TCONS_00069155 (transcript) - C. hemisphaerica

Overview
NameTCONS_00069155
Unique NameTCONS_00069155
Typetranscript
OrganismClytia hemisphaerica (Jellyfish)
Sequence length1217

Sequence
The following sequences are available for this feature:

transcript sequence

>TCONS_00069155 ID=TCONS_00069155|Name=TCONS_00069155|organism=Clytia hemisphaerica|type=transcript|length=1217bp
TTTTTGTTCTGGGACGGAGCCTAGGCGAGGGAGGATACGGGCTAGTTAAG
CAAGCGTCTTACGTGAACTTTAACTGCCCTATTGATCCTCTCGCTCGACG
GCTCCGCTCCTCTGGACACAATGACCAAGTTGCTATCAAAGTCATGCCGA
CTTCACGTGGTATGGCACCCATAATAATGGAGCTTAACGCAATGAACTTG
TTGAAAGGTTGTCAGAATGTTGTCCAGATGCTGGATTTCTTTCAAGGAGA
AAATCATTGCTACCTAGTAATGGAGCTCTGCAAAGAAGACCTGATGACAA
CCTTAAACGAACGGATGCACACAAAGCCAAACATAAGAGAAATCTTCACA
CAAACTTTGAATGGCGTTCATCAATGCCATTTGAAGAGCATTGCTCACTG
tGATTTGAAATTAGAGAATGTTCTTATTGATCACGATGGAGCTGTAAAAA
TTACAGaCTTTGGTCTTGGAATGATTCCATCCTCACCCGGTAACGGTTGC
CAAAAATTTTGTGGTACACCAGAATACATGGCTCCTGAGGTCCTCCGTGG
ATACGTTGGCTTCGATAACACGCCATACGACCCCTTCAAAGCAGACATGT
GGAGCTTgggcGCCATTTTGTATGCAATGTTGACGGGAAAGTTTCTTCCC
ATTAATTGGTCGAAAGATTTATTCGTGTCTGACGAATTGCATGATCTGTT
AACCAAATTGTTGAACCACGACCCAGCGTCGAGACCATCTACGTCAGAAA
TTATCAACCATCCTTGGTTAACACCTTCTCCTTCAGCTATTGAAGCGaaa
tcCGCAAACAGTGTTAAGAAAGAACAGAAAGAAGTTGCTAAGACTGTATC
ACAATATCATCAAGTGAGCGTTAACAAAGCTTTGGATGAAAAGGCACAAA
AAATGAAGAGCCAAAAATCAGAAGAGCTCGCCTCGCAAGATGTGAGAGTA
CAAATAAACGAATACCGACTTCATACACTgttcatcattgacaataagaC
ATTCAAACAAGATCACGTGAATGTCATCAATGTCGCTTCCAATCCTAAAT
TCCCTAATGGACATCATTTTCAGCCTGCTGAATTATGGGACTATCCTAAC
GGTCACCATTTTCCTTGCATGGAATTCTGGGAATGAATtaagcaaaaata
atttattagtttttttcaattttgtaaatagtatacaatgatggtgttac
atcaaaccaaaatcaaa
Run BLAST on NCBI

protein sequence of TCONS_00069155-protein

>TCONS_00069155-protein ID=TCONS_00069155-protein|Name=TCONS_00069155-protein|organism=Clytia hemisphaerica|type=polypeptide|length=377bp
FVLGRSLGEGGYGLVKQASYVNFNCPIDPLARRLRSSGHNDQVAIKVMPT
SRGMAPIIMELNAMNLLKGCQNVVQMLDFFQGENHCYLVMELCKEDLMTT
LNERMHTKPNIREIFTQTLNGVHQCHLKSIAHCDLKLENVLIDHDGAVKI
TDFGLGMIPSSPGNGCQKFCGTPEYMAPEVLRGYVGFDNTPYDPFKADMW
SLGAILYAMLTGKFLPINWSKDLFVSDELHDLLTKLLNHDPASRPSTSEI
INHPWLTPSPSAIEAKSANSVKKEQKEVAKTVSQYHQVSVNKALDEKAQK
MKSQKSEELASQDVRVQINEYRLHTLFIIDNKTFKQDHVNVINVASNPKF
PNGHHFQPAELWDYPNGHHFPCMEFWE
Run BLAST on NCBI

transcript from alignment at scaffold_495:149571..157809+

Legend: exonfive_prime_UTRCDSthree_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
>TCONS_00069155 ID=TCONS_00069155|Name=TCONS_00069155|organism=Clytia hemisphaerica|type=transcript|length=8239bp|location=Sequence derived from alignment at scaffold_495:149571..157809+ (Clytia hemisphaerica)
TTTTTGTTCTGGGACGGAGCCTAGGCGAGGGAGGATACGGGCTAGTTAAG CAAGCGTCTTACGTGAACTTTAACTGCCCTATTGATCCTCTCGCTCGACG GCTCCGCTCCTCTGGACACAATGACCAAGTAAgttggttttctttttcat catggatatttttaacttgCCGGGAAAAATCATCCTTAAATATCTTtatg gtattcttaggttaggatcgaATTTTTATCCTGAATTTAACATGTAAATA CATACCATAAGCACTGTCGAGCCTTACTCGGGGATGGAAAGTTACCAGTA AAAAAGATCTTACAATATTATTATTGTGTCatgttgccaaattccatgac gCTGATATTCTTAGCGTATTCTTAATCTTTGGCCAATTTCattatgaata ttcttatagattaagttcttttaaaaagcgtgtactttattcttttactt tttctatataccttatcggccattTTTATGCCGGTCGTTTTTACGCCACA gctcattttatttttcacttttttatccGGCTCTAATTTAAGTATGATCC ccacgccggcccttattacaccAACAAAGGCCGGTGTAAAGAAAGACAAG TATGGTAAGCTTGGGTAAAACCTTTTGGGTTTATTCATATTGTTTGATTC ACAATATAAATTTCAGTTTTTGACAACGatataacccagctggcacacaa ggttgtttcaacgtttatctagcgttcacaacgtccatataacgttagat gaacgttaaacaacgttgtgtgccggctgggaaaTTAAAGTATCAAACAA CACGAGAATGAATTTTGCTTCCGAAGTGGGAATTCAGTGCATATATATTT TGCCTCGTTTGCTTTCGTGGTTTTTTCGAGAGTGACTACTAAGTAGTATT GACAAGACCCTGTTTCAAATGATTTCATTATATAcatgctttttataaga acaaactaaaaaagaacataaggtttcgatggtcgaaatgttaagaacaa gttaagaatatttgaaaacactctaagACAACcggtttcttagaaaaatg ggcaaatatgctcaaaaaatggtaaaaataagaacatttttaggcttaaa acttcaaaaaatttggatgttcttataaaaaacgtatatggTAACAACAT AGGTATGTGAGtcagtattttcaatttttgggcAATGTTGATGAACTCTT CAAGAATTTAGACAGATTTAAAGCGATTAATATTATATCAAACATATTGA AATTCCCCGGTTGAAGAAAGTGTTAATCAGGATTTCGGAACCTTTGGTTT TAAttaacacccctgtatcagtgacggggactttaaatttgacattcttt