XLOC_008760 (gene) - C. hemisphaerica

Overview
NameXLOC_008760
Unique NameXLOC_008760
Typegene
OrganismClytia hemisphaerica (Jellyfish)

Sequence
The following sequences are available for this feature:

gene from alignment at sc0000215:388633..399075-

Legend: gene
Hold the cursor over a type above to highlight its positions in the sequence below.
>XLOC_008760 ID=XLOC_008760|Name=XLOC_008760|organism=Clytia hemisphaerica|type=gene|length=10443bp|location=Sequence derived from alignment at sc0000215:388633..399075- (Clytia hemisphaerica)
GTAGCCATATACTTAGAATTTTGGCATATATAGCCTTCGTTGCTTTAATA
ATTTAAGTGGTGTTACTATATAAGAGTAAGTTTTCTGAGATACTTACAAT
ATAGGCTATTGAGAGGTATATGTGCAGTTCTTTACAGATAAAAATCAACC
TTAGAAAAACGAAAGAGAAATGAAATTCTTTGAGAAATTGAGAAAGGCTG
GATCTTCCAGTAACATATTGGCATCACAGCCGCTCAAAGATGGCGAAGAA
TCAACACTCAACTTGGATTACTTTGGAGAATATGGAACGCTCAGTAAACT
GATTGTGGATAGACAGAAACAATTATACAAGAAATACAACAAAGGAGATC
AAGAGAGACAATCTTGGGATATTTCTGATTTGGATGATAAACTTAATGAT
GAATTTGTGAACGAAAGAGCTTTAAAGAAATATGGTGTGACCAGGGAAGA
TTTCATGGTAACAAATAGTGACTGGTTTCCACGCCTTCGTGTTGGAGCAA
AGCATGATAGAAATGAAGAGATAAGATATCAGGAAAGTGACGTGGAGAGT
GTGAATAGTGAAGATTCGGTAAGCCATAAAGATGTGCAATACTGCGCACA
TTCTGTTTGAAAGCAGATGTTTTCTCAAGACTCTTCGGGAGCCTTAAAAT
ATTAAAGCCTAAAAATTGTGTTAATTCATAAAGTTTGCAGAAAAAGAATT
TGTATTTTCTGATGAATCTGGTGACAGTTAAGTCGCGAAAGGGAAATCTT
TGAAACTGACTTTAATAAGAACACTTTTCAGCGACTGTAGCATAAAGGTA
AAGTACGGTACGTAAGGTTGTTGATTCTATCTCAGGCCGGGTACCCAAAA
TTACCAAATAGGACTTGGTGCCTCTCTGCTTAATGCTCATCAATTAAAAA
GAAGGGTAAGTAGATCAGGGAGGGAGAGAGTGACGTCTTCCCCTTTCTTC
GGGTAGAGAGCTATCAAAAAAAGGAGCCTTCGGATCGCAACCGACCCCGG
TCGCAAGACTTACATTACAATAAAACTTTTCAAGCACCCTATCTGAAAAT
GTGGTAATTTGTAGTCCCAGCAAAAAAAAATTACAAACTGATCTCTTTCA
GCTGACAAAAAGCGATGTGAAAATTCTCCTTCTCTTCGACATCAAAGGAT
ATTGAATAAAATGTAAAGATTAAATGATGATATATTACAACCGATATATC
ACTGAAGGTTTCTCAGCTATATTTGGTTTGAAATAATTACAGATTATAAT
CATGTGTAATTTCTCAAGAGAGGAAATTAATCAGACACGTTTTCAAACGT
TTGTCAGCTTATATCGGAAGTGATGCCTCCTAAAGCCTAGTTTACATTAT
CGTATTTGCGTCGAAATTGAATGTATCGCATCCTTTAAGAGCCGTATACT
