XLOC_010225 (gene) - C. hemisphaerica

Overview
NameXLOC_010225
Unique NameXLOC_010225
Typegene
OrganismClytia hemisphaerica (Jellyfish)

Sequence
The following sequences are available for this feature:

gene from alignment at sc0000291:213641..224214+

Legend: gene
Hold the cursor over a type above to highlight its positions in the sequence below.
>XLOC_010225 ID=XLOC_010225|Name=XLOC_010225|organism=Clytia hemisphaerica|type=gene|length=10574bp|location=Sequence derived from alignment at sc0000291:213641..224214+ (Clytia hemisphaerica)
TTCAACTTTGAGCAAGTCAGTGAATAATAGAAACTCGATCCAGTCTTTGC
AAGTTTTCCTCGCTAGTTTTTTTTCGAACTACCGCTGGTGGCGTGAAGGG
ACGAGCGAAAACCCTTCAAAAACTAGAAAGAATGGACAAATTACAAGGAA
AAAGGTAAGTTATTCTTCAGATATGATATTCTCAGAGAGGTTTTTAACAT
TATTGAAACATTTTATAACtgttttaatgtatttttgatgaatttggGAC
AGCATTTCGCACTCGACGGAATTTCGCCTACCCGGATCAAATCGCGAGTT
CATTTTTCTTGTTCTTCATACTTTAGAAAGAATCTGTTGAAATTGGTTGA
TCGTTTACACGTAGAAAAGACTGTGGCATCAAACTTGGAAGAAAAATCAG
AAGAGGTAAGGTATTTTTTAGCGAggaacaatattttgaaagtgcCGCTC
GGGTGCTTCCGCAGCTTTACGCGGATTTGCGTTCCCGCGTGTGATAAAGA
AGCGATcagaaaagattctttttccTTAGCTCTAACAGTTTCAATCTTCT
TCGAAAATGTTGTTTCAAGCTATTTTGGGGGATCtgagaatttttcttca
tttttcaaaacgttttttaacatttttttgatgaaatttttcctGCTAGT
CCGGGCATGAATGTCGTGTCCGCATTTGTTGTTAGCCACGAACGAAAAAA
AAGCGCGGGGCGgtcttttgtttacatttttctactTTCACTTTCTCAGA
ACTTTCCATACTTTCACTTTCTCAGAACTTGCTGGAGGAATTTATGAACC
CTTTTCTTTTGTCAAACAAGAAGAATGAGGTCTATGAGGTTGATCCAAAC
AtaaacttgaaagttagaaagCAAGGTATAGTATTGTTTATTTGAATATA
ATTCCCAACTCCACCTCTgactccagcatcaaaacaatgattatAGAACC
TTCCAGCTACGTTTCcagctcttccagaaaaaatccgttcatgggggcgg
ggtggaggatatattatttttttcatgaattacccctggacattttgatt
tttaaccccctggacacgggttatacccctggaaaaacatcaaatcaacc
ccgtggacacaaaaaattacccctggacattggaatttaccccctggaca
ttatTGGATTTACCCCctcccctggacattgcaattttttggcatttctt
caatacccctggacaattcatcctccaccccccatgaacggaatttttct
ggaagagcccaatacatGTGTGTTTaccagtgcgtcacaaacagccatat
aaacaaaactcaacattctcacaaaagttgtctttttgatttcccaaaca
ttcgtctaaagcgttcacttccacaaNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNgggggtaagtggcgaagca
acacaacagattattcgtaaagtaaagaaatatcttttggcattgacaat
caaatataatatattatattatatttccttaattcaaaaatcaaaaattc
atttgcgaaaaaaaaaataataataatgaattaatattacatactaagac
acccccgtcttttactctcgtttaattttcgatctcggaacgtgcaaaac
gaCCGTCCGCctaatatccacccaatcagcttaaattcactttaattgtc
ctctgactttcaaaaaatagtatttaaaaattatgaattcataattatta
caaaaaacaaaaagtttgatacttcaagagaaatattcaataaattccta