ttgtattttcatttctaACTGTAACTGACTGATAACGATATCCATAAGGT ATTAAATTGAAGGAGatttaaatttagtttttcgAGTAATTGGCTtattt tacgccggccctaatttagcGCCGGTCCTTATTACGCCAAGACCCTAAAA ATAACGCGAATAAGGGTCGGCGTAAAAaaggccgataaggtatgtaATTT ATATGTTGGACTTCTTTGTGGCGACAGGGGGGGGCAAAAAAATTCTCACA TATAAAGCGAGGAAGGCAAAAGtctaaaaaaaattaggttCTCTTTCATT ACCGGGACAATGACCGGGATGTTAACTTTTAATTACCCACTGGTAGGTTT AAATGAAAATATGTATCATGTGTATTATTTGTGTCTGGCTAATTCCTACG TGAAAGAGAATAAATCTTAtactaaaaaaattgacgtcagagtACAAAac tttatttgacgtcaaataaaaaaatttgtgagttgaaaaaaaagaaattc aatttttttttcattcttcgaAACCCACCTTTCAGGCCTAGACTTGAAGG ATTTGTATCTGCTCATTTTGAGAAGATAGTTGAAtaaatttgcataaatt ttataTATTGAAACGTTTGAATACTCGTTATGGTAGCTCATACCATAACA CACGAGTGTTTACAGCATGGTTTTGTTCTGGGACGGAGCCTAGGCGAGGG AGGATACGGGCAAGTTAAGCAAGCGTCTTACGTGAACTTTAACTGCCCTA TTGATCCTCTCGCTCGACGGCTCCGCTCCTTAGGACACAATGACCAAGTA AGTTTATGTTGAACTCTGAAGGTTTATGCGAAACTATTCGTGTTTTAAGC TAAATTACCTATGTTTCAAATCTGTTTGGCTTTGTTGTTAGACAGTgact tcaaaactttcaaacacatATTGGGGAAAGAAATTTGAACATTATTCCTT CCTTTTTTCATTGAAGGTTGCTATCAAAGTCATGCCGACTTCACGTGGTA TGGCACCCATAATAATGGAGCTTAACGCAATGAACTTGTTGAAAGGTTGT CAGAATGTTGTAAGTATCTTTTGTTTCAGGATTTACATAGCGTTAACGAT CTCTAATTcgacgctctattattcgatacgctcttttattcccttgaaaa ttgaattagagagtTTCAACCTTTCGTGACGGAATCACCCGGACAACTAC CGCCGCCCTCTGCCGATCTCCCTGGAGAGCTACCCCAGAATAGAAATATT ATTTCAGTACTTCCTAAGAGGTATACTGAAATCCCAGCAACTTAtagtga aaaattgaagaaacatattttttcatattttttattaaaagtcgcgctat caaataaataaattctcaaATGCAAAAATTATTGGACTTACCAAAAAAGA GGATTAGAACATCCCTGTGCCACAGATCCGGTGGGACCTCTACCCACTGG GAAATCAATCCAAAGTTTTGTCTCCGTTGGGagaaaataccctaaaattt cagcTCCTCTAGAAAGCTGACTTTGTTTtctagaatttctatcccattaT TGGGATTTTGATAGTGATTTTCATTCCcacttttggaaaaaagttccact gaggctgtgagacaggggtgtattagaTCATCGTTGTCACGCATCGACCT AGATATAAGACGATTCACACTTTTTATGTTCCTATAGGTCCAGATGCTGG ATTTCTTTCAAGGAGAAAATCATTGCTACCTAGTAATGGAGCTCTGCAAA GAAGACCTGATGACAACCTTAAACGAACGGATGCACACAAAGCCAAACAT AAGAGAAATCTTCACACAAACTTTGAATGGCGTTCATCAATGCCATTTGA AGAGCATTGCTCACTGGTAAGATCTTCTTTGGATAAAGtttaccccgggg ggggggcattaAGGCAAATtggtgacgggtatgtgcggcagTTAAGGGTA ATACTCTATAGAaatgctctaaaagagtttaaaatttgcaaaaatgcact gtaagggtatgaatttcaccgattttgattctaaaagccattttttcgCC ACACATATCGCCAGTTgataaacccactgccccccggGAGTTTACCATTG CATATTGGCAACCCGTTTAGTAAAATGTTGGGTGtcatttagaatcaatt ttacacccctgtctaaCAGCCCtggtggaaatttttttcttcgccAATCG ATATAAAACTTTCTATCAAAGATTCCAATTTGGATAAAACTTCTAGTGTT GTTTCACTAAAAAACCAGTTGGGACGGCCTTGGATTGCGATTCTTTTTAC ATTGAAATTCAAATGAGGATGAggtcaaagtcaatttcccaactgggacg aaattttggccaaattttttaATGCGGTTGGGgtcccaacgggtctgtga cacatgaCTTTAATATTAATGGTTAATACACAGCTGTCAATTGTGAGTAT ACAATGTGTAGTATCGGAAGTACCACGAATCTGACTGGTACAAATATACT TGATGTGGTAGTAGAACGAACCGGTAAAGAATGTTGACCTTGGGAATAga taaattttacaaattttacaaaaattcatgtttttttgtttcagtGATTT GAAATTAGAGAATGTTCTTATTGATCACGATGGAGCTGTAAAAATTACAG GTACGTTCTGTTCTCCATGGTTTTATTATAGAACTCCGTCATAATTAGGC ACTATGATAAGTCCCACTTATGAAGCgtttatgaatatttttttgataga GGTCTGAAACCTACTGGAGGCTCccagccccgggggggggggggactagg gNGAAGCgtttatgaatatttttttgatagaGGTCTGAAACCTACTGGAG GTTCCCAGcaggcacacgacgttgtttaaacgttaacctaacgttatatg gacgttgtgaatgttagataaacgttgaaacagcgTTGTGTGCCTGGGTA ATTAAAATACTTAGATAATaaacaaatcaaataaatttttcagaCAGGAA AAAACACCATACATTTACGAGATATTTCGCTCATTTCTTTGAGTATTATA TTGTCTAAAAGTAGAAAAATTAACAGATTAGTCaaataaatcaagaaaat caaaaaataacaaactagAAATTCACTATGCCCTCTTCCACAACAACATC ACTTAAATAAGTATAATATAAGTATAatcaaaaaatgtaatttttttttc tcatttcagaCTTTGGTCTTGGAATGATTCCATCCTCACCCGGTAACGGT TGCCAAAAATTTTGTGGTACACCAGAATACATGGCTCCTGAGGTCCTCCG TGGATACGTTGGCTTCGATAACACGCCATACGACCCCTTCAAAGCAGACA TGTGGAGCTTGTAAGCTAATGCTTTTTCTCTTTGATTTTAAACTCATCTT TTAACAGCTCTTCTATATCAACCTCTATTTTGTGATGTAGATCTGACCTG TTTGATGAGCCGATTTATTCCAAGTGGCGTTACTTTTCTCGGAAAACGAA AAtgagaagggttaaaaaaagattgaattgaaCAAAATTTAATAATTGCT TTTAATAGACGGTGTATAAGAATTCTTCTCCTTCATTATATTTTTCAGTT CCTCTATTTACCCTGCTTTTNAtgagaagggttaaaaaaagattgaattg aaCAAAATTTAATAATTGCTTTTAATAGACGGTGTATAAGAATTCTTCTC CTTCATTATATTTTTCAGTTCCTCTATTTACCCTGCTTTTGTGCGCTTTT CCGTGGCCACTATTCTATTGCAACTTGCTATTACATTtgctttttgattt tcattttcaggggcGCCATTTTGTATGCAATGTTGACGGGAAAGTTTCTT