCCACTCTTTTGACGTGTTGTCAACAGAAATTAATGATTT ATGTTGAAAGAGACAGTAAACGTGCTTTGAACAGCTCTGGGAGAGACAAT AGTGGACTGACAGAGTATCTACATCAATGTTTGGCTATCGTGGTCAGTAA TGTCTTGAAAATCGTGCCAAGAATTCAAGAAGGTAACTACGGAATGGAAA ATAATACACCCTTCTGGAATTTTATCAAATTCTCGTAGGCCTTGTTTTTT AAACACTGTTGACAAGATATCATTTAAGATAATTAGCTATTCCGGAAAAA ATTATTCTAGGATNGCTCTGTTGACAAGATATTATTTAAGATAATGAGCT ATTCCGGAAAAATTATTCTAGGATGCTCCCTTAGGAAGAAAAGTGTTCTC AACCATTAGTTGTCCCTCGAAACCTTCAATGATTTTATGTATTTCGAGAG TGTGCTTGTTAACACTTACACTCCAACTCTTGTCTCCTGAAAATACCGGG GTCTGAATGATCAAGGAATAGGAAAATATTTGAAGGCTGATAAACAGGTG TTGTTCTATAATAAGCATGTTACCTAGATGATTAAACACTTTAATCATGG GATCTTTTCATATTAAATGCCTCTGATGTCTGCATCTGAATTTTTGTCCA GATGTCGCACAGAACATCAATTCAACATCTAACGTTAGATGAATATCAAA AGATTTCCATTTGAAAAATGAATTTTTTTGTCCTATGTTTTTGTCAATGA CAATAATATATACTGATACATTTCTTTTTTCAGACATCATTCACATTTTG GACACCATCTCAGGCAGACATCATCCNTGAATGATCAAGGAATAGGAAAA TATTTGAAGGCTGATAAACAGGTCTTGTTCTATAATAAGCATGTTACCTA GATGATTAAACACTTTAATCATGGGATCTTTTCATATTAAATGCCTCTGA TGTCTGCATCTGAATTTTTGTCCAGATGTCGCACAGAACATCAATTCAAC ATCTAACGTTAGATGAATATCAAAAGATTTCCATTTGAAAAATGAATTTT TTTGTCCTATGTTTTTGTCAATGACAATAATATATACTGATACATTTCTT TTTTCAGACATCATTCACATTTTGGACACCATCTCAGGTAGACATCATCC AAATCCTGCACAAGTCAAACAGTTGAAGTCTTTGTTACCACTTTTTGACA TTTTCATGCATCTAATCACCAGTTCTGTATTTCGGAAAAGAATGGGAGAT AATTTCATCGCCTCCATTGGAATCTTCATGAAAGTAAGTCAGGGTTCACC TTTCCGATTTCCGGTTTCATATTTCTGATTCGGGTAACATGTTTCCTATT TGGGTTTCATACCTCCGATTCGCGTTTGGGGATATATCTTCGGATTTCAA CCCACTAGTAAAAAAGCGCTGAAATTTCTTGGCCCTGTAAAGAACATTGT GAAAAGGCCACCGTGAAAATAAGGAAAATTCCTTTTATAAAATGGCGTCC AATTATTTTATCATGATTCGATAGCAGGATTTCATATACGTTGAAGTAAG TATATTTTACAGTTGATAAAGCTTTCATCTTTCTCTAATAAGGGTTTTTC CTAGGTTACATCCCCAACTTGGTAAATAATATTTTACCAGTGTTTGTTTC AATTATTGTTTTTCACACTGGCTCTTCTTCAACTATGATTCCTAAAAGGG ATAATCAGATGGTTTTAAATATTTGGCTTGTAAAAACTATTTGTGGTTCT AAATGAAACCTCCGAGATATCACAATTTTTTTAAATTTCTCAACTTTGGA GAAAAGTTGCGCAAAAATATTTTGAGGTTTTGTTCAGGACAACACAAGGA ATCCACATGCCAAATATCTCGCACCATCTGATCATCCCTCAACCTCGTCC CGTGTATCCCAGGCTTTATTTACGTTACTTATGGACGCCAGAGAATATCT AGCGCTATCAGTAAGCATCAAAAAGCTGATAATACGCAGGGGGGGGTGAG GTTGATCATCCCTCTGATCTTCTCACTTTCAGCGAGTGCAAAAGATTCAT ACAGGTGAAATCAATTTATCCAACCCATCCGTTCGAAACCTTGGTGAATC TCTGACAAACACAATGTTCTCAATGGTTGAAGCCATCGCACAACATCCTC ACATGTTGTTACATGGACATCGAGTCTTCATCAACGAGGTAACCTTTCTT TTTCTTCGTTGAAACGCCAAACCAATCCATGCTGTTAGAGTATTTATACA GAAATACTCTTGATTATGCAACTAATGGCAAATTAAACGCTAATTGAAAA TGCTGTTTGAATTTTTAAAAAATACTTGCAAAACTGGGGTGTTAACAATG TCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNGGGGGGGGGGGGGGGTACCTTTTTTAA CCTCCACGAGTCCCAGGTTGGGTCGCAAAAACACCAAAATAGAAAAATCA GTCCCTCGTGAGTGCTTTTTGGAAAATTTGGGGAAAAAGTAGAAAATTTG AGAACATTTTGGAATTTTAGTCCCACGTAAGGTCCATTTTCCGAACCTCG GCGGAGCACCCCCGTCGGTCGGCAAGGGTAGTACCCTCCCCCCGGAAATA CACACGCTTTTTGACCATGATGTTAAGAGAAGTTTTAACGGACGTCAAAT GGATATTACGGACCTCATATGAACGTCTTTTTAACATTCTACGTGGGCTA TAATGTAATAATCACATATATTCTCATTCTCCAATTTTTTTTCACGTCCA GGTGCTTCCAGAACTTTCAGAGTTCTTTGACGAAAGTGATGGAAATATTA AAATATTATGCTTGAAACTGTTCACCGAAGTCTCAGCTTTTTATCTGGAA TCTGAAGAAAACGAAGGACTTGGCACCTCAGCTGATCAAAGAACCCTGTC