CCTCAAAAATCGGTTGGATTAAATACTCTTTATTTAACATCGATCTAAGT
CAAAGTAAAGCGAGTCTCCCCAATAATACAGTAGTTACTTTCTTAATGAT
ATATACGACTCGAATGAAATCTTGTGCGGACTTACATCACGAAGTAGAAA
GAGCCTTATGCAATACCAGTATTATATTAGTTAAATGGGCGGGAGATACG
TTACCATAAAGGATACCTTATAACATGTTGTTATTGGAGACCAGGATGCT
ATAAAAGAGCTTGTGACACACACGTTAAATTATTCTTGATGTGTTTCATT
TTTGGCAGCACTTTTTTCTTTTCTTCGACACTTATAGATTAATTTGGCTG
ACTTGTAGCAGTTTTAGTGAAACGAGTTTCGTCATTTTGTAATTTCAAAG
TCTCGTAAACTTGAGAACTCTTGAAGAACATGATACTTTGGAGGGTAATA
TACTGTTGTATTTGAGGGCCTGCTTTAATTTTATACGTTTTATGAGCGTT
ACACCCTAATTCCTAAAATTTCCTCAACTAAAAAAGGAGGGAAAAAGGGA
AAGATGCGCATATATATTTCAACTGCATAGATGAAAACACCAACAATTTT
ATATGTTAGTGGATCGAATGAACAAGAGATATGGGCATTCCAGGAAAGAT
TTATAACATTGCAAATTTAGCCTGTCTGTTACGTAAGCAAGGCGGAATAT
TAGCTATTTTGGCTTGAATATTGATGGGCCGGTCGAAAATAATTATGAGA
TGAATAATTATTCTTTAAGGCAATGTGTAGTATAACTTTACCTTTTTTAC
AAGAAATATTAATCATTAAAAGGATTATGTCGGACAAACGACCGTTTGTA
TCCAGCGGTCGGCACGAGGAGGAAACAAGAATTCCCCACCGTTTCTTATG
CTGGACCTTTTCTCAAAGCATGAACTTGGCAGTGTTTGAAGCACTGTAAG
CTAAACCACTGTGGCAGTTCTGCTATGTTGCTTGACGACCTCAGTGATTC
GGAAGTGTAGTATATTTTGAGCTGTTTAATCGCTTGTGGTTGTCACTTTA
AAGTATATAAGTTTTTTTTTCATGAGAATCTGTCAATTTTGTCTGAGGCT
TGGCTGTTCTTGATTTGTCTGCGAACTTACAGTTTTGAATGTTCTGAAAA
TGTTCTTGATCGAGCTGACTTAATCGCCTTTTTCTGAAAGCTGAGTTTGG
AATTGATTGTACTGTACTAAGTAAAGTAAAGTTTTAAAAGAAATTGCTAT
GTGTTCTTAAAAAATTGTTCTTGTAAATCTATTGAATTCTTTCGACTTAA
TTTTTGAATTGGATAAGTGCTTTTTTATGAGAAAAGCAATTTAAATGCTA
CGAAAAATTAATTAATGGTGGAAGGATGGTGAACAATAATGTCATTTATA
CGGACAAGGCAGACAACATGAGAAATCAGCTAAAGTTAGTCAGTTGTGTC
TATAATGATCCCATGAAAATATAAAGATCAGTCGAGCCTCGGATAAAATT
TACTGATTCTTATAAAAAAACATACTACTATACTTTAAGCGACAACCACA
AGTGATTAAACAGCACAAAATATACTATCCTTCAAAATCACTGAGACCGT
CAAGCAACATGGCAGAACTGCCACAGTGGTTTAGCTTATAGTGCTTCAAA
CACTGCCAAGTTCATGCTTTGAGAAAAGGTCCAGCATAAGAAACGGTGGG
GAATACTTGTTTCCTCCTCGTGCCGACCGCTGGATACAAACGACCGTTTG
CCAGACAAAAAAGTAATATTCACGGACGTATAGTATACCCCTAAGTATAC
TTTCACAGATATATTCCCTTGGCATGCCAGGCCTTTCCACCATAAAAATT
AGTTTTTTTACTTCACTTAGCTCATACAATATCTAATCTTTTCCTGGTTA
AAAATATTCTTGTACTAGTTTACTCACAGCTGATCAATGGTCGCTCTTTT
