TCONS_00001627 (transcript) - C. hemisphaerica

Overview
NameTCONS_00001627
Unique NameTCONS_00001627
Typetranscript
OrganismClytia hemisphaerica (Jellyfish)
Sequence length2034

Sequence
The following sequences are available for this feature:

transcript sequence

>TCONS_00001627 ID=TCONS_00001627|Name=TCONS_00001627|organism=Clytia hemisphaerica|type=transcript|length=2034bp
GTAGGAATGAAAATCAAGGTAGCGATTTCTTTTACTGGCAAATTTGAAAT
GGAAAATCGAATTGAACTTGAGAGGAGGGGGCAAGAGAAAAAAGAGATTA
CTGAACTCAACCTTGATAATACCAGATCCACTTCAATTGTTGGATTGACA
GATGAATACTcaaatttggaatatctttcaTTGATCAATGTTGGGTTAAC
AACCCTAAAAGGCTTGCCAGGACttgagaaattaaaaaaactTGAGCTGA
GTGACAATAGGATATCAACAGGATTGGATTATTTACTAAAATTACCTGGT
TTAGCTTACCTCAGTCTCAGTGGAAACAGaatcaaagactttgaaagcCT
TTCTCCATTGGCTAAACTTAGTAACTTGAAGAGTTTGGATTTGTTTAACT
GCGAAGTCACTTGTGAAAAGGATTATCGGGCCAAAGTATTTGAGCTCATC
CCGCAGCTGAAATTTCTTGATGGGGCTGACAGAGACGACAAAGAAATGGA
AGAGTCTGAGTCagAAGGAGAAGAGGACGAAGAAGATGATGACGATGAAG
AAGGCGAAGATGAAGACGGTGTAGAGAATGGTGTAACAGAAGATGACGAT
GACGAGGATGAAGATACTGAAATTGTAGGTATCGATGATGAGGATGATGA
TGAATTGGAAGAAGAGGAACTAGATGAAGATGCTGATGGTGGATTGGAAG
AAATTGTTGATGGTGGTGAGGATGAAAATGAAGAGGATGATGAGGACGAT
GATGATGACGAAGAAGAAGTTGTCATCACTGCTGAAAATGATGGATTGAT
TGACAGagaagaagaagaggaagacgatgatgatgatgacgacGACGATG
AATTAGAAGAAAGTGACGAAGACGAAGAACTTGGTTTGGATTACCTCACT
AAAGAAAACCTCTCTGAGGAAGACGAAGACGAGGAAGATTTCAACCCTGA
AGAAGTCgacgatgaagaagaagaactctctgaagaagaagaagagattA
TGGAAGAACAGAGAGGTGTCAAACGAAAACATGAAGGCGACCATTCACGT
GCAGATGAGGAGTCATAACATTGTCAATACATCATCAACACACAACAATT
TAACTGCCGTGGGAAGAATCTTTTCATTGTTAACACCCTGGAGGTGTGGT
ATGGTTTATTGATGGCGAAAAGTGAGAAAGAATTAAACGGGTGAAGGATG
ATCTGCCGGTCAGACGCATTCTTTTGAAGTAGGCTGAAACACACGGCAAT
ATTTTATTATAGATAGAACTCCTGTGTTTTCTGGAATCCGAGAGTGATTC
TTGGACACGCTACTTGACAGAGACTTGCTTGATAAAAAGACCCTCAATGA
CTTACGATGTTTTATTTTCCTCGTTTACAATGATGCCCAATTATTCCTGG
AATTTAATAAATATCACAGTTTTATTCACCAAACATCACCATTACAGCAT
TTGCTAATCTTAaggttttttatttatattttatttatgactgggttttt
tttttcacgtgCTCTTTAAAACCGTTttccctttgttttgaaatatgacT
ATCTGATAGGTCAGGGTTGACTAAGCTAGCACCTAGAAAAGAATGATATT
GATTATACAAAGTCTCCCCTAGTTAAATACGGGGCTTGAAACTAAATTCA
CATTGGGACCGCAAGAAAAAAGATTCGGATCATATCGATATTTGCCATTT
AAAGATCTAATagaaaatgatgaaatcaaaCCTGATGAGCCAAACACCTG
TAACACAATAGGAAATTTTCAGAGGCCAGAAAGTAATGAAGTAAAAATGA
TTAATCCtaagtattttttatcaatagtATATTATTACGTTTAAAAGTAA
GGAATGGAAAGGCAAGTGGTAAAAGAAATTTATCTTGTTTGTTATttgaa
aacataaaatatttttacgttGAACTGTTCGAATAGACCAAAAAAAGTTC
TATCCCTGTATATATTGTATAATGTTTGTATAATTTGTTATGGCtaattt
ttaggcaaaaagaaaAGTTATACGAACAGTAAAT
Run BLAST on NCBI

protein sequence of TCONS_00001627-protein

>TCONS_00001627-protein ID=TCONS_00001627-protein|Name=TCONS_00001627-protein|organism=Clytia hemisphaerica|type=polypeptide|length=355bp
VGMKIKVAISFTGKFEMENRIELERRGQEKKEITELNLDNTRSTSIVGLT
DEYSNLEYLSLINVGLTTLKGLPGLEKLKKLELSDNRISTGLDYLLKLPG
LAYLSLSGNRIKDFESLSPLAKLSNLKSLDLFNCEVTCEKDYRAKVFELI
PQLKFLDGADRDDKEMEESESEGEEDEEDDDDEEGEDEDGVENGVTEDDD
DEDEDTEIVGIDDEDDDELEEEELDEDADGGLEEIVDGGEDENEEDDEDD
DDDEEEVVITAENDGLIDREEEEEDDDDDDDDDELEESDEDEELGLDYLT
KENLSEEDEDEEDFNPEEVDDEEEELSEEEEEIMEEQRGVKRKHEGDHSR
ADEES
Run BLAST on NCBI

transcript from alignment at sc0000011:1055167..1062634+

Legend: exonCDSthree_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
>TCONS_00001627 ID=TCONS_00001627|Name=TCONS_00001627|organism=Clytia hemisphaerica|type=transcript|length=7468bp|location=Sequence derived from alignment at sc0000011:1055167..1062634+ (Clytia hemisphaerica)
GTAGGAATGAAAATCAAGGTAGGAGAACGACTCAAAGGCCCAAATTGTTT
CTGTAATTAGTTCGAAATTTctacttttccaaaatttagAAATCTCGGTG
GTGCGGATAAAAACATTGAAGTCTGTATATTTTGCATAATTAACATAATT
TGatatttactatttttgatTGGATAGAATATTTGTTTATATGCATatat