CCCATTAATTGGTCGAAAGATTTATTCGTGTCTGACGGTATGTTTACATG ACTAGTTCTTTTAAATGGATGTTATCTTTCAGTTTTGAATCCTTGGCCCT CTCTGTACATGTTTTGAGTGAATTAACTTTCTGTTTGGTAAATATTTGAG GCTAACGTAAGAATTTTCTGTTCTCGATTTTCTCAAATGATGATAAGTAc tttaaattgcttaaaaaaagcaGATTATGCTAGGAGACTTACTGGACGCA TAAGTCCATTCTTTTTAAGGAGACGAGAAATGGATAACCCCGGATTTAAG ACTATTAACACTTTTTCAGCCTGTAATGTTAGGTACATAATgtaaaaaaa cctaaaaaagtgTGTTTTTAGCCATTCTTCCTTGGATTTTCATCTTGGTT GTAGGTCTAAGATCTCCTATTCGTCATGGAGATCGAGAGGACTTTTATAT CCATTAGTTTGGGGGTGtgattcaatttcatttttattctttaGAATTGC ATGATCTGTTAACCAAATTGTTGAACCACGACCCAGCGTCGAGACCATCT ACGTCAGAAATTATCAACCATCCTTGGTTAACACCTTCTCCTTCAGCTAT TGAAGCGGTATGACAATTAACTTCTTAACAATAGCCTTTTCAACTTATGA CTTTGTATTCCCAGCTGGCAATCAACGTTGtgtcaacgtttatctaacgt tcacaacgtccatataacgttagattaacgttaaaacaacgttgtgtgtc agctgggttcaGTAAATTTTGGTCATCAACTTTAAGGGACCAGGTTTGAC TTTAAAGCAAAAGgtttagaaattgaaaatttttccctgGAACCAAAAGA AATATGTACCCCGAAGCGGCAAGCTCGCAATGTATGGATGGATTGAAATA GTCGGACTTCTGAAACCGTCAAAATTGAATTCGACGTACTTTTAATTGCA TATCTAGTCGGTGTATGATGTTCAAAAGTTATATCACATTATATTCACAT CATATTATACATTATATCACACAGTGCGAGCTTGCCATCGAAGCACTGCC TTTCCCAGGTCAAATTAGTCAAATTTTGTCCAAATGTCGTCTGTACTGTA AAACATAAGGgcaaagtgaaaaatttttaacaatgtacgccttttctttt cagaaatcCGCAAACAGTGTTAAGAAAGAACAGAAAGAAGTTGCTAAGGT AAAAGACTTTGATATTGCAATGCCTtcaatgataaaaaataatGCAAAAT ACACCGGAACACCGGGAGAAAACCTAACTTGTCGCCATAAAGAAATCCCC AAATATCGTTTATCTATTGTCTACCACGGATTTCTGAAagtttcacaaaa ttttttttatatgttttcacGGTTTTTCGTCATTTTTGTAGACTGTATCA CAATATCATCAAGTGAGCGTTAACAAAGCTTTGGATGAAAAGGTAAGAAA CATAATGTtcttttaacgttcatctaacgtttcatAAATGATTGTACGTT AGTTGGATGTTAAGtgaacgttgtttcgacgttcctttgaacgttgtttc gacgttcctTTGTCAACGTTCCCTTGTTACACTACCCGCTATTTTATGAA AACCAGTAAATATTGTTTGAAGCTTGGCTTTCTTATTCATTTACTTTAAT CATTTGTTGACTTAAAAAGTTCTCAAAACTAGCATTTTCTTGACCATTTT CAAATGTCTTTCCAAATTTGAGCCTTgtataaatgttcttataaaattat tctcGAAAAAGTGTGTATAAGTTAATTCTAAAGAATTAATCTTTGGAAGC CTTGCTTCCTTGAAGGAAACTTAGAAATGAAGCTGTAAATGTAAATCTGT TAACTTTAGGCACAAAAAATGAAGAGCCAAAAATCAGAAGAGCTCGCCTC GCAAGATGTGAGAGTACAAATAAACGAATACCGACTTCATACACTgttca tcattgacaataagaCATTCAAACAGTAAGTTtagagtttttatttttga tgataTGCAAAGTATTTCTAATAACGCAgaatttaaacaaaatatttctt gaaatttgTGCAAACGACAAAATTCACTCTTTCTTTTGTCTTAAATGCTA TTCAAGCAAATTATAATTCATCCACGATTTCACTGTTTAGCCCCTCAAAT CTGAGTCACGTGTATTTACACTCAAAATTAGCCAATACATACCGAATCCC AGAATTAAGGCTATTACTCCTGAacatttgatttaaaaaggcaTAAGCAG AATGCTTTAAAGAGTATAATATAACCGACCAGAAATGATGTCCAAACGCA ACTTTTACGTCATTTTTTTAGAGTTACGTTGGGTAATCGATAtcgttttt cgagagctttcgactGATATAAGCGGTTtcgactttgaaattttgtctaa atttaGGGTTTTGTCAGTGACGTCTATTTTTGGGTCCTGAAACATTTCCC TAGACCTTAGCGAAAAACCACCCAGGCGACAAACTATATAAATGCTTCAT TCTTTGAAATATACCAAGTTTGGTTTCGTCTCATAAAAGATATCACGGGC TCCTAAGGGTTTGCCCCCTACTAATacgccttttcgaccgtagtcgtaAG GTCAGGCGCGTACCACTTTTTATCCCACTAATCTCGATCCAATccatttt tgacacatttttctattgtctataggtgggaaaaaggactgggacggtat AGTGGGATAAAGTGGACAAAGAATATGCCTGTGCGATAATTGgcggctac agtcgaaaaggtgtaatAGGCAATGCGCTGTCAAAGTTTTTGCATACCTT TTAAAAAcctcttttctttgttttgtttcagAGATCACGTGAATGTCATC AATGTCGCTTCCAATCCTAAATTCCCTAATGGACATCATTTTCAGCCTGC TGAATTATGGGACTATCCTAACGGTCACCATTTTCCTTGCATGGAATTCT GGGAATGAATtaagcaaaaataatttattagtttttttcaattttgtaaa tagtatacaatgatggtgttacatcaaaccaaaatcaaa

Coding sequence (CDS) from alignment at scaffold_495:149571..157809+

>TCONS_00069155 ID=TCONS_00069155|Name=TCONS_00069155|organism=Clytia hemisphaerica|type=CDS|length=12474bp|location=Sequence derived from alignment at scaffold_495:149571..157809+ (Clytia hemisphaerica)
TTTGTTCTGGGACGGAGCCTAGGCGAGGGAGGATACGGGCTAGTTAAGCA
AGCGTCTTACGTGAACTTTAACTGCCCTATTGATCCTCTCGCTCGACGGC
TCCGCTCCTCTGGACACAATGACCAAGTTGCTATCAAAGTCATGCCGACT
TCACGTGGTATGGCACCCATAATAATGGAGCTTAACGCAATGAACTTGTT
GAAAGGTTGTCAGAATGTTGTCCAGATGCTGGATTTCTTTCAAGGAGAAA
ATCATTGCTACCTAGTAATGGAGCTCTGCAAAGAAGACCTGATGACAACC
TTAAACGAACGGATGCACACAAAGCCAAACATAAGAGAAATCTTCACACA
AACTTTGAATGGCGTTCATCAATGCCATTTGAAGAGCATTGCTCACTGtG
ATTTGAAATTAGAGAATGTTCTTATTGATCACGATGGAGCTGTAAAAATT
ACAGaCTTTGGTCTTGGAATGATTCCATCCTCACCCGGTAACGGTTGCCA
AAAATTTTGTGGTACACCAGAATACATGGCTCCTGAGGTCCTCCGTGGAT