CAAAATCAATTTGCTCAAGGTATGAATATTTTTTCTGTTATTTTATTGAT GCGTATTTTAGGTATTCTGTATTTGTATTTTTGTTTTCATACCACAACAG CTTAATTTAGGCATACAAACATTTGCGAATTAAAACTTTTACAAGTTTTG GCCTTTTTTCTTTTAATTTGCGAAAGTTTATGTCCTAAATCTCGCAATTT TTCGGCCTCACGAAAATCTGTACATCTCATTGTGGTATTACTGTAATGTA TCTAAACGCCAAATGGCGAACGCTTTATAAATTTAAATGAAATAAGCTTA CAGGCTGTACACAGTAAAATTCCCTTTCTATTTGGTAGATTAAAACCAAT AAGACCACGTATAGTATAAGAAATTTCAAATCGCTGCTGCTTGACGATTC AATTTCCATTCTATTCCTTCGTTTAGGTTATCAATAAGGGTTTCATACCG CGATTCGGAAATCTGCTTCAAGACCAGATTCCTTTTCCATCGTACAGTCT CAAACTCATGCGCGCATGCGTTGAAAAGTCAAACGACATGGCTGAAACGT TGCTTCAAGATACGGCGGTCTTATCCATGCTGTTTAGTATCTTGAAGGGC AATCGAACCGAGATTTACGATTCTGTTTTACAAAGCACTGTGGGTATTTT TAGTAATTTGTTACCAAGTAAAGAGTTGAAGTTGGCTTTACTATGCGAGC AAGACTTTCTAGGGGATGTGGCGTCTTTGGTTGAAACGGCTAACTCGTAT CTTGGGAACCACTCCTATGAAATGTCGCATTTGCTTTTGCAGTTGTTGGA TATTCTAAACCACATTTTAAAGAAAGTCGAGGAGCCTGTCAAAAGAGTTT TATCTTCAAAGGGAGCAAGAAAGCCTGGCTCCCCGTCTGCTAACGACACT GAACAACTTTTACAAGAGACTAAACATTTATCCAAGCTTGATGGTATATT AATGAACCTGTCGATTGCTAATGATTCTGATATACAAGAATGGGCTTGTC GTTGTTTGTATCTATCAGCTGAACTATACGGTGGTAGCCAGGACGAATGC AATCTCACCATTGACCATATTGAGTCCCTTGTGTCGGCCGTCAAATCCTC AGGCGTCGTCTCTAGGAAACGCCAAAAATTGTTAATGCGTATATTGAAAC GTTTTCTTCAGACCAACGAGTTTTGTCAACAATATGCGTTGGAATCACCA GCGTTGAAAGACCTTTTTGAAGGATTGTTATCATCCACTAAAGAAGGCAC TGACCAGGATTCGAAATCTGTACGTCAAATGGCAACAGATTTACTTGTAA AATGGACTAAACATTGACGGTGTACTGAATATACTGAAGTCTGTCCTAGA TAATGAATGTACTCTTTTTCACTTCTATGCAAATTTTCAAGGGAATTTAC GGTGAAAACATCGACATGGTTTTCATACAACAGCCAAATGAAATGCACAC TTATATTGTTAACAGAGTTCAGAACTTCAAAGTACTTGTCATTACTGTAT TGTTTTTTAATTGAAATTTCTAGACACAGGAAAATTT
Gene-mRNA-Prot
This transcript is a part of the following gene feature(s):
Feature NameUnique NameSpeciesType
XLOC_038298XLOC_038298Clytia hemisphaericagene
The following exon feature(s) are a part of this transcript:
Feature NameUnique NameSpeciesType
TCONS_00061010-exon-scaffold_352-1575043694:15529..16372TCONS_00061010-exon-scaffold_352-1575043694:15529..16372Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1575043694:14169..14402TCONS_00061010-exon-scaffold_352-1575043694:14169..14402Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1575043694:13471..13578TCONS_00061010-exon-scaffold_352-1575043694:13471..13578Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1575043694:10648..10750TCONS_00061010-exon-scaffold_352-1575043694:10648..10750Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1575043694:9931..10574TCONS_00061010-exon-scaffold_352-1575043694:9931..10574Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1575043694:9075..9255TCONS_00061010-exon-scaffold_352-1575043694:9075..9255Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1575043694:8553..8768TCONS_00061010-exon-scaffold_352-1575043694:8553..8768Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1575043694:8043..8188TCONS_00061010-exon-scaffold_352-1575043694:8043..8188Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1575043694:6300..6576TCONS_00061010-exon-scaffold_352-1575043694:6300..6576Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1575043694:5491..5727TCONS_00061010-exon-scaffold_352-1575043694:5491..5727Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1575043694:4390..4565TCONS_00061010-exon-scaffold_352-1575043694:4390..4565Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1575043694:3485..3640TCONS_00061010-exon-scaffold_352-1575043694:3485..3640Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1575043694:1604..1771TCONS_00061010-exon-scaffold_352-1575043694:1604..1771Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1575043694:86..1196TCONS_00061010-exon-scaffold_352-1575043694:86..1196Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1510915933:15529..16372TCONS_00061010-exon-scaffold_352-1510915933:15529..16372Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1510915933:14169..14402TCONS_00061010-exon-scaffold_352-1510915933:14169..14402Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1510915933:13471..13578TCONS_00061010-exon-scaffold_352-1510915933:13471..13578Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1510915933:10648..10750TCONS_00061010-exon-scaffold_352-1510915933:10648..10750Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1510915933:9931..10574TCONS_00061010-exon-scaffold_352-1510915933:9931..10574Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1510915933:9075..9255TCONS_00061010-exon-scaffold_352-1510915933:9075..9255Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1510915933:8553..8768TCONS_00061010-exon-scaffold_352-1510915933:8553..8768Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1510915933:8043..8188TCONS_00061010-exon-scaffold_352-1510915933:8043..8188Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1510915933:6300..6576TCONS_00061010-exon-scaffold_352-1510915933:6300..6576Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1510915933:5491..5727TCONS_00061010-exon-scaffold_352-1510915933:5491..5727Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1510915933:4390..4565TCONS_00061010-exon-scaffold_352-1510915933:4390..4565Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1510915933:3485..3640TCONS_00061010-exon-scaffold_352-1510915933:3485..3640Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1510915933:1604..1771TCONS_00061010-exon-scaffold_352-1510915933:1604..1771Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1510915933:86..1196TCONS_00061010-exon-scaffold_352-1510915933:86..1196Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1491911889:15529..16372TCONS_00061010-exon-scaffold_352-1491911889:15529..16372Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1491911889:14169..14402TCONS_00061010-exon-scaffold_352-1491911889:14169..14402Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1491911889:13471..13578TCONS_00061010-exon-scaffold_352-1491911889:13471..13578Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1491911889:10648..10750TCONS_00061010-exon-scaffold_352-1491911889:10648..10750Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