GCTTCCTTTATTACTGGACAGGAAAATTTTAACCCTAGTAAATAAAAAAG
TGCATATTTAAAATATTTTCTCATTTCTTTGATTTTGTAGGATTTTGATT
ACGATGGATTTGCTGGTCCTTTCTCATGGGAAACCAGGGTAAGTTTACTT
ATTTCCATACAGGCACTGGTAAAATTACCACAATATATCTTCCACTTGAT
CTAATCAATCACAAGCAATATTTCAGTTTAAAAAACCCTGTCTCAGCAAC
AGCCTATGAGAATATTTTAGCTAGTGAAAATAAAGGCTAATGAGGATAAA
GCTCTAGTGATAAAAGACGTAGCGGTATAGTGGTTATCGTGCTAGACTTC
TGTCCAGGAGGCCCGAGTTCGATACCCACCATGGCACTACGATTCACTTG
GCAAGTGAAAGCTCCTTCGCCCGGGTCAACCCATATGCCATGTGAGGGGA
ATTGGGTACCATAACTCTGATTATGGGTAGATATTCCAGACATTGTGGTG
TGCTGAGACACTTAAGAGATTCTACACCTGCCAGGACATCCGTTCTCCCG
TGTAGTTGGAGTGTCGTGGTATACACCGTGGCTCGGCAGCTTGCATCTGC
AGGGTTGCAATGTCTGCTTGCACTATGATCCCTACTCCATCGTGGGTAGG
ACCCATTCTGATGCATCGGAGGGTATATCTATCATCTATCATCGTATTGA
TGCAAAGATTGGGGTTCTTATTCTATTGATTGGAGCTGCAAAAAGGGAGA
CTCAACCGAGTATGTGAAAGATGGGTGTAATTTGATATCCAGGGAGCATC
GACCTAGCATTGTACTGCATTGTACTATGTTGACGTTTGGGATGCATCTT
TTAAGTATGAAAGGANCCGACCTAGCATTGTACTACATTGTACTATGTTG
ACGTTTGGGATGCATCTTTTAAGTATGAAAGGATAGCTCAGGTAGAAACT
TATGGGATAAGTAATAAAAATAAGTTATAGCAGATAGATAAACAGAGACA
TACCCTATGTCATAGACCCGGTGGGATCCCCACCCTCTGGAAGATTTAGT
CAAAAATTTTCCCCCGGTGGGAAAAATATTTTCTCCTCTGGAAAATTGAC
TTTGATTTCGTCCCTATTCAAAATTCAAAGAAGAGATATTTTGAGCTGGG
AACAATGATAGAATTTCTATCCCAATCGGGATTTCGATAGAAATTTTCAT
TCCCACTGTGGGAAAGAGATTCATCGGGGCTGTGGGATAGGGTGTATACA
TAAATGGTGGAAGCACAAAACAGACTGTGTATTTTTTTTAGCGGAGAGAA
GAAAACAGAAGAATACGACTGGCCAGTCATTGATATATTCTTTGAGCAGC
TCAGTATAGAAATAACGCAATGATGGCCTCTCTTGGAAAAAATCGAAGGA
ATAGTGGGAGGGGATAAACAAAAAGATATATCTTGCATTATATGAAGAGA
ATTCTTAAGTACAAGATATTTCCTTTTTCGAATAATAAGAAGAAAGATCG
ACAGGAGGTCTCATAAAGAAAGAATTCTAATGAACAGCCTTCATCATAGG
ATATCTTCTATTCAAAATATTATGACGTCATCACACAAATGATACAGATT
TTTCCCATCTCTTGAAATCTTCATCAAATAATCAAACCTTGAATTGAATT
ACTTTTATGAAATGAAAGGAAAAAAACGAGTTGTTTTTTTGAATGAGTTC
ACTCAAGACTTTTTGGCGCTTTTTGGTCGAAACAATTGACGAAATAATGG
TGAAAATCAAATACTAATAAACACCTTTACAAGTGGGGAAATTCGTTAGT
GGAAAATTTACTGGAATTTTAAACTATTTGCAGTAAAAATGCAACTAGCA
AGGAGTGTACATGACATTTTAGAAAATGCTGACGAAGCATATTTGATGGG
GAAAGTGTACGATGATAGAGACCTATCAATTGATTACACAGAACTTGAAA
ATGAACAGAAAGAAGAAGAAAAGAATAAAGTGGTCAAAGAATTGATCTTG