ACGTTGGCTTCGATAACACGCCATACGACCCCTTCAAAGCAGACATGTGG
AGCTTgggcGCCATTTTGTATGCAATGTTGACGGGAAAGTTTCTTCCCAT
TAATTGGTCGAAAGATTTATTCGTGTCTGACGAATTGCATGATCTGTTAA
CCAAATTGTTGAACCACGACCCAGCGTCGAGACCATCTACGTCAGAAATT
ATCAACCATCCTTGGTTAACACCTTCTCCTTCAGCTATTGAAGCGaaatc
CGCAAACAGTGTTAAGAAAGAACAGAAAGAAGTTGCTAAGACTGTATCAC
AATATCATCAAGTGAGCGTTAACAAAGCTTTGGATGAAAAGGCACAAAAA
ATGAAGAGCCAAAAATCAGAAGAGCTCGCCTCGCAAGATGTGAGAGTACA
AATAAACGAATACCGACTTCATACACTgttcatcattgacaataagaCAT
TCAAACAAGATCACGTGAATGTCATCAATGTCGCTTCCAATCCTAAATTC
CCTAATGGACATCATTTTCAGCCTGCTGAATTATGGGACTATCCTAACGG
TCACCATTTTCCTTGCATGGAATTCTGGGAATGATTTGTTCTGGGACGGA
GCCTAGGCGAGGGAGGATACGGGCTAGTTAAGCAAGCGTCTTACGTGAAC
TTTAACTGCCCTATTGATCCTCTCGCTCGACGGCTCCGCTCCTCTGGACA
CAATGACCAAGTTGCTATCAAAGTCATGCCGACTTCACGTGGTATGGCAC
CCATAATAATGGAGCTTAACGCAATGAACTTGTTGAAAGGTTGTCAGAAT
GTTGTCCAGATGCTGGATTTCTTTCAAGGAGAAAATCATTGCTACCTAGT
AATGGAGCTCTGCAAAGAAGACCTGATGACAACCTTAAACGAACGGATGC
ACACAAAGCCAAACATAAGAGAAATCTTCACACAAACTTTGAATGGCGTT
CATCAATGCCATTTGAAGAGCATTGCTCACTGtGATTTGAAATTAGAGAA
TGTTCTTATTGATCACGATGGAGCTGTAAAAATTACAGaCTTTGGTCTTG
GAATGATTCCATCCTCACCCGGTAACGGTTGCCAAAAATTTTGTGGTACA
CCAGAATACATGGCTCCTGAGGTCCTCCGTGGATACGTTGGCTTCGATAA
CACGCCATACGACCCCTTCAAAGCAGACATGTGGAGCTTgggcGCCATTT
TGTATGCAATGTTGACGGGAAAGTTTCTTCCCATTAATTGGTCGAAAGAT
TTATTCGTGTCTGACGAATTGCATGATCTGTTAACCAAATTGTTGAACCA
CGACCCAGCGTCGAGACCATCTACGTCAGAAATTATCAACCATCCTTGGT
TAACACCTTCTCCTTCAGCTATTGAAGCGaaatcCGCAAACAGTGTTAAG
AAAGAACAGAAAGAAGTTGCTAAGACTGTATCACAATATCATCAAGTGAG
CGTTAACAAAGCTTTGGATGAAAAGGCACAAAAAATGAAGAGCCAAAAAT
CAGAAGAGCTCGCCTCGCAAGATGTGAGAGTACAAATAAACGAATACCGA
CTTCATACACTgttcatcattgacaataagaCATTCAAACAAGATCACGT
GAATGTCATCAATGTCGCTTCCAATCCTAAATTCCCTAATGGACATCATT
TTCAGCCTGCTGAATTATGGGACTATCCTAACGGTCACCATTTTCCTTGC
ATGGAATTCTGGGAATGATTTGTTCTGGGACGGAGCCTAGGCGAGGGAGG
ATACGGGCTAGTTAAGCAAGCGTCTTACGTGAACTTTAACTGCCCTATTG
ATCCTCTCGCTCGACGGCTCCGCTCCTCTGGACACAATGACCAAGTTGCT
ATCAAAGTCATGCCGACTTCACGTGGTATGGCACCCATAATAATGGAGCT
TAACGCAATGAACTTGTTGAAAGGTTGTCAGAATGTTGTCCAGATGCTGG
ATTTCTTTCAAGGAGAAAATCATTGCTACCTAGTAATGGAGCTCTGCAAA
GAAGACCTGATGACAACCTTAAACGAACGGATGCACACAAAGCCAAACAT
AAGAGAAATCTTCACACAAACTTTGAATGGCGTTCATCAATGCCATTTGA
AGAGCATTGCTCACTGtGATTTGAAATTAGAGAATGTTCTTATTGATCAC
GATGGAGCTGTAAAAATTACAGaCTTTGGTCTTGGAATGATTCCATCCTC
ACCCGGTAACGGTTGCCAAAAATTTTGTGGTACACCAGAATACATGGCTC
CTGAGGTCCTCCGTGGATACGTTGGCTTCGATAACACGCCATACGACCCC
TTCAAAGCAGACATGTGGAGCTTgggcGCCATTTTGTATGCAATGTTGAC
GGGAAAGTTTCTTCCCATTAATTGGTCGAAAGATTTATTCGTGTCTGACG
AATTGCATGATCTGTTAACCAAATTGTTGAACCACGACCCAGCGTCGAGA
CCATCTACGTCAGAAATTATCAACCATCCTTGGTTAACACCTTCTCCTTC
AGCTATTGAAGCGaaatcCGCAAACAGTGTTAAGAAAGAACAGAAAGAAG
TTGCTAAGACTGTATCACAATATCATCAAGTGAGCGTTAACAAAGCTTTG
GATGAAAAGGCACAAAAAATGAAGAGCCAAAAATCAGAAGAGCTCGCCTC
GCAAGATGTGAGAGTACAAATAAACGAATACCGACTTCATACACTgttca
tcattgacaataagaCATTCAAACAAGATCACGTGAATGTCATCAATGTC
GCTTCCAATCCTAAATTCCCTAATGGACATCATTTTCAGCCTGCTGAATT
ATGGGACTATCCTAACGGTCACCATTTTCCTTGCATGGAATTCTGGGAAT
GATTTGTTCTGGGACGGAGCCTAGGCGAGGGAGGATACGGGCTAGTTAAG
CAAGCGTCTTACGTGAACTTTAACTGCCCTATTGATCCTCTCGCTCGACG
GCTCCGCTCCTCTGGACACAATGACCAAGTTGCTATCAAAGTCATGCCGA
CTTCACGTGGTATGGCACCCATAATAATGGAGCTTAACGCAATGAACTTG
TTGAAAGGTTGTCAGAATGTTGTCCAGATGCTGGATTTCTTTCAAGGAGA
AAATCATTGCTACCTAGTAATGGAGCTCTGCAAAGAAGACCTGATGACAA
CCTTAAACGAACGGATGCACACAAAGCCAAACATAAGAGAAATCTTCACA
CAAACTTTGAATGGCGTTCATCAATGCCATTTGAAGAGCATTGCTCACTG
tGATTTGAAATTAGAGAATGTTCTTATTGATCACGATGGAGCTGTAAAAA
TTACAGaCTTTGGTCTTGGAATGATTCCATCCTCACCCGGTAACGGTTGC
CAAAAATTTTGTGGTACACCAGAATACATGGCTCCTGAGGTCCTCCGTGG
ATACGTTGGCTTCGATAACACGCCATACGACCCCTTCAAAGCAGACATGT
GGAGCTTgggcGCCATTTTGTATGCAATGTTGACGGGAAAGTTTCTTCCC
ATTAATTGGTCGAAAGATTTATTCGTGTCTGACGAATTGCATGATCTGTT
AACCAAATTGTTGAACCACGACCCAGCGTCGAGACCATCTACGTCAGAAA
TTATCAACCATCCTTGGTTAACACCTTCTCCTTCAGCTATTGAAGCGaaa
tcCGCAAACAGTGTTAAGAAAGAACAGAAAGAAGTTGCTAAGACTGTATC
ACAATATCATCAAGTGAGCGTTAACAAAGCTTTGGATGAAAAGGCACAAA
AAATGAAGAGCCAAAAATCAGAAGAGCTCGCCTCGCAAGATGTGAGAGTA
CAAATAAACGAATACCGACTTCATACACTgttcatcattgacaataagaC
ATTCAAACAAGATCACGTGAATGTCATCAATGTCGCTTCCAATCCTAAAT