tatgataaattattcgaAAACTTGTTTGCTCATTGGTTCATACTAATCAC
GTGCTGTTTAGATCTTtgcataattatttcaaaagcTTGCCTTTTCAATC
TTCAGCCCGCCGTAAATACTCACCAAGCTGGCCTATCATTCTTAGAACCA
GTTTTGTGACTAAAGTCCAGTTATAAGCTGGTTTTTAGTCTGTTAGCTAA
CTTGCCGAAACGTCGACATTTCGTCTCGCGAGATCGAAATCAAAATATAC
CTTGTGGAATTTTATTGAGGTACTCTGAGCTTGTAGTTAAATTTGTGGAG
AAATCTTGGGTTTTAGGTAGCGATTTCTTTTACTGGCAAATTTGAAATGG
AAAATCGAATTGAACTTGAGAGGAGGGGGCAAGAGAAAAAAGAGGTATGT
TCTTCTATCTTTCTTGACACAGTTCCTATCAATTGTACTTTTTGATATAA
AGATAAActttaaatatgatttttagcAGGTTGTTGtattatttgtttat
gtttacaGATTACTGAACTCAACCTTGATAATACCAGATCCACTTCAATT
GTTGGATTGACAGATGAATACTcaaatttggaatatctttcaTTGATCAA
TGTTGGGTTAACAACCCTAAAAGGCTTGCCAGGACttgagaaattaaaaa
aagtaagCACTGTCTGTGTAATTTTTCgtaaattaattttgaataatCAG
TTGTCAATTTTATGTATTANGTAATTTTCGTAATTAATTTTGAATAGTCA
GTTGTCATTTTTATGTATTACTTTcagatactttaatgggataaaatttc
agGGACTCTGTGTGGATTTAGGTATCATCCTGACCTaactttgttgtcat
ttctCTAGTCCTTCTAGACgagtgagaaaaaaaatgttttcacattacac
atccctttagagttTTAGCGTTGCatgcagaaaacaatcacaatctgatc
tcaggttttAGCTTGACCACACAATGTTTATTCCCTTCAAAATTTTAGTC
CATTAAAGTTTAACCTTCTATCTTTGTGATATATTTTTTGCTGAACACAG
GAGGCAAAAAGAGCTAGAAAGGCAGGACAGTGTCTGCTGCTCTAGATAGG
CTGAAAAGAGCACTTTTTCTGTTGCTTTTTCATGTCTGATCACATAAGgc
taaaaatgccttaaaatggtCTGAAATGACtaaatgtatttttgttttAC
CCAAGTTCTAATGGATTTCTTTTACTTTTGTTGGAGTTCAATTCGGGAGT
AGGGTTTTCAATATACAATAACTGGGCATATCACCAAACTAAATTTTAGc
tgggacaaaaatcagttctTAGAGGGATATTTGTATCCTTACTAGGTTTG
GTTTTGTTTGCAAAACTGCCCAATAATGTGAATGTTAAGAAGGGACACAT
ACTTCTTTCCCCACACAAACCACCTACTGTGAGaccgggtaacttgcatc
agtggaggctaacatgcttagccctcaaatgaatggcctggctggtcatt
aatatacaaagttaaatcaaaacaaaaatggtagaacagagctgcgtagt
tcatttttttgaaattttgctgttttaattggtcagtcatttCAGGGTTC
GAATTAACGTATCGCGTTTCGCCATTCGCGATGCGTTTTTGGAAATgtag
gaagcaaaaattcagaaatttaaCAAAATCGCGATACAACATATGAAGAA
TTTTACAGCTCACTAAAGTACAATGGTTAAATTGGTCTTTAGAGTGGAGA
ATGCATCGTATATTGATAAAAACGCATAATTAGCTCACTCCGTTCGCACA
AAAGTGCGATGCACTTTTAAATAGTTAATTCGATCCATGCATTTAATAGC
TATACAAGTTTCCCTCtgctgatgcaagttacccaacttcacggtacCAT
AAATGTCACATCTTGCAAAATAAAcgttttatagcaaaatttgaGACACT
ATTCATGCTTTGATATAAATTTCAGTTGCTAGATATAACATAGAGAAACA
AGGAAAAGTTTAACTTTCTTTGCAAGCACTATTACTGAGTTACATCAGCT
ctagacaggagaaccgtccTGTATTCTTGTAAaggaataacaaaatttga
ttggccaTGTTTTCAACTgtcattaggatctgggaaataataataataaa
taataccGGGtaacccacgaaaaagttcagacgcttcccgacgtcttgag
gccgaaaaaatgtcccaaagtgcttggagttttgatatttagaaagtaga
tatcctaacttaaaatttgggccatcactttttaaatttgactaacttgt
tctctacttatgagcatttaaagtcaaaattcacttttcgaaaagtgtaa
aaaacacgtaaaaaagaggtattaaattcacgcaatcaattagaaaatca
cttacaattgacttatttaacgagttttatgacattaataataataaaaa
cacctttgaaagtagtttttgtttaaaacaagactagtttttaaaaaaaa
ttggcgctttcatagatttttttcaaaaactgtatataaaaaacgtctaa
aaatatcaaatttaataccccttttttacgtattttttacactttccgta
aagtgaattttgactttaaaagagaacaagttggtcaaatttaaaaagtg
atagctcaaattttaatttaggatatctactttctaaatatcaaaactcc
aagcactttgggacatttgttcggcctcaagacgtcgggaaacgtctgaa
ctttttcgtgggtcacccggtagaataagaaatcatagcatggatctcca
ggctaacaTCAGCTCTTGAAGTGATTCAtcatttttctctgattttaaat
ttaatgttttgttgATCTAAAAACCAGGTGtataggtccataaaagtatc
attttttgtcttttttagctTGAGCTGAGTGACAATAGGATATCAACAGG
ATTGGATTATTTACTAAAATTACCTGGTTTAGCTTACCTCAGTCTCAGTG
GAAACAGaatcaaagactttgaaagcCTTTCTCCATTGGTAAGCTGAAAC
TATATTATTCCaattaatttgttttttggAAAACTTAAACAAAACACtca
agaaaattttgtttgcaatgttaATTTTGTGGTGCACACTGTATAAAACA
tataacaaatattttttactgACTTGTTTCTTCATGTAGGCAAATATTAT
AGTCACTACAAataatttattatatttttttcttaatagGCTAAACTTAG
TAACTTGAAGAGTTTGGATTTGTTTAACTGCGAAGTCACTTGTGAAAAGG
ATTATCGGGCCAAAGTATTTGAGCTCATCCCGCAGCTGAAATTTCTTGAT
GGGGCTGACAGGTAACTTTTATGCTTATACCAGGATCACTGTAAATAACT
ATTAATGAAATATAGTATTGTTGTATACCTGTTAGCCTTTTTAATCTACA
TTAATTATTGATGTTACTGTGTTGTATCACATCAGTTATTTCACAATTCA