gtttcaattttcagtgggcgtttttctagggcttcgtttatcgcgcaatt
tttgcgtcacacaaactttctcggctgctcgtaataattatgcattgcca
aatttggttctccattgtcaagtcaggatcgatggtgacgtcacctaggC
ATAAAGNaaaagttgtctttttgatttcccaaacattcgtctaaagcgtt
cacttccacaataatttatgtaattgcaattttggtcagtccacagtcgt
cttcaacatatacacgtgtttttatttacgtgaccgaagtgcctactaaa
acaatctgGGGGTAAGTGGCGNcctaagcataaaaaagaaaggattttgt
cagttttatgcatatattaatttgcgagatattctattcgccacgcgagc
gcacttttcgtagactagtcggaatactttcttttactcgcgggattgat
ggtaacttttcatcttcgttattttttaaatgaagccAGAAGACCGCACA
GTACCGTATGGTCCGTGCGGACAAAGTGCCCACGAAAgcggacgatggtg
cggtccccgccgtttgtttatatttctttcgGTTGCCgtaagaatttcag
cctcgagttcaaacaagcaaaacaataaaaacaaaatatccGCACCATGA
CCGCACTGAATACCGCACTCATTCTTATGGTGCTCTTTAGTGACCGATCA
AGTGCGTTTGAATGGAATTTCTAGGAaagatttttggataatttctgGTA
GATGCAAAGGTATCATTTTACCGCACAGTAATCTTTTCGCCGCTTTTTTG
CCGCACATTTTATCGATcaggcttcggcataagaaaGAAGAAGGCGTGTG
ATCATCGCACGCCTACATAGtaatttttagtaatttaggcgtgCGAATCA
TGGCACGCCTCATTTTCTCTAGACGTGCGATCGCGTGCGatcgttttttt
ctttaaacatcATTAATGATGAGGCACaaacttttgaacaatttttcttt
tgatctttcttttattTACATAAAAACTAGACAACAGGAAAGAAGAAAGT
GTATATTCAATCTtcatatttgaaaaacaaaaacagaaaccaAAAGAGCA
CTGAATAATCGAGAAGGAGAATACTTTACTTTAGGAAAACAAATGAGAAG
AAGAATCATGCAGCAAAAGTAACTTTTAAGAAGAGNTGTCATAAACCAAC
GACCTCATAAAcatagcatgcgagagggaaggaaaaagatttgagagagg
aaaaatcatacagcaaaagtgatttttgtaaaaggtttTAGAGAGACGAA
AAATCGTGcagcaaaagttatttttgagaaaGGCTTGTTTATTGAAGACC
AAAGCATAGTATGAGAGAAAGAGGAGAGAGAAGATGTGTATCCGTAagag
taacttttttataagaaattttgtaTACATATAGCAGTTTGAAAGAGTAA
AGGAAAGTTTATCTTTCATCTATTTGGTTCTTATGATTAAAGTAGAAAAT
TATATTTGATCTTCTTTCAACaagcagaaaaaatatttctagaatAAATT
TTTGCATGTGCGATTGATCGCACGCCTCGCTAGGTTTTCAAGATTTATGG
CGTGTGATAAATTGCACGCCTAAAAGGCTTTTAGGCGTGTGCGGAGGCGT
GCGCGTGCGATCGCACGCCTAATATGCCGAAGCNTTTTCATGATTTATGG
CGTGTGATAAATTGCACGCCTAAAAGGCTTTTAGGCGTGTGCGGAGGCGT
GCGCGTGCGATCGCACGCCTAATATGCCGAAGCCTGATCGATCTGtccgc
accaagaccggtctcatttttaatgtactccaaatcgcttggggggtcAC
ATTTTTTCATGGATCCTactagaagttttgcggcgcatttttttgcttgc
gagtcaagtaaactatatagcgctttcgcagcattaatctttcatacgca
tttcggcgggatgctagtgtgactaactggcaGTATAGCTCTATCTCTTC
ATATAAGATTTAcaggaaacgcatatttggactttgtacctaATTCTGCA
CACTTAAAAGCTAAAACACTGCAaaaagcaggacaaaaatcagttttttg
aagtttgcaaaaaaaacgccgcttagaaaatctttcaaattcagtatgtc
aatagggcagtaaaaaatacaacttttgtatttttcctttttttgcaaaa
gttccagaaattaaaataaagggataatgataattgaatactatccactg
acgATCCGCAGCACTATCTCTTCACTtactctttgcttgagaaagtgatt
gacagattaaagtttgTCATGCGTGTCGGGAGCTCGCTGACGTTCTGCAG