TCCCTAATGGACATCATTTTCAGCCTGCTGAATTATGGGACTATCCTAAC
GGTCACCATTTTCCTTGCATGGAATTCTGGGAATGATTTGTTCTGGGACG
GAGCCTAGGCGAGGGAGGATACGGGCTAGTTAAGCAAGCGTCTTACGTGA
ACTTTAACTGCCCTATTGATCCTCTCGCTCGACGGCTCCGCTCCTCTGGA
CACAATGACCAAGTTGCTATCAAAGTCATGCCGACTTCACGTGGTATGGC
ACCCATAATAATGGAGCTTAACGCAATGAACTTGTTGAAAGGTTGTCAGA
ATGTTGTCCAGATGCTGGATTTCTTTCAAGGAGAAAATCATTGCTACCTA
GTAATGGAGCTCTGCAAAGAAGACCTGATGACAACCTTAAACGAACGGAT
GCACACAAAGCCAAACATAAGAGAAATCTTCACACAAACTTTGAATGGCG
TTCATCAATGCCATTTGAAGAGCATTGCTCACTGtGATTTGAAATTAGAG
AATGTTCTTATTGATCACGATGGAGCTGTAAAAATTACAGaCTTTGGTCT
TGGAATGATTCCATCCTCACCCGGTAACGGTTGCCAAAAATTTTGTGGTA
CACCAGAATACATGGCTCCTGAGGTCCTCCGTGGATACGTTGGCTTCGAT
AACACGCCATACGACCCCTTCAAAGCAGACATGTGGAGCTTgggcGCCAT
TTTGTATGCAATGTTGACGGGAAAGTTTCTTCCCATTAATTGGTCGAAAG
ATTTATTCGTGTCTGACGAATTGCATGATCTGTTAACCAAATTGTTGAAC
CACGACCCAGCGTCGAGACCATCTACGTCAGAAATTATCAACCATCCTTG
GTTAACACCTTCTCCTTCAGCTATTGAAGCGaaatcCGCAAACAGTGTTA
AGAAAGAACAGAAAGAAGTTGCTAAGACTGTATCACAATATCATCAAGTG
AGCGTTAACAAAGCTTTGGATGAAAAGGCACAAAAAATGAAGAGCCAAAA
ATCAGAAGAGCTCGCCTCGCAAGATGTGAGAGTACAAATAAACGAATACC
GACTTCATACACTgttcatcattgacaataagaCATTCAAACAAGATCAC
GTGAATGTCATCAATGTCGCTTCCAATCCTAAATTCCCTAATGGACATCA
TTTTCAGCCTGCTGAATTATGGGACTATCCTAACGGTCACCATTTTCCTT
GCATGGAATTCTGGGAATGATTTGTTCTGGGACGGAGCCTAGGCGAGGGA
GGATACGGGCTAGTTAAGCAAGCGTCTTACGTGAACTTTAACTGCCCTAT
TGATCCTCTCGCTCGACGGCTCCGCTCCTCTGGACACAATGACCAAGTTG
CTATCAAAGTCATGCCGACTTCACGTGGTATGGCACCCATAATAATGGAG
CTTAACGCAATGAACTTGTTGAAAGGTTGTCAGAATGTTGTCCAGATGCT
GGATTTCTTTCAAGGAGAAAATCATTGCTACCTAGTAATGGAGCTCTGCA
AAGAAGACCTGATGACAACCTTAAACGAACGGATGCACACAAAGCCAAAC
ATAAGAGAAATCTTCACACAAACTTTGAATGGCGTTCATCAATGCCATTT
GAAGAGCATTGCTCACTGtGATTTGAAATTAGAGAATGTTCTTATTGATC
ACGATGGAGCTGTAAAAATTACAGaCTTTGGTCTTGGAATGATTCCATCC
TCACCCGGTAACGGTTGCCAAAAATTTTGTGGTACACCAGAATACATGGC
TCCTGAGGTCCTCCGTGGATACGTTGGCTTCGATAACACGCCATACGACC
CCTTCAAAGCAGACATGTGGAGCTTgggcGCCATTTTGTATGCAATGTTG
ACGGGAAAGTTTCTTCCCATTAATTGGTCGAAAGATTTATTCGTGTCTGA
CGAATTGCATGATCTGTTAACCAAATTGTTGAACCACGACCCAGCGTCGA
GACCATCTACGTCAGAAATTATCAACCATCCTTGGTTAACACCTTCTCCT
TCAGCTATTGAAGCGaaatcCGCAAACAGTGTTAAGAAAGAACAGAAAGA
AGTTGCTAAGACTGTATCACAATATCATCAAGTGAGCGTTAACAAAGCTT
TGGATGAAAAGGCACAAAAAATGAAGAGCCAAAAATCAGAAGAGCTCGCC
TCGCAAGATGTGAGAGTACAAATAAACGAATACCGACTTCATACACTgtt
catcattgacaataagaCATTCAAACAAGATCACGTGAATGTCATCAATG
TCGCTTCCAATCCTAAATTCCCTAATGGACATCATTTTCAGCCTGCTGAA
TTATGGGACTATCCTAACGGTCACCATTTTCCTTGCATGGAATTCTGGGA
ATGATTTGTTCTGGGACGGAGCCTAGGCGAGGGAGGATACGGGCTAGTTA
AGCAAGCGTCTTACGTGAACTTTAACTGCCCTATTGATCCTCTCGCTCGA
CGGCTCCGCTCCTCTGGACACAATGACCAAGTTGCTATCAAAGTCATGCC
GACTTCACGTGGTATGGCACCCATAATAATGGAGCTTAACGCAATGAACT
TGTTGAAAGGTTGTCAGAATGTTGTCCAGATGCTGGATTTCTTTCAAGGA
GAAAATCATTGCTACCTAGTAATGGAGCTCTGCAAAGAAGACCTGATGAC
AACCTTAAACGAACGGATGCACACAAAGCCAAACATAAGAGAAATCTTCA
CACAAACTTTGAATGGCGTTCATCAATGCCATTTGAAGAGCATTGCTCAC
TGtGATTTGAAATTAGAGAATGTTCTTATTGATCACGATGGAGCTGTAAA
AATTACAGaCTTTGGTCTTGGAATGATTCCATCCTCACCCGGTAACGGTT
GCCAAAAATTTTGTGGTACACCAGAATACATGGCTCCTGAGGTCCTCCGT
GGATACGTTGGCTTCGATAACACGCCATACGACCCCTTCAAAGCAGACAT
GTGGAGCTTgggcGCCATTTTGTATGCAATGTTGACGGGAAAGTTTCTTC
CCATTAATTGGTCGAAAGATTTATTCGTGTCTGACGAATTGCATGATCTG
TTAACCAAATTGTTGAACCACGACCCAGCGTCGAGACCATCTACGTCAGA
AATTATCAACCATCCTTGGTTAACACCTTCTCCTTCAGCTATTGAAGCGa
aatcCGCAAACAGTGTTAAGAAAGAACAGAAAGAAGTTGCTAAGACTGTA
TCACAATATCATCAAGTGAGCGTTAACAAAGCTTTGGATGAAAAGGCACA
AAAAATGAAGAGCCAAAAATCAGAAGAGCTCGCCTCGCAAGATGTGAGAG
TACAAATAAACGAATACCGACTTCATACACTgttcatcattgacaataag
aCATTCAAACAAGATCACGTGAATGTCATCAATGTCGCTTCCAATCCTAA
ATTCCCTAATGGACATCATTTTCAGCCTGCTGAATTATGGGACTATCCTA
ACGGTCACCATTTTCCTTGCATGGAATTCTGGGAATGATTTGTTCTGGGA
CGGAGCCTAGGCGAGGGAGGATACGGGCTAGTTAAGCAAGCGTCTTACGT
GAACTTTAACTGCCCTATTGATCCTCTCGCTCGACGGCTCCGCTCCTCTG
GACACAATGACCAAGTTGCTATCAAAGTCATGCCGACTTCACGTGGTATG
GCACCCATAATAATGGAGCTTAACGCAATGAACTTGTTGAAAGGTTGTCA
GAATGTTGTCCAGATGCTGGATTTCTTTCAAGGAGAAAATCATTGCTACC
TAGTAATGGAGCTCTGCAAAGAAGACCTGATGACAACCTTAAACGAACGG
ATGCACACAAAGCCAAACATAAGAGAAATCTTCACACAAACTTTGAATGG