AGGTATTGTTACCCGTTGGAATGCAATGTCTTATGAAGGggatttttttg
atttggtttgatcTGGTTTGATAATGAAAACAAGGTCCATGTGGCATTTC
TAATTGCCCTGCATTTAGAATACTTGCAGATTATTTTGGgtaataataaa
acatatattgcATGTCTTCTTTTCAGTAAACTCACCTTGAGGTAATAAAA
TCAGAATATCTGATGAAAGGctaatcaatctgaatcaatatcTGCTTTAT
TGAATTGTATCAAATCAATGAAATATaatcaaaatgaattttaattttta
ttattctttTTGTTCAGAGACGACAAAGAAATGGAAGAGTCTGAGTCagg
taattatttttctgattttaataataatattgaattttgagtttctgtca
aaataatttaccagCAGCTCGCGTTTGTCAAGTCGCATTGTCTGTCAACg
atgtgattcctactccttcatgggtaggacccattcggGAGGGCTTATAT
CTATTTACCAAAACAAGATTAATACTAAACACCTCCCTCTAAAATCAACC
AGTGAATGTGAAATTTAtttgagaattttactgaaAAGTGAcggtgaaaa
caaaaattttgataaatttcctTCAAACACTTAGCAATGGTTGCCTCCCT
TGATTATATTACTCTTACAGTAAATTGGACACAAAAGATTAATTTCCAAT
TTTCACAGACTTTTATgattttaattgaaattttcaccaattttacAGAA
GGAGAAGAGGACGAAGAAGATGATGACGATGAAGAAGGCGAAGATGAAGG
TATTATTTTTCACTTTGCATTTTCTGTTTATTTGAGGATGTTCGACCTTT
AAAGGGCATAGAAATTTTGCAAGGGACCACTCACATATCTATTTTCCCCA
TTGCTTACGTGAAAATGACGCAAAAGACCCTCCCACCCcttgaaatttaa
tccccgcgaaagtttatcccattaaaaagtattcttaagaaattaaaaaa
acaacagttttttctgttaaccaaataaaaaatgactgtattcttatcca
AAATTTGTGAAACTCATCCTAGTGAGTATTCTAATATTCTTACGAATTGA
CCAagtttcaccctgatattcttatagaaggtatgcttataaaattaAAT
GCGTGTAAGTAattatcaaatttcaatttttcaaagtataaGGTTTATGT
CTCAAGGAGAATCTAGGCTAAATTGCTGTGTTTTAAATCCATTAACTGTC
TCATCAAGACAAAAGACCATTTCCATTTATTTAGACGGTGTAGAGAATGG
TGTAACAGAAGATGACGATGACGAGGATGAAGATACTGAAATTGTAGGTA
TCGATGATGAGGATGATGATGAATTGGAAGAAGAGGAACTAGATGAAGAT
GCTGATGGTGGATTGGAAGAAATTGTTGATGGTGGTGAGGATGAAAATGA
AGAGGATGATGAGGACGATGATGATGACGAAGAAGAAGTTGTCATCACTG
CTGAAAATGATGGTTTATTTCTACTACATTTTTTCTACATGCCTTTTTAT
TAGTATAGCATAAGCATATGCAGGTTCAAACCTTGAAAAAACAGATTTTG
GCCAAGTCGGCCAAATTAagctttcaccaaaatttctaTCCTTAAGGTAG
TCTGTTTCAATGACACATCTACAGCAGGATTTTTTTATTGAGAGGCTTTT
TAGCTAATAACCTTTGTTAGGTCAGTAGCTAAGAAGCATTAAATAACCAA
TTCTCTACAAGCTCTTCGAGTACTACGTTAAAATTCGCGGATGCTTGGTG
GATTGTTTTGTTCTAATTGTCAACTTAAGAGCAAGAACCAACAATGTCAA
TGACACAATTTGCTTTCTACCCCGCCTTCCTTGTTAGAAGTCAGTTAAAA
GTCAGCCGAGTATGCTGCACATCTACTGTGTAAAATCAATGTAGCTCTTG
ACGTCAATGAAGTATCTTTTCTAagcaaatatttgaaagtttaaaaaagt
gcACCGTCCAAGTTAAGTCTTTGATTCAGTCAAATAAATATATTAGTAGC
AACATGTTTTCTACTCCAATTGATCAGGATTGATTGACAGagaagaagaa
gaggaagacgatgatgatgatgacgacGACGATGAATTAGAAGAAAGTGA
CGAAGACGAAGAACTTGGTTTGGATTACCTCACTAAAGAAAACCTCTCTG
TAAGTACAATTCAAGGGGTTTAAGATTATTCTTCTAGGTATAACGTTTTA
GTATTACAGAGAGACCTTTTATAAATTAGATAACGTCAACAAAGAAAACC
TTTCTGCAAGGACAATCCGAGCGAGTCTTTATCGAATTAGATATGgtgaa
attttgagatggaaTTATATCAACTAAGAACAGTCCGTCCAATGGGTCAA
GAAGCCTCCTTCGAAAGAGCTATTAGCTGAGTAGCTTCATCCCTGTGAAA
GTTTAACTACAATCCAATTGATTGTTTCCAAAAAACGTTTTGACCAATAT
TTTAATTTTCCCTTTCGGATCATTCAATGTCTGTAGTCATGAATAAATGT
TCGAAATGGGTATCAATGGTCTGCAATATGTAGGTAATTACCCTTCTCAA
GATTCGTTCTTACCAATATTTTAACTATTTAATTAATTATAATTGTTAGG
AGGAAGACGAAGACGAGGAAGATTTCAACCCTGAAGAAGTCgacgatgaa
gaagaagaactctctgaagaagaagaagagattATGGAAGAACAGAGAGG
TGTCAAACGAAAACATGAAGGCGACCATTCACGTGCAGATGAGGAGTCAT
AACATTGTCAATACATCATCAACACACAACAATTTAACTGCCGTGGGAAG
AATCTTTTCATTGTTAACACCCTGGAGGTGTGGTATGGTTTATTGATGGC
GAAAAGTGAGAAAGAATTAAACGGGTGAAGGATGATCTGCCGGTCAGACG
CATTCTTTTGAAGTAGGCTGAAACACACGGCAATATTTTATTATAGATAG
AACTCCTGTGTTTTCTGGAATCCGAGAGTGATTCTTGGACACGCTACTTG
ACAGAGACTTGCTTGATAAAAAGACCCTCAATGACTTACGATGTTTTATT
TTCCTCGTTTACAATGATGCCCAATTATTCCTGGAATTTAATAAATATCA
CAGTTTTATTCACCAAACATCACCATTACAGCATTTGCTAATCTTAaggt
tttttatttatattttatttatgactgggttttttttttcacgtgCTCTT
TAAAACCGTTttccctttgttttgaaatatgacTATCTGATAGGTCAGGG
TTGACTAAGCTAGCACCTAGAAAAGAATGATATTGATTATACAAAGTCTC
CCCTAGTTAAATACGGGGCTTGAAACTAAATTCACATTGGGACCGCAAGA
AAAAAGATTCGGATCATATCGATATTTGCCATTTAAAGATCTAATagaaa
atgatgaaatcaaaCCTGATGAGCCAAACACCTGTAACACAATAGGAAAT