GTAAAACAAATTATTTTTTCCTAGTAAAACTTTTTAGAGCCGATAAATGT
TGGCTTAGCCGGGAATTAACTAGTTTTCGCATTTCTTATTGTTTTGAAAT
TTTAAGATGTTTTTAATATGGTGCACGTTTTTTTATAATTAGCAGTGAAC
TTCAGTGGAGACCCAATTGTTCTCCTTTTTTCGAGATTTTCAGGCTCAAC
TATTCTAAAACTGTTCTTAATTATTCTTAATTATGCATTCTTCACTCACT
TGTTGGCTTAAACGGGTTTAAAATCAGCATTTTCTTACGCTAAGATTGTT
CTTAATCTACTCTTAGGTTTTGGCAAAAATTGAGCCTCATGTTCTTACAA
ACTTGTTTTTTTATTAAGCAGCCCATTTTTCTAAGGGCTTCAGAAGTTTT
TTATGTTTCGGCTATAAATCTCATTCTTACAACTTTCTATGAGTGCAAAT
TATTAGTCGGCTTTTAGTAAATGTCGTTTTAAAAGAAGGGATAAATTAGA
AAATCAAAATATCTATAAAATTATAAAAGATATCTGGTTACTTGTCAGAA
TTGTTTTCGTCATCCTTTACATACCTTTACATAAAAAGAAGGGCTCATAC
AGGATAATACAATGATATAATCAATGTAATGTCTAAGTATATAAACAAAC
TTTTTATAAGAAACATTAGGAGAGTTTTGAATATTCCATTGAATAAAACT
GGTATTAAAACCAAGATCGCCGAACACAGTTTCAATGCTTCCAAGCATTT
TTCTTAAAGAAATTTCAAGGCAGAAGATAAAAAAATGTATAGGTAAGAGA
GATATTTTCCGTAAGGAATCGTCAAGAAAGATAAGGGAACCTTTTAAACG
AATATGAACCATGATTAGTTCTTATAGAAAACAGACCCTATCTAATTCAC
TGATCAACGATAAGTATCATGTGAAAAGAACTTGTTGGGGGTTTTTATCA
CAGAGGAATGTATAGTTTTGATGCGGTTTGAGAAAAGATAAACTTTTTTT
GATAAAAGTTCGCTTATAATGAAAAGTCCACGTCTAGATTTTTGTTAGAG
ACTCGTATTGTAAAGACATTTATTTTGATTGAGTCTGTCTGAGAGGAGGA
TAGGATTTAAAGGCGGAAAAATGGAGTTTAAAGAAAGGTTGGTACTAATT
CTCATTTCGCCATTTCGGTACTTGGTTACAAAAGAATAAGCATTTTAGGG
CATAAACAGCATAAACAGGAAATCCTTGAAGAACTATATTTTGAGGGTAT
GAAAACCGTCCGTAATAGGCATTTTCATAAATTACGTCACGAACATCACT
TGCCTCGTATTCAAACAATTACCATGGTTATTATGTCCCTCATAAAAAGT
AGTTTAAATAAAATCTGCTGGCGGAGTTAATCATCATGGCAATAATATCA
AAACGAGGCAAGTGAGTGACGTAATTTGTGAAAAGGTCTATAGGAAGCAG
GGTTTTAAGAAATAGTGATGGTTAAAGCCATAAGTTTTCGAAAGAAAGAT
TTTTGATTATCAAAGGCAACAAAACATGAAAGCATGGAGCGATTTCACTG
GTAGATGCAAATTGAACTTCGTTTGTTTGTTATGTTTTACAAACAATTTC
CATAGTAGATTAGAAAATATTTTCTGCGGAAAGAAAATATTGACCTAAAA
CAGGACTTGGTTACCACTCATTGCAAAGCACATATCAAGTGCTCTAAGAT
GGAGAATTTGAAGTAAGAGTGGGACTTTTTTTCGTAAACACTTCCTCGTA
GGGTTTTTTATAAAGATGCACCTTAGTTTTACGTATTAATAAATTGAGTA
CGGAGGAGTATTCAAAGGTCGAGCGAGATATCTCCTTCGTTGGGACTGAT
TTTTCTGTTTGTTTACTTTTTTGTAGTCCTTGCAAGAAATGGAATTCCCA
CCAACTCCAATAGGAGAACGAAAGCTTTCACCAGCACCTGGCAAAAGTCA
