XLOC_012554 (gene) - C. hemisphaerica

Overview
NameXLOC_012554
Unique NameXLOC_012554
Typegene
OrganismClytia hemisphaerica (Jellyfish)

Sequence
The following sequences are available for this feature:

gene from alignment at sc0000414:220093..232208+

Legend: gene
Hold the cursor over a type above to highlight its positions in the sequence below.
>XLOC_012554 ID=XLOC_012554|Name=XLOC_012554|organism=Clytia hemisphaerica|type=gene|length=12116bp|location=Sequence derived from alignment at sc0000414:220093..232208+ (Clytia hemisphaerica)
CATACACGTGACATTGATTGCGTCGGTATATTGGCAAAATCACGCGTTTC
ACGGGATTTCAAAACATACcatgttttattgaaaaaggaATGATGCAATT
AACTTTAACAATTTAATCATTTCTAATTAGCTCGTTTAGACTTCATTGGA
CTTTGATcctcaaaatgtaaacaaaacaggAACGAAATATTATGAactgt
tctgtaaaatacaacgtATGCTCTTTGCAGTATAAATGCGACTAGTTGTA
ACTCACATAAGAAGCTTTTAGTGTATTGTATTTATTTTCTCCAGAgagga
aagaagaaaatttaaagaagtttaaattttaaagaaacGAAAAGGTGAGA
TATGTTTCTAAGCTGGATTCCTCTTTCCTCgttgtttttttgtaagaaat
tttAGTACAAGGTTCTTTGCTAAcagaaaattataaataaagaaagggaa
atttttgggaaaaagcGTGAAAATTGATATCTACAAGTGAAGTCAAATTT
AAGAAGAATATATTTTCTGTTTGAAgaattctttgttttcatttcactat
gtttgagtttctttttctttttcatcttcttgaAAATATGTTTGCTTTCA
AACGGTTTGGAAGAACAAAATATGAGGaagaataaaaacaagaaaatacg
AAAAGGTGTGTCGTAGGAGGTTTAGGTTAGAGTTGAGAAGGAATTGTTTT
CTTATGTAGAaaagtttttcatgttttcctttttgaattattgagaAATA
ATAGACTTTCTGTTTTTCGATTTTGCTAAATGCTTTTTTTTTTGTGGTAG
AAATAAATTCATGTTGCATGCAAAAAGATAAACCAGGTACAGTAAACCAA
TTTAAAGTTTCTCTGGAGATTTtgaggttttatgactttatgaGGTGTTT
GGGGGGATTTTGCTTTTAAGTTTTGGATGAAAAGTTTATGATACTAAATa
cacccttgtgtcacagacccgccaGGACCCCAGCCCAGCCCCCAgccccc
actgaaaaatttccCCAAATATTCGTCCTcggtggaaaaataccctacat
ttCCAGCCCACTgggattgactttgatttcatccccaattaaaattcaat
ggaaaaaattgcactctaaaccatccccactggaatttttgatatgggaa
acaatagaatttcaatcttccttgggatttcaatagacaTTTTCATCCCA
AACTGAGAACAAAACTTTCACCACTTTCATCGagtaaaaatcgaaaaaaa
attgtgagaaagtctctctaagggtcccaaaacgCCAATTCTTCCTCTCT
TTAAGGcttgattttcgatttttggctcagacatacccgtcacctcgcaa
acctagttaCACCCCTAAGGTACTAGTACCTAGACTTTATCAAGTGAGGT
CAGCAATGAAAAGTTGACGATTTTGTTTTCATGCTTGAGTGTCCTGACAG
GGGGAAGTGGGTATTATTTTGTTTGCATAGATATCCTGtacaaaaaaagt
ttgtttacattcgtgcATGAGAAACCACACTTTGTTCTGTCTGACGAACC
TTTGTACTATCACCATAAAGTTCAAAGTTCAACCGGGAGGTCTGTCTgac
ttttttcatcaaaacgaGAAAAACTAGTAAAAAAACTAGGTTCGTACTCA
GTTGTCAATCAACTGAAAAACAATAGATTTTTCATCAAGTTGTCAATCAA