TTTCAGAGGCCAGAAAGTAATGAAGTAAAAATGATTAATCCtaagtattt
tttatcaatagtATATTATTACGTTTAAAAGTAAGGAATGGAAAGGCAAG
TGGTAAAAGAAATTTATCTTGTTTGTTATttgaaaacataaaatattttt
acgttGAACTGTTCGAATAGACCAAAAAAAGTTCTATCCCTGTATATATT
GTATAATGTTTGTATAATTTGTTATGGCtaatttttaggcaaaaagaaaA
GTTATACGAACAGTAAAT

Coding sequence (CDS) from alignment at sc0000011:1055167..1062634+

>TCONS_00001627 ID=TCONS_00001627|Name=TCONS_00001627|organism=Clytia hemisphaerica|type=CDS|length=10680bp|location=Sequence derived from alignment at sc0000011:1055167..1062634+ (Clytia hemisphaerica)
GTAGGAATGAAAATCAAGGTAGCGATTTCTTTTACTGGCAAATTTGAAAT
GGAAAATCGAATTGAACTTGAGAGGAGGGGGCAAGAGAAAAAAGAGATTA
CTGAACTCAACCTTGATAATACCAGATCCACTTCAATTGTTGGATTGACA
GATGAATACTcaaatttggaatatctttcaTTGATCAATGTTGGGTTAAC
AACCCTAAAAGGCTTGCCAGGACttgagaaattaaaaaaactTGAGCTGA
GTGACAATAGGATATCAACAGGATTGGATTATTTACTAAAATTACCTGGT
TTAGCTTACCTCAGTCTCAGTGGAAACAGaatcaaagactttgaaagcCT
TTCTCCATTGGCTAAACTTAGTAACTTGAAGAGTTTGGATTTGTTTAACT
GCGAAGTCACTTGTGAAAAGGATTATCGGGCCAAAGTATTTGAGCTCATC
CCGCAGCTGAAATTTCTTGATGGGGCTGACAGAGACGACAAAGAAATGGA
AGAGTCTGAGTCagAAGGAGAAGAGGACGAAGAAGATGATGACGATGAAG
AAGGCGAAGATGAAGACGGTGTAGAGAATGGTGTAACAGAAGATGACGAT
GACGAGGATGAAGATACTGAAATTGTAGGTATCGATGATGAGGATGATGA
TGAATTGGAAGAAGAGGAACTAGATGAAGATGCTGATGGTGGATTGGAAG
AAATTGTTGATGGTGGTGAGGATGAAAATGAAGAGGATGATGAGGACGAT
GATGATGACGAAGAAGAAGTTGTCATCACTGCTGAAAATGATGGATTGAT
TGACAGagaagaagaagaggaagacgatgatgatgatgacgacGACGATG
AATTAGAAGAAAGTGACGAAGACGAAGAACTTGGTTTGGATTACCTCACT
AAAGAAAACCTCTCTGAGGAAGACGAAGACGAGGAAGATTTCAACCCTGA
AGAAGTCgacgatgaagaagaagaactctctgaagaagaagaagagattA
TGGAAGAACAGAGAGGTGTCAAACGAAAACATGAAGGCGACCATTCACGT
GCAGATGAGGAGTCATAAGTAGGAATGAAAATCAAGGTAGCGATTTCTTT
TACTGGCAAATTTGAAATGGAAAATCGAATTGAACTTGAGAGGAGGGGGC
AAGAGAAAAAAGAGATTACTGAACTCAACCTTGATAATACCAGATCCACT
TCAATTGTTGGATTGACAGATGAATACTcaaatttggaatatctttcaTT
GATCAATGTTGGGTTAACAACCCTAAAAGGCTTGCCAGGACttgagaaat
taaaaaaactTGAGCTGAGTGACAATAGGATATCAACAGGATTGGATTAT
TTACTAAAATTACCTGGTTTAGCTTACCTCAGTCTCAGTGGAAACAGaat
caaagactttgaaagcCTTTCTCCATTGGCTAAACTTAGTAACTTGAAGA
GTTTGGATTTGTTTAACTGCGAAGTCACTTGTGAAAAGGATTATCGGGCC
AAAGTATTTGAGCTCATCCCGCAGCTGAAATTTCTTGATGGGGCTGACAG
AGACGACAAAGAAATGGAAGAGTCTGAGTCagAAGGAGAAGAGGACGAAG
AAGATGATGACGATGAAGAAGGCGAAGATGAAGACGGTGTAGAGAATGGT
GTAACAGAAGATGACGATGACGAGGATGAAGATACTGAAATTGTAGGTAT
CGATGATGAGGATGATGATGAATTGGAAGAAGAGGAACTAGATGAAGATG
CTGATGGTGGATTGGAAGAAATTGTTGATGGTGGTGAGGATGAAAATGAA
GAGGATGATGAGGACGATGATGATGACGAAGAAGAAGTTGTCATCACTGC
TGAAAATGATGGATTGATTGACAGagaagaagaagaggaagacgatgatg
atgatgacgacGACGATGAATTAGAAGAAAGTGACGAAGACGAAGAACTT
GGTTTGGATTACCTCACTAAAGAAAACCTCTCTGAGGAAGACGAAGACGA
GGAAGATTTCAACCCTGAAGAAGTCgacgatgaagaagaagaactctctg
aagaagaagaagagattATGGAAGAACAGAGAGGTGTCAAACGAAAACAT
GAAGGCGACCATTCACGTGCAGATGAGGAGTCATAAGTAGGAATGAAAAT
CAAGGTAGCGATTTCTTTTACTGGCAAATTTGAAATGGAAAATCGAATTG
AACTTGAGAGGAGGGGGCAAGAGAAAAAAGAGATTACTGAACTCAACCTT
GATAATACCAGATCCACTTCAATTGTTGGATTGACAGATGAATACTcaaa
tttggaatatctttcaTTGATCAATGTTGGGTTAACAACCCTAAAAGGCT
TGCCAGGACttgagaaattaaaaaaactTGAGCTGAGTGACAATAGGATA
TCAACAGGATTGGATTATTTACTAAAATTACCTGGTTTAGCTTACCTCAG
TCTCAGTGGAAACAGaatcaaagactttgaaagcCTTTCTCCATTGGCTA
AACTTAGTAACTTGAAGAGTTTGGATTTGTTTAACTGCGAAGTCACTTGT
GAAAAGGATTATCGGGCCAAAGTATTTGAGCTCATCCCGCAGCTGAAATT
TCTTGATGGGGCTGACAGAGACGACAAAGAAATGGAAGAGTCTGAGTCag
AAGGAGAAGAGGACGAAGAAGATGATGACGATGAAGAAGGCGAAGATGAA
GACGGTGTAGAGAATGGTGTAACAGAAGATGACGATGACGAGGATGAAGA
TACTGAAATTGTAGGTATCGATGATGAGGATGATGATGAATTGGAAGAAG
AGGAACTAGATGAAGATGCTGATGGTGGATTGGAAGAAATTGTTGATGGT
GGTGAGGATGAAAATGAAGAGGATGATGAGGACGATGATGATGACGAAGA
AGAAGTTGTCATCACTGCTGAAAATGATGGATTGATTGACAGagaagaag
aagaggaagacgatgatgatgatgacgacGACGATGAATTAGAAGAAAGT