TTTTTCAACCAAGCAATTACCGAAGAGGATGGCTAGTCAAGATTTAGATG
ACTCACATCGTAGTTACGAGACCATCGAACAGTTACGAGCACGTTTGAAG
CAGAATTATTTAGAGGCGAAACGGCAACGCGAAAAATATTTGAATTTGAG
TCCAACTCGTAAGAAGGACAGTGCTAAGAATTTAAATGGATACCGTTCAA
AAACCCAACAACAACCTGTTTTCAAGAACTATAAACAAAAATCTGAAGTC
CAAGAACGAACAAACGGAGTTGTTAAGTTCGATAATCAACTATCAGTCAA
CGGCGTTCGAACAAATAGCCCGAACGATCAATCTACGTCTGAATTATCAC
AAGCTCTTTCTAACAAGAAAACAACAAGCGATCGTGAAATAATACCGACC
GTCTATTTAGGTGATCAATCCAATCTGAAATCAAGAGACTCTACTAGTAA
TTTGAACGGATTTTCAAAACAAGAAAGTTTTGACCAACACCGTTCACCAC
CACCGAAGACCAGTGAAAAACCACAAGGCTATAAAACGAACAATGCCTCA
AAATCAACGGTAAAATCTCCAAAACAGATGCATCAAATGTCGAGAGATAA
TTCAATCGATCTAGATCGACCTTCGAATCAAAATCCAGGATCGACGAATC
TAACCCGCAAGAACAGTCTTAAGAACTTGGTCAAGAGGAGCGACAGTCGG
AGTAGCATAAAGAAAGACATTAAGCGTTCACCTGAGATTAATCATAATGA
TATCGATAATGTGCTGACTAATCATAATATAAATGATGACATCAGCAAAA
AGAAAATACACCATGAAGAAGTGAAAGGAGAAGAAGAGGTAGATAGTTTA
CCTACAGTTTCTTTCTTACGTCAAAATGGATGTCTCTCCTCGCCAGTCTC
CTTTCTCACGTAGGAGTTCATTGATGCGTTCCACGCCCTAACACTTGACC
CCAGGGCAGATTTATGGCTCTTTTCACTTCAGATCCTAAAGTTTGACAGG
ATACAACTCTGAAACTAAGAGTTACTTAGTTACTAAAACACCCCTATCTC
TGTGCCCCAGTGGGAATGTTGAGAGCCCAGTGGGGTGGGAATTTTAAAAT
CTGAAATTCACTGGGGTGCAAACTTTCATCAAATGTTGAGTGGGGTGGTA
AAAATTTTCTTGATTTTCACTGAGGTTGAGAAACATTTTGGTAACTTTTT
GCATGAGCTGACTTTCACCTGTAGATAATGGTTCCAGAAGAAGGGGGAGA
AGATTCTAGCTGATTTATTTTTGAAAGGAAAGTTCTACTGGGGTATGTTT
AAATCAGGATATTTTGAGTGGGGTATGTGTATATGTATACGGGATGTATA
CGTTTATCGATCTGAATGGGCTATTTCTTAACTACAACATTTCAGCTGGG
TGAGTGATTTGTCCAGTGGGACGAAAATATGGGCCATTTATGGAAGAATT
TTTCACTGGGGTGATAAGGGGGATTGATTCCACCGGGTGACAATATGTTA
AGGATAATAAGATAGTTTTAGACCGGTCCCTAAGTACACACAGCTGGAAC
AGAAAGATCAAACTCAACCATGATTAAGTTTTCATCAAAGTGTTTTGCTA
ACGCAAAGATCTTCACTGAGTATTTGTACTGGAGGCAGTCTATTTTTTGT
TTCATTGATTAAAAACACTATTTCAATTTGCGTTGACAGTTCTTGTGGTC
TCTGTTAAGTTTGAAAACACTCATCATCGATACTTCTAAGAGAGCGAATG
GTTATTTCTGTCACACACAAAGTAAACAAATCCTATATTTGACAAGATAG
GCTTTCAACTTTCCTCTGTTCAACAATCAAAAAGGTTAATCCTTGTTCCA
GCTATCTAACAATACAAAAAGACTTTTTCGATAGAATTATTCTCTTCCAC
GATACATACCACCAAAAATTAATTCTTGTAATGACCCATTTGACCCTTTT