ACTCTTTTTCATCAGgaaattaaaaattgatgaTAAAAAAGGGGAGATAT
ATCGCTCTGTAGaatctttcagttaaataacaacAAAAATCACAGAAATA
GCACAATCTAAACCAAAATCGCCACAAAAACATATAATTTCATGTCAACA
TAAATATCCATTTATGTAAAATGTGCGTCATAGTaagaaaaatcgtcaaa
aaaggtaaaaaagaaaATCCTCGAAAACTTCTTATTTGATTTAAATCAAC
TCTACAGACCCGAGTGtctatagtctgaatcgcagacctctatagatatc
cTTCCTATAAGagacttttttcgctagaggatgagcagaagcctagattG
CCTATAGTTTATAGTTTATGCTTATAGTTTTACTTTCAAATACCATACTG
TGTACCAAAACTCCTGGAGACCACCTAAGATTCAAAGTTATCCCTTTCTT
TCTGGACAGACTGAATCGAGTCCCTTAAATTTCGATTAAAATTCCTGCGA
CATTTTTTGAAGGGGGGAATGAATGACCCGGAATTTACTGATAAATTTTA
TAAGTTTTTTAAACGCTTATGATTACCAGCATATTCAAGCTGAGTaaatt
caagcaaaaaaaataaaaaaatgctaaaaataaaatacagaAAGTTTAGc
ctttgaatgtttttgtcttCCCCTCTTAGAGTCAGTAGGGTGCTTGGTAG
ATGATTGTGGTACGTTTCTTATAGGAACAAACTATCATAAGAAGCTTTGC
Agtctctaaaacacccgatttctcaagaaaatggacaaaaatactcacaa
aatggtgaaaataagaacacgctaagaacatttttaggctttaaacccaa
aaagttaagaacattcgaagggttcaaaattaaaaaaatgtgtattccAT
GACTCGATGCTATTCTCGAAACGAATTAAACGGTTTCACCAATTCACGTC
AGCTTTAAACAGCATGGTGTTTTATGATTAAATATATATACTTTATTTAA
GTTTAATAGATTTAACCAACACCTAACTATTTCCATATGCGATGACGTCT
ATCGACTCCATATTTGAGTTTTGCAGTGTTTAAGAAGGATTTATGATTTT
CCAGCTGTCATCACGAACCAGCCATCTTGTGACGATTTTTTTCTAGATAC
CCTTAACCTTGGCCTGAAGACTTTAGTTTTAATACTAGATAGATAGATGT
ATTATGACTCTACAGGGCCCGCGCGACGGTTTTtgaaagtgagggggcca
acaaaaatatagtgactaaggaggagcaaccatggtttgcgccgacgggc
cggaaaattttcgattttgacctatcttatttggctaaaacagcttcctt
tttgttctgattttctgaaagaaaactgTTAAGGTGGCCATCCactggaa
attgaaaaatcgacctTTTAACTTTAAATGTTGATTACTCAATAACTAAA
AATGATATGGGCTTGAAACTTCCAGGTATTGTTATTTATGACCTAAagtt
aatattaaaaaaaaaataaaaaaaaaaaattggaagacgGGGGTTTGGTA
cgacttttcagaaaaatcaaaataatcttgTGTCAACGTTTAAGAGAAAA
CTACTAATACTTGGTTAATGATTTTTGGTATGTAGAGGCACTTTAGGACA
AAGAATGGAATgagcgaaaaaaaaatttgaaaaatccaaaatccgggggt
aaaagccaaaaaaacagttttttcaaaatatgagatCTGGAATTAGTGaa
atctgaaaaatccttcGCTCATTCCACAGCCCTCATAGATGTGCAAATAC
CCTGAAAAAATCAGACCAATCGGACAACTAGATCCTGAGATTTTTCCGCC
ACAGTGATTGGGAACTCCCGGATTTGCGTTTTGAGAAATCGTGCTTTTAA
AACATAAACTGCGGTTAAATGCAAAGATTATAGTTTTCAATAGggatttt
ttatgatttgagcCTATAAGGGAGTTTTCTACATTATTTCAAAGGAAATA
AGGATTTAAAACTatttacagtgaaaattttggccaatttgagtgacatt
ttgatcatttccagaaaaccgcaaaactttgaaaaaagaccGCAAAGCTC
ATTTTCACCACGAAAACCACCCCGAAATGTAAATAACAATGCCCGCATTC
ATTGTAGGACTATTTTGGACTATTCCTATCAGCAGGGATTAAAAACTAAA