GACGAAGACGAAGAACTTGGTTTGGATTACCTCACTAAAGAAAACCTCTC
TGAGGAAGACGAAGACGAGGAAGATTTCAACCCTGAAGAAGTCgacgatg
aagaagaagaactctctgaagaagaagaagagattATGGAAGAACAGAGA
GGTGTCAAACGAAAACATGAAGGCGACCATTCACGTGCAGATGAGGAGTC
ATAAGTAGGAATGAAAATCAAGGTAGCGATTTCTTTTACTGGCAAATTTG
AAATGGAAAATCGAATTGAACTTGAGAGGAGGGGGCAAGAGAAAAAAGAG
ATTACTGAACTCAACCTTGATAATACCAGATCCACTTCAATTGTTGGATT
GACAGATGAATACTcaaatttggaatatctttcaTTGATCAATGTTGGGT
TAACAACCCTAAAAGGCTTGCCAGGACttgagaaattaaaaaaactTGAG
CTGAGTGACAATAGGATATCAACAGGATTGGATTATTTACTAAAATTACC
TGGTTTAGCTTACCTCAGTCTCAGTGGAAACAGaatcaaagactttgaaa
gcCTTTCTCCATTGGCTAAACTTAGTAACTTGAAGAGTTTGGATTTGTTT
AACTGCGAAGTCACTTGTGAAAAGGATTATCGGGCCAAAGTATTTGAGCT
CATCCCGCAGCTGAAATTTCTTGATGGGGCTGACAGAGACGACAAAGAAA
TGGAAGAGTCTGAGTCagAAGGAGAAGAGGACGAAGAAGATGATGACGAT
GAAGAAGGCGAAGATGAAGACGGTGTAGAGAATGGTGTAACAGAAGATGA
CGATGACGAGGATGAAGATACTGAAATTGTAGGTATCGATGATGAGGATG
ATGATGAATTGGAAGAAGAGGAACTAGATGAAGATGCTGATGGTGGATTG
GAAGAAATTGTTGATGGTGGTGAGGATGAAAATGAAGAGGATGATGAGGA
CGATGATGATGACGAAGAAGAAGTTGTCATCACTGCTGAAAATGATGGAT
TGATTGACAGagaagaagaagaggaagacgatgatgatgatgacgacGAC
GATGAATTAGAAGAAAGTGACGAAGACGAAGAACTTGGTTTGGATTACCT
CACTAAAGAAAACCTCTCTGAGGAAGACGAAGACGAGGAAGATTTCAACC
CTGAAGAAGTCgacgatgaagaagaagaactctctgaagaagaagaagag
attATGGAAGAACAGAGAGGTGTCAAACGAAAACATGAAGGCGACCATTC
ACGTGCAGATGAGGAGTCATAAGTAGGAATGAAAATCAAGGTAGCGATTT
CTTTTACTGGCAAATTTGAAATGGAAAATCGAATTGAACTTGAGAGGAGG
GGGCAAGAGAAAAAAGAGATTACTGAACTCAACCTTGATAATACCAGATC
CACTTCAATTGTTGGATTGACAGATGAATACTcaaatttggaatatcttt
caTTGATCAATGTTGGGTTAACAACCCTAAAAGGCTTGCCAGGACttgag
aaattaaaaaaactTGAGCTGAGTGACAATAGGATATCAACAGGATTGGA
TTATTTACTAAAATTACCTGGTTTAGCTTACCTCAGTCTCAGTGGAAACA
GaatcaaagactttgaaagcCTTTCTCCATTGGCTAAACTTAGTAACTTG
AAGAGTTTGGATTTGTTTAACTGCGAAGTCACTTGTGAAAAGGATTATCG
GGCCAAAGTATTTGAGCTCATCCCGCAGCTGAAATTTCTTGATGGGGCTG
ACAGAGACGACAAAGAAATGGAAGAGTCTGAGTCagAAGGAGAAGAGGAC
GAAGAAGATGATGACGATGAAGAAGGCGAAGATGAAGACGGTGTAGAGAA
TGGTGTAACAGAAGATGACGATGACGAGGATGAAGATACTGAAATTGTAG
GTATCGATGATGAGGATGATGATGAATTGGAAGAAGAGGAACTAGATGAA
GATGCTGATGGTGGATTGGAAGAAATTGTTGATGGTGGTGAGGATGAAAA
TGAAGAGGATGATGAGGACGATGATGATGACGAAGAAGAAGTTGTCATCA
CTGCTGAAAATGATGGATTGATTGACAGagaagaagaagaggaagacgat
gatgatgatgacgacGACGATGAATTAGAAGAAAGTGACGAAGACGAAGA
ACTTGGTTTGGATTACCTCACTAAAGAAAACCTCTCTGAGGAAGACGAAG
ACGAGGAAGATTTCAACCCTGAAGAAGTCgacgatgaagaagaagaactc
tctgaagaagaagaagagattATGGAAGAACAGAGAGGTGTCAAACGAAA
ACATGAAGGCGACCATTCACGTGCAGATGAGGAGTCATAAGTAGGAATGA
AAATCAAGGTAGCGATTTCTTTTACTGGCAAATTTGAAATGGAAAATCGA
ATTGAACTTGAGAGGAGGGGGCAAGAGAAAAAAGAGATTACTGAACTCAA
CCTTGATAATACCAGATCCACTTCAATTGTTGGATTGACAGATGAATACT
caaatttggaatatctttcaTTGATCAATGTTGGGTTAACAACCCTAAAA
GGCTTGCCAGGACttgagaaattaaaaaaactTGAGCTGAGTGACAATAG
GATATCAACAGGATTGGATTATTTACTAAAATTACCTGGTTTAGCTTACC
TCAGTCTCAGTGGAAACAGaatcaaagactttgaaagcCTTTCTCCATTG
GCTAAACTTAGTAACTTGAAGAGTTTGGATTTGTTTAACTGCGAAGTCAC
TTGTGAAAAGGATTATCGGGCCAAAGTATTTGAGCTCATCCCGCAGCTGA
AATTTCTTGATGGGGCTGACAGAGACGACAAAGAAATGGAAGAGTCTGAG
TCagAAGGAGAAGAGGACGAAGAAGATGATGACGATGAAGAAGGCGAAGA
TGAAGACGGTGTAGAGAATGGTGTAACAGAAGATGACGATGACGAGGATG
AAGATACTGAAATTGTAGGTATCGATGATGAGGATGATGATGAATTGGAA
GAAGAGGAACTAGATGAAGATGCTGATGGTGGATTGGAAGAAATTGTTGA
TGGTGGTGAGGATGAAAATGAAGAGGATGATGAGGACGATGATGATGACG
AAGAAGAAGTTGTCATCACTGCTGAAAATGATGGATTGATTGACAGagaa
gaagaagaggaagacgatgatgatgatgacgacGACGATGAATTAGAAGA
AAGTGACGAAGACGAAGAACTTGGTTTGGATTACCTCACTAAAGAAAACC
TCTCTGAGGAAGACGAAGACGAGGAAGATTTCAACCCTGAAGAAGTCgac
gatgaagaagaagaactctctgaagaagaagaagagattATGGAAGAACA
GAGAGGTGTCAAACGAAAACATGAAGGCGACCATTCACGTGCAGATGAGG
AGTCATAAGTAGGAATGAAAATCAAGGTAGCGATTTCTTTTACTGGCAAA
TTTGAAATGGAAAATCGAATTGAACTTGAGAGGAGGGGGCAAGAGAAAAA