CGTTCATCAATGCCATTTGAAGAGCATTGCTCACTGtGATTTGAAATTAG
AGAATGTTCTTATTGATCACGATGGAGCTGTAAAAATTACAGaCTTTGGT
CTTGGAATGATTCCATCCTCACCCGGTAACGGTTGCCAAAAATTTTGTGG
TACACCAGAATACATGGCTCCTGAGGTCCTCCGTGGATACGTTGGCTTCG
ATAACACGCCATACGACCCCTTCAAAGCAGACATGTGGAGCTTgggcGCC
ATTTTGTATGCAATGTTGACGGGAAAGTTTCTTCCCATTAATTGGTCGAA
AGATTTATTCGTGTCTGACGAATTGCATGATCTGTTAACCAAATTGTTGA
ACCACGACCCAGCGTCGAGACCATCTACGTCAGAAATTATCAACCATCCT
TGGTTAACACCTTCTCCTTCAGCTATTGAAGCGaaatcCGCAAACAGTGT
TAAGAAAGAACAGAAAGAAGTTGCTAAGACTGTATCACAATATCATCAAG
TGAGCGTTAACAAAGCTTTGGATGAAAAGGCACAAAAAATGAAGAGCCAA
AAATCAGAAGAGCTCGCCTCGCAAGATGTGAGAGTACAAATAAACGAATA
CCGACTTCATACACTgttcatcattgacaataagaCATTCAAACAAGATC
ACGTGAATGTCATCAATGTCGCTTCCAATCCTAAATTCCCTAATGGACAT
CATTTTCAGCCTGCTGAATTATGGGACTATCCTAACGGTCACCATTTTCC
TTGCATGGAATTCTGGGAATGATTTGTTCTGGGACGGAGCCTAGGCGAGG
GAGGATACGGGCTAGTTAAGCAAGCGTCTTACGTGAACTTTAACTGCCCT
ATTGATCCTCTCGCTCGACGGCTCCGCTCCTCTGGACACAATGACCAAGT
TGCTATCAAAGTCATGCCGACTTCACGTGGTATGGCACCCATAATAATGG
AGCTTAACGCAATGAACTTGTTGAAAGGTTGTCAGAATGTTGTCCAGATG
CTGGATTTCTTTCAAGGAGAAAATCATTGCTACCTAGTAATGGAGCTCTG
CAAAGAAGACCTGATGACAACCTTAAACGAACGGATGCACACAAAGCCAA
ACATAAGAGAAATCTTCACACAAACTTTGAATGGCGTTCATCAATGCCAT
TTGAAGAGCATTGCTCACTGtGATTTGAAATTAGAGAATGTTCTTATTGA
TCACGATGGAGCTGTAAAAATTACAGaCTTTGGTCTTGGAATGATTCCAT
CCTCACCCGGTAACGGTTGCCAAAAATTTTGTGGTACACCAGAATACATG
GCTCCTGAGGTCCTCCGTGGATACGTTGGCTTCGATAACACGCCATACGA
CCCCTTCAAAGCAGACATGTGGAGCTTgggcGCCATTTTGTATGCAATGT
TGACGGGAAAGTTTCTTCCCATTAATTGGTCGAAAGATTTATTCGTGTCT
GACGAATTGCATGATCTGTTAACCAAATTGTTGAACCACGACCCAGCGTC
GAGACCATCTACGTCAGAAATTATCAACCATCCTTGGTTAACACCTTCTC
CTTCAGCTATTGAAGCGaaatcCGCAAACAGTGTTAAGAAAGAACAGAAA
GAAGTTGCTAAGACTGTATCACAATATCATCAAGTGAGCGTTAACAAAGC
TTTGGATGAAAAGGCACAAAAAATGAAGAGCCAAAAATCAGAAGAGCTCG
CCTCGCAAGATGTGAGAGTACAAATAAACGAATACCGACTTCATACACTg
ttcatcattgacaataagaCATTCAAACAAGATCACGTGAATGTCATCAA
TGTCGCTTCCAATCCTAAATTCCCTAATGGACATCATTTTCAGCCTGCTG
AATTATGGGACTATCCTAACGGTCACCATTTTCCTTGCATGGAATTCTGG
GAATGATTTGTTCTGGGACGGAGCCTAGGCGAGGGAGGATACGGGCTAGT
TAAGCAAGCGTCTTACGTGAACTTTAACTGCCCTATTGATCCTCTCGCTC
GACGGCTCCGCTCCTCTGGACACAATGACCAAGTTGCTATCAAAGTCATG
CCGACTTCACGTGGTATGGCACCCATAATAATGGAGCTTAACGCAATGAA
CTTGTTGAAAGGTTGTCAGAATGTTGTCCAGATGCTGGATTTCTTTCAAG
GAGAAAATCATTGCTACCTAGTAATGGAGCTCTGCAAAGAAGACCTGATG
ACAACCTTAAACGAACGGATGCACACAAAGCCAAACATAAGAGAAATCTT
CACACAAACTTTGAATGGCGTTCATCAATGCCATTTGAAGAGCATTGCTC
ACTGtGATTTGAAATTAGAGAATGTTCTTATTGATCACGATGGAGCTGTA
AAAATTACAGaCTTTGGTCTTGGAATGATTCCATCCTCACCCGGTAACGG
TTGCCAAAAATTTTGTGGTACACCAGAATACATGGCTCCTGAGGTCCTCC
GTGGATACGTTGGCTTCGATAACACGCCATACGACCCCTTCAAAGCAGAC
ATGTGGAGCTTgggcGCCATTTTGTATGCAATGTTGACGGGAAAGTTTCT
TCCCATTAATTGGTCGAAAGATTTATTCGTGTCTGACGAATTGCATGATC
TGTTAACCAAATTGTTGAACCACGACCCAGCGTCGAGACCATCTACGTCA
GAAATTATCAACCATCCTTGGTTAACACCTTCTCCTTCAGCTATTGAAGC
GaaatcCGCAAACAGTGTTAAGAAAGAACAGAAAGAAGTTGCTAAGACTG
TATCACAATATCATCAAGTGAGCGTTAACAAAGCTTTGGATGAAAAGGCA
CAAAAAATGAAGAGCCAAAAATCAGAAGAGCTCGCCTCGCAAGATGTGAG
AGTACAAATAAACGAATACCGACTTCATACACTgttcatcattgacaata
agaCATTCAAACAAGATCACGTGAATGTCATCAATGTCGCTTCCAATCCT
AAATTCCCTAATGGACATCATTTTCAGCCTGCTGAATTATGGGACTATCC
TAACGGTCACCATTTTCCTTGCATGGAATTCTGGGAATGATTTGTTCTGG
GACGGAGCCTAGGCGAGGGAGGATACGGGCTAGTTAAGCAAGCGTCTTAC
GTGAACTTTAACTGCCCTATTGATCCTCTCGCTCGACGGCTCCGCTCCTC
TGGACACAATGACCAAGTTGCTATCAAAGTCATGCCGACTTCACGTGGTA
TGGCACCCATAATAATGGAGCTTAACGCAATGAACTTGTTGAAAGGTTGT
CAGAATGTTGTCCAGATGCTGGATTTCTTTCAAGGAGAAAATCATTGCTA
CCTAGTAATGGAGCTCTGCAAAGAAGACCTGATGACAACCTTAAACGAAC
GGATGCACACAAAGCCAAACATAAGAGAAATCTTCACACAAACTTTGAAT
GGCGTTCATCAATGCCATTTGAAGAGCATTGCTCACTGtGATTTGAAATT
AGAGAATGTTCTTATTGATCACGATGGAGCTGTAAAAATTACAGaCTTTG
GTCTTGGAATGATTCCATCCTCACCCGGTAACGGTTGCCAAAAATTTTGT
GGTACACCAGAATACATGGCTCCTGAGGTCCTCCGTGGATACGTTGGCTT
CGATAACACGCCATACGACCCCTTCAAAGCAGACATGTGGAGCTTgggcG
CCATTTTGTATGCAATGTTGACGGGAAAGTTTCTTCCCATTAATTGGTCG
AAAGATTTATTCGTGTCTGACGAATTGCATGATCTGTTAACCAAATTGTT
GAACCACGACCCAGCGTCGAGACCATCTACGTCAGAAATTATCAACCATC
CTTGGTTAACACCTTCTCCTTCAGCTATTGAAGCGaaatcCGCAAACAGT