CTTTGGCTTTTTTTAaactcggctcaatcctcaagCCACGTAAAATGGCA
GAACTTAGCTGCagcagatcatttcgatggaatttGTTGACGGAAAATCC
TCTGTTTGATTGTAaaatgatgacagtgccattGTTAATTtggttagatc
tgacaaattgatgtttttgaGTGTACTTTATAGTTTTGGTTTCTAATGAA
GAATTGTATTCAGGTTTTCATGTTagtagatgctgttttagagctttaaa
gCTAACCTGTCTGCTAATCTATACACAATCATTAATCAGGATTCCAAGGG
AGGGTCTATTGCCTATATACCTTTTGCTAGAtgtggtctggaagcctttt
gtttctttctattgttgagAGATTGAACTTACGTTGAAAAACtattttgt
tttgctcactttttgccatcaactgctcaaacttgagacagttggtcgaa
acatgggattgttgatatctggacTGTATTTTTACCTACTGTTAAAtcac
tttgacaacaaatttgttttgatacttccaccaagtttatcaaccaCACT
TCTTCTGTCATTCATATATCACAAAAATAGATATGTCTAGAAAAGCTGCC
TCTGATAAAAGTAATTAACCATTAACATCATATTTTAATGTCTTGCGTTC
TCAAGAGGCTTTTATATAACAGGCTGTGCGATGAGATGAATATATGTCAG
CAAGAGCCTGGTTTCTATGATTTAGTTGATGTAAGTGGAGAAAAGTGCTA
TGAGCGGACTtgaatcaaatgactttggaggttcggtgaaatggtggcct
gatcccatgttttgtcagatagtcccaagttagagcagttgacagggATC
ATGTGATTAATTTttgaaccaatcccaagaggagtatttggtaacgtgat
caaaaactgagcaaatcaatTTATAGTTAtttttaacaaaggaaaaagtt
taaaaaaagctACAGCAATAGGCTTCctgaccagggttttttatacggac
tatgatgTTATGTTAAATAATTAAAGACTCCAGCATCAAACAATGATacg
aaaaaaatgtttacacACTTATAGTAATTACACATTAATGTGTCATTGTT
TTCAAATTGGAGTTTTTTATTATGCAACATGACGTCACttctagcaaaag
gtctatcaaTTGATTGATTATTCATCGATTGGCTCCAAGATCATCGGTTG
ATCACAAAACCTGGAATTGCTTTGCATGCCAAGTGCAAAGCTATAATTCA
AACCCATTGTTATATTAGGCAAATCTTTAAAAGGTTTGTCTTTCTGAGCA
AACATCAcaaatgtaaaaagaaaaccattGGACATTtgaaatcaatatat
tttagctttatcaaacagaaaaaatattagTATTAGATAGCTATATAAAG
ATGTTTTAAGTGTTTTTACGAgggattataaaaaaatatccgGGTAGCGG
CTGGgtgatgtttaaaaaaatttttacctGGCTGATTTCCTGAAACAAGA
CTACTTTTTTTTGCAGTcaagataaagagaaaaaaatccagtTTTTATCA
ACTTTCCAAATTGAAATTAGTGCTTGCTGACACTTTCATCACTCTAATTA
GAATCATAATTTATTTCATAACAAAATTCCACGGTAGCTCATTCCAAACA
CAGATGGGTAGATATAACATTGATATTTAAAGGGGAAGAGTTATCCTCCC
AAGGCCGACCAAGGAAAACCTCTTTATTCCAATCAAAACCATTTCTTTAG
TCTATTTGGGAAAAATGACGTGTTTGAGTTTTGTATGACAAAATCAgcag
caaacgatatcatattTGGTGGCAATGAAAAACTTATGGTATAATCCCCA
ATCCTGCACTGATCTGAACTTTTGTATAATAAGTCTTTTCAAGGTGTTCA
CCAGCAGGGAATACCAAACtttgtctttttcattttttcatagtCATGAA
AGTTATATATGTATTATTATCTGGCTTTCCATGGATTATATAATTGATGT
AACTTTATTTGTGTCCCCGTCatgctaaagtaaaaaaaacaactacCCCT
TGGTAAGAATCTTTTAACTTTACTTGAAAAAGACAAataagcttaaaaaa
ttgttgctcTGAAAAAACGtgtcttattttcattttgttacaCATCTTGT
AGCATTTTATGTTTCCACCTTTTTATTTTAGTGTATATGCTAAGACGTAC
TCGAGCTACTGAAGGTGGATCATTGATTTGTGAATTGTGTAGCCGTTCTT
CATATAAACAATATTCAATTGAGGTAGAagtttctgctgattcagccacT