TCAATTAagttaaaatattcattcaaaaagCTCTGGAACTGAAGACTCAT
TATCGTGGTACagggcactttcactttcactttcatgcCATCGCTGAAAG
CATAATGAAACCGCTAAAATCTAATCCCACACAGttgaaaaagtaatttg
aaGATGATTGTGTTGTTTTCTAAGAGATTCCTggcaaaaaaacattaaaa
tagcaCCCAAAAAAGAANCGAGGGCGGTCATTGTTTACAAAgtttgaaaa
ctgaatatgGGTACACCAAGCGACTTCAAACCTTCTATAAATGTTTCTAG
CGACTTGAAGACGACCCGTAAAGATTTTCTAGCCGTTTGAGCAGCTAGAG
AAGGTAGAATTGCTGTTTTACTAACGGGCGGGAAACAGGGCGTCAATGGG
CGaagcattaaaagcttaaaGGTAGGTATtctaaaacctaaaattttcta
cttattctttacttttgtgaattgaaattttcagaggttGTTCCAGAGAA
GTTATACTTGactttaagccaaaaaaataaaaaaccaccAAAAAAGTATC
ACTATTTTCAAACTCANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAAAAAAATAATT
AGgtgaagagaaattttttattttgctttgcaaaaaagtgggggggggca
tggcccccccggcccccccggTGGCGCGGGCCCTGCTCTACACATATGTA
GAACGTATTTGGACGCCTTTTCAAGATACTTGTAGTTTCAATGCTCATGA
CAGTGATGTCAGTAAAATAAATCCATTGAGGTTTTTTTAACATGCATAAC
AAGACATTGCCGAGTTTGTGGATACTTCAACAAGTATGATGGTGAAATGC
agttaggcgagaccaatttgattagttgttttacgggctcGACCGACCCT
gaacttcaaaaaattgaaataaaaataaaattgattttgatactatcttt
ttattttcattgctttacagactacaaaatgttcaaaattgtGGTAATTT
TTCCAAGGNAATacaatctttttattttcattgctttacagactacaaaa
tattcaaaattgtggtaatttttccaaggttttgaaaattttatgtccaa
tttttcatttaatccATGAATTTCgaccatattttgcctaaaaattgtca
aaaattgtcaagaaaatgcaccgtaagggtcgatgtttcaaaattttctg
gcaCTGTAAAGGTTCGATTTCAGAAGCCTAAtttttgggccgcacgtatg
gtcgtttttgaatcgagtgcccccccccgggatacTGACATTACCCTAAA
AAAAGAACTAATCCTTAATACACGATAATATCATTTGTACGTGAAATAAA
AGGAATTCAAATTATAGTCAATGTCTTACTGAAAATGACTTAACAGAACT
CATTGATGGCTCGTTATTCGCTAATCGACTGACATTTCTAACACTGAACA
CACCCCTATGGTAGACAAATAaggaaaatcaaatgaaaattagCTAGACT
AAGGGGTTTCGTAATGCTGAAACACATCCCCTCTTTAACCTTAGCATATT
ATCTATGACGTGTAAACGATTTTCAACAAGAGCTCAACGGCGAAGCGTCC
TCTGTACACACCCccgtacaagtttttttttgtttgataatGAAATTATT
TCTGCGTCACGTGACGTTGACTTTCTTTTAATAAGAAGTCTGATGGACAG
AACGAAGGATGATTCATTGCAATAGACCATGAACAACAGACTTCGAGGTT
TCATGTTGAACGATAACGATTTTGagcttgttgtttttttgtgaatAAAA
GAAGAGAAGACACACAGAAATTTGAGACCAAGTCAATTACAAGGTTGgat
cattttttaatttgatatctTTTAAGTCTATAGGTCTATGGGTCACCTTT
GAGTCATGTAATTATTCCAGGTAAAAAACATGAGAATCGCAGTAGTTTTT
GTTCAGAGGTCAAATCAAATGAATAAAATGGTTATAGAAATTTAGAAGTA
GTGACATCTCATTTTTTACAGCATTAGATGATTTAGGGCCGTCGAGCACC
ATTACTTTTTTTCTAATCCAGGGACTGGTTTCGAATCTAGGGGACAGTAA
GGAGATCAGTAGATTTGTTTTACTGTTTTGTTTTACTGTTTTACTGAAAG