GTTAAGAAAGAACAGAAAGAAGTTGCTAAGACTGTATCACAATATCATCA
AGTGAGCGTTAACAAAGCTTTGGATGAAAAGGCACAAAAAATGAAGAGCC
AAAAATCAGAAGAGCTCGCCTCGCAAGATGTGAGAGTACAAATAAACGAA
TACCGACTTCATACACTgttcatcattgacaataagaCATTCAAACAAGA
TCACGTGAATGTCATCAATGTCGCTTCCAATCCTAAATTCCCTAATGGAC
ATCATTTTCAGCCTGCTGAATTATGGGACTATCCTAACGGTCACCATTTT
CCTTGCATGGAATTCTGGGAATGA
Gene-mRNA-Prot
This transcript is a part of the following gene feature(s):
Feature NameUnique NameSpeciesType
XLOC_043106XLOC_043106Clytia hemisphaericagene
The following polypeptide feature(s) derives from this transcript:
Feature NameUnique NameSpeciesType
TCONS_00069155-proteinTCONS_00069155-proteinClytia hemisphaericapolypeptide
The following exon feature(s) are a part of this transcript:
Feature NameUnique NameSpeciesType
TCONS_00069155-exon-scaffold_495-1491911889:149571..149698TCONS_00069155-exon-scaffold_495-1491911889:149571..149698Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1510915933:149571..149698TCONS_00069155-exon-scaffold_495-1510915933:149571..149698Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1575043694:149571..149698TCONS_00069155-exon-scaffold_495-1575043694:149571..149698Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1491911889:151887..151979TCONS_00069155-exon-scaffold_495-1491911889:151887..151979Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1510915933:151887..151979TCONS_00069155-exon-scaffold_495-1510915933:151887..151979Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1575043694:151887..151979TCONS_00069155-exon-scaffold_495-1575043694:151887..151979Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1491911889:152608..152786TCONS_00069155-exon-scaffold_495-1491911889:152608..152786Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1510915933:152608..152786TCONS_00069155-exon-scaffold_495-1510915933:152608..152786Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1575043694:152608..152786TCONS_00069155-exon-scaffold_495-1575043694:152608..152786Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1491911889:153515..153570TCONS_00069155-exon-scaffold_495-1491911889:153515..153570Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1510915933:153515..153570TCONS_00069155-exon-scaffold_495-1510915933:153515..153570Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1575043694:153515..153570TCONS_00069155-exon-scaffold_495-1575043694:153515..153570Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1491911889:154130..154280TCONS_00069155-exon-scaffold_495-1491911889:154130..154280Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1510915933:154130..154280TCONS_00069155-exon-scaffold_495-1510915933:154130..154280Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1575043694:154130..154280TCONS_00069155-exon-scaffold_495-1575043694:154130..154280Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1491911889:154731..154807TCONS_00069155-exon-scaffold_495-1491911889:154731..154807Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1510915933:154731..154807TCONS_00069155-exon-scaffold_495-1510915933:154731..154807Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1575043694:154731..154807TCONS_00069155-exon-scaffold_495-1575043694:154731..154807Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1491911889:155265..155377TCONS_00069155-exon-scaffold_495-1491911889:155265..155377Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1510915933:155265..155377TCONS_00069155-exon-scaffold_495-1510915933:155265..155377Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1575043694:155265..155377TCONS_00069155-exon-scaffold_495-1575043694:155265..155377Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1491911889:155924..155968TCONS_00069155-exon-scaffold_495-1491911889:155924..155968Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1510915933:155924..155968TCONS_00069155-exon-scaffold_495-1510915933:155924..155968Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1575043694:155924..155968TCONS_00069155-exon