GGTGGTAAACGATCAAACCAATGGAAAAGAGCAAGCACTGAGATAGCTAA
GGTAAGCCTTTATTTTTATGAGAGTCAGCTATTCTTTAGTATAACTGTTT
TTCTAagtattttcaccatttttgttGCAGTTTTTCTCGTAAATTTGTCT
CCTCTAATGTGAGGAAAAACATGAGtattttggataaaaattaGGTTTGA
TGTTAAATTGTGGAAAACGAGGAACGAGAATATTTCTATGAATCTCTTTT
GTGAAACAATGTATTAAAGATCCACATATATCAAGTAGAATTAAAAAGGG
GCACTGTTTAGATTTAGTCATACACACAATTTCTTTTGGCCCAGCATctg
gcctttcattagcatgtcTCTTCATGCCCCTTTGGCTTCTTGTTTCTACT
AATAGAAGTGGTCTGGCACGTACTTTTTTCGGAACACGCTGTAAtcgttt
tggccgataaggtatatataGGTTAATCTCTTCTCCAGCATCTtaacttt
tgtattttgttgAATGTATTGTTTTGAGAGTCATTGTTTTTTTATAGGTC
TGCCGAAGTTGTTTCTTCGAGCAGAACAAAGATCAATCATCCAGTAAGAC
TGGATCCAAAACTCGGACGCGTCCACAATTTCACCGTTCTGAATGTGGGA
TCACTACCGGTCGTGCTTCCAAAGCATGGCATTTTGTACGCCGTGACCTA
ATCGTAAACAAAACTAAAGCTTTACTCAATAAACGATgctttgaaaatga
attttcagACCGCTTCTTGAATGAAGAAACTGAAGTTGAGGAATCTTGCG
ACTCTGACACAAGTTATGAGAGTGATTCAGGAAGCATTGACGTTCTTCCT
TTTCAATTAGCCAACAAAGGTTGGGTGACACCGGGGTCGTTAGTTCAAGT
GAAACGCACTGATGCTCGGCAAGTCATAGCGTCTCCCTCACCTTTGCTAA
CAGAAGAGATTTCAGATGCTTTATTGCAGACTGAGCTTGCAATGACTCGA
GATAATTCTCCTCAACCAATCAAATCTCCTGAATCAATCAAATCGCCCAG
TGATACTTCGGCAGATGACACGATCCTGAATACACTCGTGGAATCTTTCG
AAACACCATTGAGCATCGTAACCGTAGCGGAAGACACTGCAAACCCAGTA
AAAACTCAACTAACAAACACTATAATCGAAGATGGACTATTAGATTATTT
TACCGATCGACCTGCTCGTGTGCGACGCATCAAACGGAAGCGAAGACGGA
CCATATCAAGAAGCGGTGTTATTaagaagaaagtgaagaaaGATACCTCG
AAGCAATCAACTTATAACGGACTCTGCAAATTAGTCACCGTGTTGAATCA
CACGAAAGGAAAGTATGTTGATAATTCAAAAACATCAACTTTATTTGACA
CTCATGGTCTTGACTGGCGCAACAAGGATCTACCGTCTTATCTGAACATC
AACACAAACCAATATGTAGATTCAAAAGGAGGCTACcgacagaaaaagaa
aaatgttgatgCTTTTATGACTGATCAAAAAGCAAAGCCAGTCTTAAAGA
TCAAACGGAAAGTTAAAGCATTTTCTCCGACACCATCTCACATCCCTGAA
AACACTGATCAAAATAACGTTATTGAGATTGAATCAGATTCTTCAGACAG
TGTCCCGTTAACAACTACTTTGAAAGAAGATGTATCTGATGTTCTACCGC
AGATGATAGACCTGAACGATTCTATGCAATCAACTTCTCTTCAATTAAAA
CATTTGTTAGACGAGAAACCTTCCGTACAAGTTAAGTTAGATGATATCTC
AACTCAACTCGCTAgctctttaaaagaaaaagaagctaAGAAAGCAGGTA
AGGTTTAGGCTCAATTTACCTCAATATTCTTTCGAGTCAAAAGTAAAATC
CCAAGGTCGCTTGCAAAAGTGctcgccaatttttttttttctcgaaagtt
ttcattttccctaatctattttctttcaaatcgcAAAGCATAGAAGCACA
ATCAAAACTTTCCCTTAATATAAAGGGGACGTAAGTCACACACTTGAATA
TTTgaactgaataatttttttNTTTCAAATCGCAAAGCATAGAAGCACAA
TCAAAACTTTCAGTAATATAAAGGGAACGTAAGTCACACACTTGAACATT
TGAACTGAATAATTTTTTGACTCTCTAGCAGTTGCAGCAACACAGAAGAA
ATTTGCATCGGTACAGTACGATTGTGAGATTTGTCAACAAAACTTAGCAA
GAAAATCATACAAAAGTTATTCCAAAGAAACTGCACCACTTATTTATCTC
AAGGTAAGATACTTCTTCAACCCTCATCATTTTTATGAGAATCATTTTGC