AGAGATTACTGAACTCAACCTTGATAATACCAGATCCACTTCAATTGTTG
GATTGACAGATGAATACTcaaatttggaatatctttcaTTGATCAATGTT
GGGTTAACAACCCTAAAAGGCTTGCCAGGACttgagaaattaaaaaaact
TGAGCTGAGTGACAATAGGATATCAACAGGATTGGATTATTTACTAAAAT
TACCTGGTTTAGCTTACCTCAGTCTCAGTGGAAACAGaatcaaagacttt
gaaagcCTTTCTCCATTGGCTAAACTTAGTAACTTGAAGAGTTTGGATTT
GTTTAACTGCGAAGTCACTTGTGAAAAGGATTATCGGGCCAAAGTATTTG
AGCTCATCCCGCAGCTGAAATTTCTTGATGGGGCTGACAGAGACGACAAA
GAAATGGAAGAGTCTGAGTCagAAGGAGAAGAGGACGAAGAAGATGATGA
CGATGAAGAAGGCGAAGATGAAGACGGTGTAGAGAATGGTGTAACAGAAG
ATGACGATGACGAGGATGAAGATACTGAAATTGTAGGTATCGATGATGAG
GATGATGATGAATTGGAAGAAGAGGAACTAGATGAAGATGCTGATGGTGG
ATTGGAAGAAATTGTTGATGGTGGTGAGGATGAAAATGAAGAGGATGATG
AGGACGATGATGATGACGAAGAAGAAGTTGTCATCACTGCTGAAAATGAT
GGATTGATTGACAGagaagaagaagaggaagacgatgatgatgatgacga
cGACGATGAATTAGAAGAAAGTGACGAAGACGAAGAACTTGGTTTGGATT
ACCTCACTAAAGAAAACCTCTCTGAGGAAGACGAAGACGAGGAAGATTTC
AACCCTGAAGAAGTCgacgatgaagaagaagaactctctgaagaagaaga
agagattATGGAAGAACAGAGAGGTGTCAAACGAAAACATGAAGGCGACC
ATTCACGTGCAGATGAGGAGTCATAAGTAGGAATGAAAATCAAGGTAGCG
ATTTCTTTTACTGGCAAATTTGAAATGGAAAATCGAATTGAACTTGAGAG
GAGGGGGCAAGAGAAAAAAGAGATTACTGAACTCAACCTTGATAATACCA
GATCCACTTCAATTGTTGGATTGACAGATGAATACTcaaatttggaatat
ctttcaTTGATCAATGTTGGGTTAACAACCCTAAAAGGCTTGCCAGGACt
tgagaaattaaaaaaactTGAGCTGAGTGACAATAGGATATCAACAGGAT
TGGATTATTTACTAAAATTACCTGGTTTAGCTTACCTCAGTCTCAGTGGA
AACAGaatcaaagactttgaaagcCTTTCTCCATTGGCTAAACTTAGTAA
CTTGAAGAGTTTGGATTTGTTTAACTGCGAAGTCACTTGTGAAAAGGATT
ATCGGGCCAAAGTATTTGAGCTCATCCCGCAGCTGAAATTTCTTGATGGG
GCTGACAGAGACGACAAAGAAATGGAAGAGTCTGAGTCagAAGGAGAAGA
GGACGAAGAAGATGATGACGATGAAGAAGGCGAAGATGAAGACGGTGTAG
AGAATGGTGTAACAGAAGATGACGATGACGAGGATGAAGATACTGAAATT
GTAGGTATCGATGATGAGGATGATGATGAATTGGAAGAAGAGGAACTAGA
TGAAGATGCTGATGGTGGATTGGAAGAAATTGTTGATGGTGGTGAGGATG
AAAATGAAGAGGATGATGAGGACGATGATGATGACGAAGAAGAAGTTGTC
ATCACTGCTGAAAATGATGGATTGATTGACAGagaagaagaagaggaaga
cgatgatgatgatgacgacGACGATGAATTAGAAGAAAGTGACGAAGACG
AAGAACTTGGTTTGGATTACCTCACTAAAGAAAACCTCTCTGAGGAAGAC
GAAGACGAGGAAGATTTCAACCCTGAAGAAGTCgacgatgaagaagaaga
actctctgaagaagaagaagagattATGGAAGAACAGAGAGGTGTCAAAC
GAAAACATGAAGGCGACCATTCACGTGCAGATGAGGAGTCATAAGTAGGA
ATGAAAATCAAGGTAGCGATTTCTTTTACTGGCAAATTTGAAATGGAAAA
TCGAATTGAACTTGAGAGGAGGGGGCAAGAGAAAAAAGAGATTACTGAAC
TCAACCTTGATAATACCAGATCCACTTCAATTGTTGGATTGACAGATGAA
TACTcaaatttggaatatctttcaTTGATCAATGTTGGGTTAACAACCCT
AAAAGGCTTGCCAGGACttgagaaattaaaaaaactTGAGCTGAGTGACA
ATAGGATATCAACAGGATTGGATTATTTACTAAAATTACCTGGTTTAGCT
TACCTCAGTCTCAGTGGAAACAGaatcaaagactttgaaagcCTTTCTCC
ATTGGCTAAACTTAGTAACTTGAAGAGTTTGGATTTGTTTAACTGCGAAG
TCACTTGTGAAAAGGATTATCGGGCCAAAGTATTTGAGCTCATCCCGCAG
CTGAAATTTCTTGATGGGGCTGACAGAGACGACAAAGAAATGGAAGAGTC
TGAGTCagAAGGAGAAGAGGACGAAGAAGATGATGACGATGAAGAAGGCG
AAGATGAAGACGGTGTAGAGAATGGTGTAACAGAAGATGACGATGACGAG
GATGAAGATACTGAAATTGTAGGTATCGATGATGAGGATGATGATGAATT
GGAAGAAGAGGAACTAGATGAAGATGCTGATGGTGGATTGGAAGAAATTG
TTGATGGTGGTGAGGATGAAAATGAAGAGGATGATGAGGACGATGATGAT
GACGAAGAAGAAGTTGTCATCACTGCTGAAAATGATGGATTGATTGACAG
agaagaagaagaggaagacgatgatgatgatgacgacGACGATGAATTAG
AAGAAAGTGACGAAGACGAAGAACTTGGTTTGGATTACCTCACTAAAGAA
AACCTCTCTGAGGAAGACGAAGACGAGGAAGATTTCAACCCTGAAGAAGT
CgacgatgaagaagaagaactctctgaagaagaagaagagattATGGAAG
AACAGAGAGGTGTCAAACGAAAACATGAAGGCGACCATTCACGTGCAGAT
GAGGAGTCATAAGTAGGAATGAAAATCAAGGTAGCGATTTCTTTTACTGG
CAAATTTGAAATGGAAAATCGAATTGAACTTGAGAGGAGGGGGCAAGAGA
AAAAAGAGATTACTGAACTCAACCTTGATAATACCAGATCCACTTCAATT
GTTGGATTGACAGATGAATACTcaaatttggaatatctttcaTTGATCAA
TGTTGGGTTAACAACCCTAAAAGGCTTGCCAGGACttgagaaattaaaaa
aactTGAGCTGAGTGACAATAGGATATCAACAGGATTGGATTATTTACTA
AAATTACCTGGTTTAGCTTACCTCAGTCTCAGTGGAAACAGaatcaaaga
ctttgaaagcCTTTCTCCATTGGCTAAACTTAGTAACTTGAAGAGTTTGG