1491911889:9931..10574TCONS_00061010-exon-scaffold_352-1491911889:9931..10574Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1491911889:9075..9255TCONS_00061010-exon-scaffold_352-1491911889:9075..9255Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1491911889:8553..8768TCONS_00061010-exon-scaffold_352-1491911889:8553..8768Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1491911889:8043..8188TCONS_00061010-exon-scaffold_352-1491911889:8043..8188Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1491911889:6300..6576TCONS_00061010-exon-scaffold_352-1491911889:6300..6576Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1491911889:5491..5727TCONS_00061010-exon-scaffold_352-1491911889:5491..5727Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1491911889:4390..4565TCONS_00061010-exon-scaffold_352-1491911889:4390..4565Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1491911889:3485..3640TCONS_00061010-exon-scaffold_352-1491911889:3485..3640Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1491911889:1604..1771TCONS_00061010-exon-scaffold_352-1491911889:1604..1771Clytia hemisphaericaexon
TCONS_00061010-exon-scaffold_352-1491911889:86..1196TCONS_00061010-exon-scaffold_352-1491911889:86..1196Clytia hemisphaericaexon
Position
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
scaffold_352supercontigscaffold_352:86..16372 -
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
2.36265 2.03888 0.774333 0.523602 7.9734 5.95943 4.17131 4.28539 2.8206 3.61999 3.02599 2.08988 2.11745 2.15616 1.75225 2.5541 3.30699 3.11412 1.09294 1.72527 2.08896 2.4288 2.67537 2.96824 5.34481 5.00559 1.33613 0.991365 2.82814 2.68514
Blast
BLAST of TCONS_00061010 vs. Swiss-Prot (Human)
Match: ULK4 (Serine/threonine-protein kinase ULK4 OS=Homo sapiens GN=ULK4 PE=1 SV=2)

HSP 1 Score: 352.058 bits (902), Expect = 2.542e-100
Identity = 228/765 (29.80%), Postives = 415/765 (54.25%), Query Frame = 2
Query: 1970 RQKMNIVAYLITAVRVEEVANSFLKDALVKCFLNDLKVASNQDLKMRIARLLSVVASNATSIDPQFKMGDVFTVVSNQLKQNFRNTRLRHAFLPVIGEFLFYAATQEENEARLISSWEPPGAVFTIITRCLHLLDGEE-VTRLMAAKIIENITSTTGRYCKKLVNNDVGLGLWNLYTHSSMDNVKETAASALCRLCMHSTVVIQHVSDRAGFDQFVSGATLGSLKTQQSFVTILVSLLSSANHLKRILGDRQLLTKLVRNLEGHSLILKGKIYLLLAEMCMRSHPTLLTCCQQKLMIYVERDSKRALNSSGRDNSGLTEYLHQCLAIVVSNVLKIVPRIQEDIIHILDTISGRHHPNPAQVKQLKSLLPLFDIFMHLITSSVFRKR-MGDNFIASIGIFMKRVQKIHTGEINLSNPSVRNLGESLTNTMFSMVEAIAQHPHMLLHGHRVFINEVLPELSEFFDESDGNIKILCLKLFTEVSAFYLESEENEGL-GTSADQRTLSKINLLKVINKGFIPRFGNLLQDQIPFPSYSLKLMRACVEKSNDMAETLLQDTAVLSMLFSILKGNRTEIYDSVLQSTVGIFSNXXXXXXXXXXXXCEQDFLGDVASLV-ETANSYL---GNHSYEMSXXXXXXXXXXXXXXKKVEEPVKRVLSSKGARKPGS---PSANDTEQLLQETKHLSKLDGILMNLSIANDSDIQEWACRCLYLSAELYGGSQDECNLTIDHIESLVSAVKSSGVVSRKRQKLLMRILKRFLQTNE 4234