TTCTGGACTATTTGGGAACTAAGTTCAGCATTGTCCAAGAAAGCTTCtac
aaaaatcaaattcaactttgaaaaatgcGATCGACAAAAACTGACAACAT
GGCCTTTTCTCTAAGTTCCAGGACTagaatccaaaagttcaagttGAAAA
AAGTGGAAGTGTATGGGTAGCAAATGTTTTCTAATTTCTTCGAGAGAAGT
TATACCATTGCAACgaattttattacaaaacaCTGTTTATTAATATCGAA
ACTTCATCAAAATTCCTTGTTTTTCATTATAATAAATGAAGTTATCAAAG
ttctataaaaatatatatttcacAACATTTGAACGCATTAGAGGGCTTAG
TAAGAACTTGAATGAGGCTTATGTTTTGAAGTAAAAATGGTGTGCAAATG
ACGTCAACAGCGACGGAGAGATCGATTTGGGACACTGAGCGCTTGATAAT
GGTCCTTGAGGAACTTCTATTTTGTTACTAGTGAAATGTTGGCAAACCAA
TGGTGTGAGATAAAATGGGGCTTTCATGTTTATAAACGACGTGGGAAATC
ATAGGATTTTCACAAGATTTCGAAAGAATAGCACCATCATTTGTGAAAAT
GGGGTAAAACTAAAATTATtgacaaatatttttgtctttGTCAATCGATA
ACTAGCTTATTTGCAAGTTCTTTTCAACGTACTTCACAATAAACGCTTTT
ATATCATTTTAAAATACCAtctcaaaaacattattatcaATGCTAAAGTG
ATAATGCAAAATTTTTATATACGTCAGGAAGTGTATAATTATCTCCTAAT
ATCCTGGATCATAGGTTAATTAGAGTTAATGAGTTAATCAGAAACACACC
TCTAGTTCACCCTTTTCTACAACTGAGCTATTAAATCACAACATGaacga
aaaaagtttaaaaagactGCTTAGTAACGCAAATATTGTTTTGATAGCAA
AAAACTTATATTTTGCATTATCAGTACGATTACAGATTACAAGCAATTTA
TTGGGTCTTGACTTTCCGCTTCAAAATCATTTAGTTGTTTGCAGATAGAT
CTGGATAGATTTTGATTTATGTGATATTCTGTCCAGGGAGGTCAGTGGAA
AGGCCTTACGTAAGATAAATAAACTTTATCGAAGGCCATCGGGTACTACT
GAGGTTTCTCcgtgtttttattttaaaaaatgcattcggggtggaaaatt
tctttgatttatgTAATAggtgaattctattgtttcagacTCAAAGATAA
GGTCGGGATTCCAAAGTTTTAATGCTTCTGCTAGTAGGAATGAAACCATT
TTTTGTTTCCAATTTTTACTGGCGTATGGCCGATACTTTCGTCAGAGAAG
GGGTCCCATACGGTTGTGACAAGGGTCAGATCTGAGTTTGAACCATGAAC
TTTACTTAGGAGGCGTATTGAAGGTTTGTTAGAGGTACATACTTTCCTAT
TTGAATGCTTCATACTCTTTATTTGTCGCTGTGAAATATTATgcctgaat
tttctttttccgGAAAATAACAAACTCCTGAATTTGCGTGAAAAAATAAA
TGTCAATATTAGCAACAGCTATCATTTAAAATCTAAGGATTGCATACTTG
ACATGTCATACGTGATGGAGATTATTTTAGAATATAAATGTCTTGGGTTC
TGGGTGAAATCGGCAAGTTTTATCTCGAAATTGGTAATTTTAACTTAACT
AATAACTAACTTCACTTTAAGATCTTGAGAGGGGCTCAATCAGCCGTATA
AGCAATAATCTATTATAGTTCTTTCaagttttgagcaaaaaaattagCTG
TAATAAAGCTTGATATTCTGACATTCTAAGAGGGCTTTCTGAGAACTGAC
AAAAAGTAGAATGCTGAATCGCTAGGTTGTTTATAATTTGGTGACTTAGC
TTTCGTTTTCGTGTtataaaagtaaaaagaatTCACCAACAAACGAGATG
ACTTCTCTGAAAAAATATCCCTTTCAAAACGCTACAAGACTTTCTCTTCC
GTTTTTGTTCAAGATAAACTAACAATCAACGTCAAACCGAAAGTTTATGT
TACAGAAACTAACATTTCGACTTCCTCCCTGTTTTTCTAGCttttaacaa
caacaacaacaaagatggtagcCAACCAGCAGACCACACCAGCACCAGTC
ATGGTCGAACCAGCAAAATCATATTTCACTACTACTTTCATCAAAATGTT