ATTTGTTTAACTGCGAAGTCACTTGTGAAAAGGATTATCGGGCCAAAGTA
TTTGAGCTCATCCCGCAGCTGAAATTTCTTGATGGGGCTGACAGAGACGA
CAAAGAAATGGAAGAGTCTGAGTCagAAGGAGAAGAGGACGAAGAAGATG
ATGACGATGAAGAAGGCGAAGATGAAGACGGTGTAGAGAATGGTGTAACA
GAAGATGACGATGACGAGGATGAAGATACTGAAATTGTAGGTATCGATGA
TGAGGATGATGATGAATTGGAAGAAGAGGAACTAGATGAAGATGCTGATG
GTGGATTGGAAGAAATTGTTGATGGTGGTGAGGATGAAAATGAAGAGGAT
GATGAGGACGATGATGATGACGAAGAAGAAGTTGTCATCACTGCTGAAAA
TGATGGATTGATTGACAGagaagaagaagaggaagacgatgatgatgatg
acgacGACGATGAATTAGAAGAAAGTGACGAAGACGAAGAACTTGGTTTG
GATTACCTCACTAAAGAAAACCTCTCTGAGGAAGACGAAGACGAGGAAGA
TTTCAACCCTGAAGAAGTCgacgatgaagaagaagaactctctgaagaag
aagaagagattATGGAAGAACAGAGAGGTGTCAAACGAAAACATGAAGGC
GACCATTCACGTGCAGATGAGGAGTCATAA
Gene-mRNA-Prot
This transcript is a part of the following gene feature(s):
Feature NameUnique NameSpeciesType
XLOC_000846XLOC_000846Clytia hemisphaericagene
The following polypeptide feature(s) derives from this transcript:
Feature NameUnique NameSpeciesType
TCONS_00001627-proteinTCONS_00001627-proteinClytia hemisphaericapolypeptide
The following exon feature(s) are a part of this transcript:
Feature NameUnique NameSpeciesType
TCONS_00001627-exon-sc0000011-1491911889:1055167..1055184TCONS_00001627-exon-sc0000011-1491911889:1055167..1055184Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1510915933:1055167..1055184TCONS_00001627-exon-sc0000011-1510915933:1055167..1055184Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1575043694:1055167..1055184TCONS_00001627-exon-sc0000011-1575043694:1055167..1055184Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1491911889:1055683..1055760TCONS_00001627-exon-sc0000011-1491911889:1055683..1055760Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1510915933:1055683..1055760TCONS_00001627-exon-sc0000011-1510915933:1055683..1055760Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1575043694:1055683..1055760TCONS_00001627-exon-sc0000011-1575043694:1055683..1055760Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1491911889:1055875..1056018TCONS_00001627-exon-sc0000011-1491911889:1055875..1056018Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1510915933:1055875..1056018TCONS_00001627-exon-sc0000011-1510915933:1055875..1056018Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1575043694:1055875..1056018TCONS_00001627-exon-sc0000011-1575043694:1055875..1056018Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1491911889:1058285..1058404TCONS_00001627-exon-sc0000011-1491911889:1058285..1058404Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1510915933:1058285..1058404TCONS_00001627-exon-sc0000011-1510915933:1058285..1058404Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1575043694:1058285..1058404TCONS_00001627-exon-sc0000011-1575043694:1058285..1058404Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1491911889:1058606..1058727TCONS_00001627-exon-sc0000011-1491911889:1058606..1058727Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1510915933:1058606..1058727TCONS_00001627-exon-sc0000011-1510915933:1058606..1058727Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1575043694:1058606..1058727TCONS_00001627-exon-sc0000011-1575043694:1058606..1058727Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1491911889:1059184..1059215TCONS_00001627-exon-sc0000011-1491911889:1059184..1059215Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1510915933:1059184..1059215TCONS_00001627-exon-sc0000011-1510915933:1059184..1059215Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1575043694:1059184..1059215TCONS_00001627-exon-sc0000011-1575043694:1059184..1059215Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1491911889:1059615..1059665TCONS_00001627-exon-sc0000011-1491911889:1059615..1059665Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1510915933:1059615..1059665TCONS_00001627-exon-sc0000011-1510915933:1059615..1059665Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1575043694:1059615..1059665TCONS_00001627-exon-sc0000011-1575043694:1059615..1059665Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1491911889:1060151..1060378TCONS_00001627-exon-sc0000011-1491911889:1060151..1060378Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1510915933:1060151..1060378TCONS_00001627-exon-sc0000011-1510915933:1060151..1060378Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1575043694:1060151..1060378TCONS_00001627-exon-sc0000011-1575043694:1060151..1060378Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1491911889:1060944..1061065TCONS_00001627-exon-sc0000011-1491911889:1060944..1061065Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1510915933:1060944..1061065TCONS_00001627-exon-sc0000011-1510915933:1060944..1061065Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1575043694:1060944..1061065TCONS_00001627-exon-sc0000011-1575043694:1060944..1061065Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1491911889:1061516..1062634TCONS_00001627-exon-sc0000011-1491911889:1061516..1062634Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1510915933:1061516..1062634TCONS_00001627-exon-sc0000011-1510915933:1061516..1062634Clytia hemisphaericaexon
TCONS_00001627-exon-sc0000011-1575043694:1061516..1062634TCONS_00001627-exon-sc0000011-1575043694:1061516..1062634Clytia hemisphaericaexon
Position
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
sc0000011supercontigsc0000011:1055167..1062634 +
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
51.7816	47.2725	153.408	148.539	189.388	130.62	94.4685	100.171	54.1634	50.5649	41.3476	39.0532	28.3708	27.7906	31.0155	38.7221	62.1311	67.7292	21.2654	19.9465	42.6049	37.1155	52.2982	44.4949	63.9139	65.3887	16.3161	10.9777	26.3833	30.0639
Annotated Terms
The following terms have been associated with this transcript:
Vocabulary: INTERPRO
TermDefinition
IPR032675L_dom-like
IPR001611Leu-rich_rpt
Vocabulary: Molecular Function
TermDefinition
GO:0005515protein binding
GO Annotation
GO Assignments
This transcript is annotated with the following GO terms.
Category Term Accession Term Name
molecular_function GO:0005515 protein binding
Blast
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BLAST of TCONS_00001627 vs. Swiss-Prot (Human)
Match: AN32A (Acidic leucine-rich nuclear phosphoprotein 32 family member A OS=Homo sapiens GN=ANP32A PE=1 SV=1)

HSP 1 Score: 130.183 bits (326), Expect = 1.886e-33
Identity = 87/147 (59.18%), Postives = 106/147 (72.11%), Query Frame = 1 
Query:   43 FEMENRIELERRGQEKKEITELNLDNTRSTS--IVGLTDEYSNLEYLSLINVXXXXXXXXXXXXXXXXXXXSDNRISTGLDYLL-KLPGLAYLSLSGNRIKDFESLSPLAKLSNLKSLDLFNCEVTCEKDYRAKVFELIPQLKFLDG 474
             EM  RI LE R +   ++ EL LDN+RS    + GLTDE+  LE+LS INVGLT++  LP L KLKKLELSDNR+S GL+ L  K P L +L+LSGN+IKD  ++ PL KL NLKSLDLFNCEVT   DYR  VF+L+PQL +LDG
Sbjct:    1 MEMGRRIHLELRNRTPSDVKELVLDNSRSNEGKLEGLTDEFEELEFLSTINVGLTSIANLPKLNKLKKLELSDNRVSGGLEVLAEKCPNLTHLNLSGNKIKDLSTIEPLKKLENLKSLDLFNCEVTNLNDYRENVFKLLPQLTYLDG 147
The following BLAST results are available for this feature:
BLAST of TCONS_00001627 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
AN32A1.886e-3359.18Acidic leucine-rich nuclear phosphoprotein 32 fami... [more]
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