ATATGTATATAGTAAGTTCCCCAGTTAATGGCTAATCTACAGGCAAAGCA
AACAAATCCTCTTAAGTACCCTTTTGGAGGCGGAAACAATTTACTCTAAA
TCCTCAAGTCGAACCTTAATTCCGATGTCCCTTTTTTGAGACTGACGGTA
TCTTTATTTGTATTTCAGTTGTTCAAAGGTAACAAAGACAAGCTTCGTAT
CTGTTCCAACTGCAACCTGAGAAAAATGAACGAGAAATACAACAACGTAC
AATCGCGCAAACGACCTGCTGGACAGAACGAACAAGAGGTGAGATACAAT
CCAATCCTTTAAAATGACTTTCATGataatactttaggcgtacNNtagag
ggacaaatacttcttggattggcttgaaacatttgtcctttgacttatta
gtcttttagcaggctaaaaagtgccataaaagttaccttttattcaaagt
ttgaagttttattctattttgtcaagaattttttgcgagcataaactttt
gcgaatggcccttcctagaagttctaaagacatttactttcgcgaaaagg
gccaaaattcgcgaaaatcgtgaaagtttttgctcgcgaaagtttgtacg
tctaAAGTCATAATATAATTTCCAATCTCCTGCAAATGGTGAACGTTTGA
CTTCAactgtaaaaatatttcttttgtatcTTTTCAGTCACCTGCTCCAA
AAGTTTCTAAACAAACACCAATATTGGGAAAATCAAGTTCAAGCTCGTCG
TCTATGAAAGGGCAGACGAAACAAGCCTCACCACAAGTATTCAAACTCAG
TGACGCTGGTGCACAAGACATGAATGTTACTATCGTTAAAAGTCCAGATG
CAGAACAGATGAAAAGGATTCAAAACAGTAATGCTAAATATGTCATACTA
AAAGCAACACCGACTGCTAATGGCAACATTGTTACCGGTGATTTAGACCA
AGTGTTAAGTGAAATCCGTATCCAAGGAAAGAACTATAAGATTGATAAGG
ATTTCAAATTAAACGAACTTGTAAAAGAGAATGAGAACGCTGGTACTGTG
ACTGCAAACTCTAAAGATCTTTTAGTGAAGCAACTCCCAAACATTCTCAA
ACGAACGATAGGCCAACGCAACGGTGGTCCAACAACCTTTAAAATTGTTA
ACGTCATGCCTCCTGCTATGGTTGCCAACAACACGAACGTGCCCAAAGTA
cttccaaaaacaacaacacaGCAACACATCACATCATCTCTGCCATCTAT
TTCTCTACAAGTTCAAGAACAGATCCGAACCTCTCTGGCTAATAGTAAGA
AACCGGGAACAAATTTAACCGGATTGACCAGCTCGCTTCCAACAAACGGA
CCCGTCAAACCAATTCAAATGGTTAACCCGCCCAAAGTAACACTACCTGC
TTTATCCGGTAAGAAACGGCCAATGCCTAATACTAACCAATCTGTTACAC
AGATTCAAAGACAAAAGATTGTTTCCTCAACAAAAACTTCAAGCAAAGGA
GattctaaaaaatgaaaaatgtattttgtaAAGTATTTAATTATGATTTT
AAAGAGTATTTTAATGGtcttttattaaaaaaggtttaatatacAGTGTG
CCCGGAAAAAATATCATACTGAAT
Gene-mRNA-Prot
The following transcript feature(s) are a part of this gene:
Feature NameUnique NameSpeciesType
TCONS_00018195TCONS_00018195Clytia hemisphaericatranscript
TCONS_00018196TCONS_00018196Clytia hemisphaericatranscript
The following polypeptide feature(s) derives from this gene:
Feature NameUnique NameSpeciesType
TCONS_00018196-proteinTCONS_00018196-proteinClytia hemisphaericapolypeptide
Position
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
sc0000291supercontigsc0000291:213641..224214 +
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
5.7	5.88	4.85	5.01	12.23	8.93	11.36	13.42	6.74	9.83	7.7	5.67	7.68	7.28	7.34	9.73	9.29	9.06	8.57	7.75	8.54	8.72	15.27	16.38	13.73	13.47	5.19	4.38	14.91	18.15