TTCAGCCGGAACAGCCGCTTCTATTGCTGAAATAACCACTATACCCATCG
ATACTGCTAAAGTGAGATTACAGGTAGGTCTCAGCTTTactttacacccc
tgtctcacactGATCTTCTCTTTACTAAATGTAGCTAACCAACATTGTAt
gaagtaaaaatctttcaaataggTGGGGGACCTTGATGCTGACATATTGC
TTAACCTTTTTATAACCTATGTGTTTCATACTGGCAAGAATCTCCTATAT
CTCCCAACATCTAATCCTTTTCTTCAAACTTTGACTCTTAATCTAATAAA
TTAGCCAAACCATATTAAACTAACACAtgtgtatttttattttacataga
TCCAAGGAGAAAGCTCCACCAGTATCGCCGAAGCAAGGTCAAGTCTCAAA
TATCGTGGTATGATACATTGTATTTTTACCATTTCTAAAGAAGAAGGCTT
CAGTTCTCTTTACCGTGGTCTTGTGCCTGGAATCCAACGTCAGTATTGTT
TCTGCGGAGTACGTATCGGTCTTTACGACCACGTCCGCAAAATGTACGGA
GATACAAGTCAAGGAAAACCAAAATTATTGGTCAAAATCGCTGCAAGTAT
CACTACGGCTTCTTCCGCTGTTTTGATGTTCCAGCCTACGGAAGTGGTTA
AGATCCGTATGCAAGCTGCCGGAAAAAAATTGCGATACACGGGTACTTTA
AATGCTTATCAAACGATTTTCCGTCAAGAAGGATTAAAAGGACTATGGAG
AGGGACCTCCACTAATGTAACACGTTTGAGTTTGGTCAATTGCACTGAGA
TTGTGATTTATGATTACATTAAGTCGTACGCATTATATAAGAATTGGATG
CAAGATGGAGTTCCGCTTCACTTCGTGTCCGCCCTTGGCGCTGGCTTCAT
CACCGTCATGGTGGCGTCGCCGGTAGATGTGGTCAAGACCCGATATATGA
ATTCCGCCACTGGATCATACAAAAACCCAATCCATTGCGCCGTCTCGCTG
TTGAAGAATAACGGAGTTACTGCATTCTATAAAGGGTGAGTTggactttc
tttctttttcgtgTAAATAATGTTGgggaaattcaattttttaatcaatt
ttctcttTTGCACTCTGGACTCAAAATAGTTTGAATAAGTAGACTGCTTC
GTTGCCGCAGCAAAGTATTTGTGAAATATCTAGATTATAAGTTGATTTGA
TGCGGTTTAATGATTATAATTTATCAGGAAACACATTAAAGACTCGTCAG
AATGTCCTGTGGTTTTGAGTGTTGATAAATTTACAAAGTCAAATTTGATC
TCAAAGTGGTTCGATTCGTACATTCGTCGCGCAAAAGAAAGTGAACTAGT
GAAAAATTATGTGTTTGAACTTTGTACTGATTCTGTCAACACAAGGACAT
GGCTCAAACATACGGAAGAAAACCAGCGTAGGATCAATAAACAGTAAAcc
ataaagaaaacaaaaacaaataacCACAAAAGAGAACCCGGTCAATCGAC
ACTCCATGTTCGTGACGCAAAACAACCTATACTATGCAAGTACTGGGGAA
AATTTGCGAACAAACCGTTTTGATAAAAGCTTAGTCACGAATATGTGCTT
TTTCGtacatcttttttataagaacaagctatatgAGCATTAGGCTTCGA
GTACCAACAAATTTAGGAACATGTTTAAAGAACATTTATGTCCCCATTTA
TAGGCTTTGCATAATCTAAAACATGAAACTGAAAGATAAAgtcaaaatta
ctttttaagaTACTAAATTGGATTAAAATGTCTGATAGCTTTCTTGTGCA
GTAACCCCGGAGTAACCCTGGGCGAGGCAAAAAGCAATACTCTTTCTAAT
CTACTTTGTACTGTTATTGTCTGCCTTAAGATTANTTGGATTAAAATGTG
TGATAGCTTTCTTGTGCAGTAACCCCGGAGTAACCCTGGGCGAGGCAAAA
AGCAATACTCTTTCTAATCTACTTTGCACTGTTATTGTCTGCCTTAAGAT
TAAGCAGAGCTAAAAATAACGATTTTTTGATTAAATTCAATTACCTTATG
ACATGTTGTGAGAATACTAGTACACTTTCAAAAGGCGAGTGTATTATGAT
AACACTTGACCTCTAGCTTGAGATTACACGTGACCTCTAGGCTTGTCGAT
TTGTTTCCAAAGTttccaaagtttcaaaaaggTACTTCCCGTCTTGAATG
AGAATTGGCAATAGTAAAACAATAAACATTGCAGCTGCCTTAATAATTGA