-scaffold_495-1575043694:155924..155968Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1491911889:156162..156212TCONS_00069155-exon-scaffold_495-1491911889:156162..156212Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1510915933:156162..156212TCONS_00069155-exon-scaffold_495-1510915933:156162..156212Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1575043694:156162..156212TCONS_00069155-exon-scaffold_495-1575043694:156162..156212Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1491911889:156630..156745TCONS_00069155-exon-scaffold_495-1491911889:156630..156745Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1510915933:156630..156745TCONS_00069155-exon-scaffold_495-1510915933:156630..156745Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1575043694:156630..156745TCONS_00069155-exon-scaffold_495-1575043694:156630..156745Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1491911889:157602..157809TCONS_00069155-exon-scaffold_495-1491911889:157602..157809Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1510915933:157602..157809TCONS_00069155-exon-scaffold_495-1510915933:157602..157809Clytia hemisphaericaexon
TCONS_00069155-exon-scaffold_495-1575043694:157602..157809TCONS_00069155-exon-scaffold_495-1575043694:157602..157809Clytia hemisphaericaexon
Position
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
scaffold_495supercontigscaffold_495:149571..157809 +
Expression

Hover the mouse over a column in the graph to view expression values in transcripts per million (tpm).
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Values :
    GrOo_1	 GrOo_2	 FGOo_1	 FGOo_2	 EG_1	 EG_2	 P1_1	 P1_2	 P2_1	 P2_2	 P3_1	 P3_2	 PoPr_1	 PoPr_2	 St_1	 St_2	 GO_1	 GO_2	 PH_1	 PH_2	 BMF_1	 BMF_2	 MMF_1	 MMF_2	 M_1	 M_2	 GEC_1	 GEC_2	 GEN_1	 GEN_2
0 0.102965 0 0 0 0 0 0 0.0479966 0 0.0643 0.140643 0 0 0 0 0 0 0 0.0705986 0 0 0 0 0 0 0 0 0 0
Annotated Terms
The following terms have been associated with this transcript:
Vocabulary: INTERPRO
TermDefinition
IPR000719Prot_kinase_dom
IPR008271Ser/Thr_kinase_AS
IPR011009Kinase-like_dom
Vocabulary: Molecular Function
TermDefinition
GO:0004672protein kinase activity
GO:0005524ATP binding
Vocabulary: Biological Process
TermDefinition
GO:0006468protein phosphorylation
GO Annotation
GO Assignments
This transcript is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006468 protein phosphorylation
molecular_function GO:0005524 ATP binding
molecular_function GO:0004672 protein kinase activity
Blast
BLAST of TCONS_00069155 vs. Swiss-Prot (Human)
Match: TSSK6 (Testis-specific serine/threonine-protein kinase 6 OS=Homo sapiens GN=TSSK6 PE=1 SV=1)

HSP 1 Score: 119.398 bits (298), Expect = 1.515e-30
Identity = 87/285 (30.53%), Postives = 135/285 (47.37%), Query Frame = 3
Query:    3 FVLGRSLGEGGYGLVKQASYVNFNCPIDPLARRLRSSGHNDQVAIKVMPTSRGMAPIIMEL--NAMNLLKGCQN--VVQMLDFFQGEN-HCYLVMELCKEDLMTTLNERMHTKPNI--REIFTQTLNGVHQCHLKSIAHCDLKLENVLIDHD-GAVKITDFGLGMIPSSPGNGCQKFCGTPEYMAPEVLRGYVGFDNTPYDPFKADMWSLGAILYAMLTGKF---------LP------INWSKDLFVSDELHDLLTKLLNHDPASRPSTSEIINHPWLTPSPSA 788
            + LGR++GEG Y  VK A+                S  +   VAIKV+   R     + +     +++L+G ++  +V + +F +  N   Y+VME    DL+  + +R    P +  R++F Q    V   H   + H DLK ENVL+  D   VK+TDFG G       +    +CG+  Y +PEVL G       PYDP K D+WS+G +LY M+TG           LP      + + + L +S+    L+ +LL   P++RPS  ++  + WL    S 
Sbjct:   12 YKLGRTIGEGSYSKVKVAT----------------SKKYKGTVAIKVVDRRRAPPDFVNKFLPRELSILRGVRHPHIVHVFEFIEVCNGKLYIVMEAAATDLLQAV-QRNGRIPGVQARDLFAQIAGAVRYLHDHHLVHRDLKCENVLLSPDERRVKLTDFGFGRQAHGYPDLSTTYCGSAAYASPEVLLG------IPYDPKKYDVWSMGVVLYVMVTGCMPFDDSDIAGLPRRQKRGVLYPEGLELSERCKALIAELLQFSPSARPSAGQVARNCWLRAGDSG 273          
The following BLAST results are available for this feature:
BLAST of TCONS_00069155 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
TSSK61.515e-3030.53Testis-specific serine/threonine-protein kinase 6 ... [more]
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