            R K+N++ YL      +EVA   L   L +  +  L++A N D++ ++A ++ ++AS+   +     + +   +++  +++NFRN++L+   LP +GE ++  ATQEE +      W  P A +T++ RCL   +GEE V   MAAKIIEN+ +T     +  +  ++G  LW L+ HS+ D+++ TA SALCR+  HS    Q+V ++ G +  ++       K QQ  +T+  ++LS   HL+R++ ++  ++ ++R L+  S  ++ K +L+L  + + +   LL  CQ +L++Y+ERDS++   + G++     EYL +CL +++ ++++ +PRI  DI++ L  +SGR HP+  QVKQLK  LPL  + +HL+TS VFR + + + F+ S G  +  ++ + +GE N+         E       S  EAI Q+P +L       ++ +LP L       +   ++  L+L +E ++  +  E  +G    S D    S  NLL +I    +P++ ++L +  P P+Y+LKL+ A  E  N     L++++ ++ ++F +   ++  I  + +QS + + SNL+  K+  + LL EQ  +  + +L+ ETA   L     ++ EM+  LL  L  + H +      + R+  +  A+K GS   P A   E LL   + L+ L  +L+ L    D +I + + +CL +  +LYGG   + +L+ +++E     + S      K QKLL+RIL+R + +NE
Sbjct:  483 RAKLNLLCYLCVVAGHQEVATRLLHSPLFQLLIQHLRIAPNWDIRAKVAHVIGLLASHTAELQENTPVVEAIVLLTELIRENFRNSKLKQCLLPTLGELIYLVATQEEKKKNPRECWAVPLAAYTVLMRCLR--EGEERVVNHMAAKIIENVCTTFSAQSQGFITGEIGPILWYLFRHSTADSLRITAVSALCRITRHSPTAFQNVIEKVGLNSVINSLASAICKVQQYMLTLFAAMLSCGIHLQRLIQEKGFVSTIIRLLDSPSTCIRAKAFLVLLYILIYNREMLLLSCQARLVMYIERDSRK--TTPGKEQQSGNEYLSKCLDLLICHIVQELPRILGDILNSLANVSGRKHPSTVQVKQLKLCLPLMPVVLHLVTSQVFRPQVVTEEFLFSYGTILSHIKSVDSGETNIDGAIGLTASEEFIKITLSAFEAIIQYPILLKDYRSTVVDYILPPLVSLVQSQNVEWRLFSLRLLSETTSLLVNQEFGDGKEKASVD----SDSNLLALIRDVLLPQYEHILLEPDPVPAYALKLLVAMTEH-NPTFTRLVEESKLIPLIFEVTLEHQESILGNTMQSVIALLSNLVACKDSNMELLYEQGLVSHICNLLTETATLCLDVDNKNNNEMAAPLLFSLLDILHSMLTYTSGIVRL--ALQAQKSGSGEDPQA--AEDLLLLNRPLTDLISLLIPLLPNEDPEIFDVSSKCLSILVQLYGGENPD-SLSPENVEIFAHLLTSKE--DPKEQKLLLRILRRMITSNE 1231          

HSP 2 Score: 35.039 bits (79), Expect = 2.542e-100
Identity = 17/57 (29.82%), Postives = 30/57 (52.63%), Query Frame = 1
Query: 1684 LYHPSDLTVSPIAENRLFDKFPTLKWDQNVINTSIYTSEQLAIMSLDDIRXCYQYIC 1854
            +Y  SDL V+PI +N    K P +K+D  +++   Y+ ++L  +   D     Q +C
Sbjct:  413 IYTDSDLVVTPIIDNPKIMKQPPVKFDAKILHLPTYSVDKLLFLKDQDWNDFLQQVC 469          

HSP 3 Score: 250.751 bits (639), Expect = 2.306e-67
Identity = 125/286 (43.71%), Postives = 174/286 (60.84%), Query Frame = 1
Query:  181 MENFVLYDEIGTGDKRMVYKGRRKGSVSYVAIHCVEKEYRNKIQNHVRICYELDHVNIVQFYEWYETTNHLWLVVELCAGGSLQNILELDSYLPEKEIRNFAKDVVKGLAYLHSQDIIYGDLCSANILLDSSGTLKFSNFCSAK---------FSDASEENEQEDD-----------VTQHQSYFKSPEELAGGEQSKESDLWALGCVLYEMFTGTEPFRGSTRAQIEQKIKHENIPYPMQGQEGTFIKASEDLYMLIQGLLQKDPSQRIDLLELCMHPFWQGELA 978
            MENF+LY+EIG G K +VYKGRRKG++++VAI C +K  R +I N VR+  E+ H NIV F+EWYET+NHLWLVVELC GGSL+ ++  D  LPE  +R F  D++ GL +LH   I++ D+    ILL+  GTLKFSNFC AK         F+  + E    D+             +    + +PE + G + S  SDLW+LGC+LYEMF+G  PF   + +++ +KI  E+ P P   ++ +  KAS D   L+ GLLQ+DP +R+    L  H FW+   A
Sbjct:    1 MENFILYEEIGRGSKTVVYKGRRKGTINFVAILCTDKCKRPEITNWVRLTREIKHKNIVTFHEWYETSNHLWLVVELCTGGSLKTVIAQDENLPEDVVREFGIDLISGLHHLHKLGILFCDISPRKILLEGPGTLKFSNFCLAKVEGENLEEFFALVAAEEGGGDNGENVLKKSMKSRVKGSPVYTAPEVVRGADFSISSDLWSLGCLLYEMFSGKPPFFSESISELTEKILCED-PLPPIPKDSSRPKASSDFINLLDGLLQRDPQKRLTWTRLLQHSFWKKAFA 285          
The following BLAST results are available for this feature:
BLAST of TCONS_00061010 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
ULK42.542e-10029.80Serine/threonine-protein kinase ULK4 OS=Homo sapie... [more]
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