GCAATCCGAATAGTACTTTTGGCAGCATATACAGGGGTTGGTCCCTAACA
CAAAGGATGcctgaaaaaagtagaacatcTTAATATCTTTTTGGGATATT
CAGTCCGATTCAATGTGAATTTATGCTGCAGGGTGCATTAAAAGCACATC
TCCCTGGTTGACAAGGGTAGCAACCCTGTCTGTCGaggtaacttttattt
tagtgaaatcttCATCTTACCTGATTAATTTTCTTTCGTTTAGATTTATC
CCATCTTTCACACGTCTCGGTTCATGGACGATCGTTTTCTTCTTATCCTA
TGAGCAAATCAAGAAGTATTTGAATGCTTGAGAAGTAGAATGACTGAATG
ATACACGAGAACACAACTTTGCAAATGACTTGACTATAATGGCAGAGCAG
TTCGCTGGTGAAGACACTGTTGGGTTGAAGTCAGGGAGAAGAGTATTAGC
AGGCATTGGGTTCGTTAATATGCAACATCCgttaaaaacatataaaaaag
aaatcccTATCGCGAATTAGTCATTTGGTAATAAGCCTTGGTGATGGCTT
GGAAtctgaatttgagaaaaaggtGTGAACAATTttaatataaatataaa
aacgaAATAAAATGTATTTTCAGTGCCCTGCTATGATTAAGCACGAATAT
ATTTTTGATCTTGTGAGGGTATTATCTTCAATAAAGCTGGAATTTTCCAA
CtcgtgacgtaatcttttctaaGCACCAAAATTACCTCGCTAAAGTTTGA
GGAAAGAAACCATTAGTTACGTCATAAAGCTTTCCGACACCGAGTTTATA
TATGGTGCTTGTAGTCATATTGCTTTgtataactttttaactttttgggt
gTTTTAAATCCAAgataaatttattattttatggTAAAACTTTTTCTATG
ATAATACCTTTTGTATTTATTGTCATTTGTGTCTTGATCATTTGTCTTGA
TGAAGATAATAGATTAGTATAACACAATCTTTCTGTGGCTGTGTATTTAT
AATGAGAATTTCGTGG
Gene-mRNA-Prot
The following transcript feature(s) are a part of this gene:
Feature NameUnique NameSpeciesType
TCONS_00022379TCONS_00022379Clytia hemisphaericatranscript
TCONS_00022380TCONS_00022380Clytia hemisphaericatranscript
TCONS_00022381TCONS_00022381Clytia hemisphaericatranscript
TCONS_00022382TCONS_00022382Clytia hemisphaericatranscript
TCONS_00022383TCONS_00022383Clytia hemisphaericatranscript
The following polypeptide feature(s) derives from this gene:
Feature NameUnique NameSpeciesType
Mitochondrial uncoupling proteinTCONS_00022383-proteinClytia hemisphaericapolypeptide
Position
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
sc0000414supercontigsc0000414:220093..232208 +
Orthologs
The following orthologs are found for this feature:
Ortholog NameDescriptionOrganism
UCP2mitochondrial uncoupling protein 2 Homo Sapiens
UCP3mitochondrial uncoupling protein 3 isoform UCP3L Homo Sapiens
UCP1mitochondrial brown fat uncoupling protein 1 Homo Sapiens
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
7.54	7.31	2.81	1.33	49.64	39.81	74.06	75.25	62.64	98.39	45.82	39.86	53.74	73.43	43.88	38.29	93.89	47.02	86.8	69.4	54.02	53.25	45.79	55.05	53.95	61.69	71.45	113.43	7.97	9.29