AAACTCTAGCATAATCATACTTCATGTTGGCATTTGGTTTATTAGGTGTA
ATAAGGTTATTTTCCTACAGTGAAATTTCGAAAACAACAAGAGCTTTGAG
GTATAATTATTTTTCTTTTTAGGGTAACGAATTCGATGTTATGGACATGT
TAGCGAATTGGTAGATGGCATGGTTAAACTTATACAAATATGTGTCATGT
ATCTCGCGTATTTAACATGGAAGTAGCCACCGAGCCACCAACAGAACTAA
TGAACAATAGGGTATATGTTCTGGACGTGCTTGAAATCAATTAGCTACAG
ACAATCGATGCAACAATAGAGACAATTTGTGAATTGTGATCCTTTACTTG
TTTGAAATGAATTATTTTACCCGGTCGAGACAATATGGATCCAAATAAAG
CTAATAGCATCCTGTTTTATTCATGTCAAATATTAACGTATTGTTGATGT
TAAAAGGAAATGCTTTATCAGATTATATTTCGACATCGTGTTTGTTTATT
TTGATTATGGTGAGCATGTCATGGTATACAACATGGTAAATTATTTCCGC
AGGTCAATATTTTTGCAGTATGTTCAAATAATATGTTGAGTTTGAAAGAC
TAGATAACGGTAGAAGCTAGTACCGAGGTGGCAGAGGGTGACTGGGGAGC
AGCCCCCCTCTAATGGGGTTACCAATAGGAAAAACGCACCGCTGATTACC
GATTTTGCATCCTTTTCCTTTTTTTTCACATGAAATAGCATTTTTAGCAA
AATTTTCCAGAAATTTCAGGCTCACTGCTTTCACCTGTTTTCCCCCAGTT
TGCCTTAATATTTGGTAAGTCACCATTGGTCATTGGCCAGCGCAGTATGT
TAATCAAGTTTTTTTTAACCTGAATCAAGAAATGCAGAAATACTATATTC
TCATATTCTCATGTAAATAGCTTACAATATACAGTATTTATATTTTCGTA
CTTTTGAAAAATCAGGAATAGAACAATGCGACAGTCCTTGAGATAAGAAA
CAAAAACATACAATTTATTTCCTGATACAGATACAGGGAGGGGAAAAATT
CAACAGCTCGGCACAGACAGGATTAAAAATAAATCACAAACCATGAAATT
TTTGTGAATTTTGGTTGGATTGGATTTATTTCATCCGAATGAATCTCTGA
TACAGAACTGTTTACGAGGAAATCATACATTTATCATAATGTC
Gene-mRNA-Prot
The following transcript feature(s) are a part of this gene:
Feature NameUnique NameSpeciesType
TCONS_00015705TCONS_00015705Clytia hemisphaericatranscript
TCONS_00015704TCONS_00015704Clytia hemisphaericatranscript
TCONS_00015703TCONS_00015703Clytia hemisphaericatranscript
TCONS_00015702TCONS_00015702Clytia hemisphaericatranscript
The following polypeptide feature(s) derives from this gene:
Feature NameUnique NameSpeciesType
TCONS_00015705-proteinTCONS_00015705-proteinClytia hemisphaericapolypeptide
Position
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
sc0000215supercontigsc0000215:388633..399075 -
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
0.15	0.17	0.04	0.07	7.52	6.2	14.05	15.15	4.85	7.61	5.46	4.37	16.23	14.14	10.85	8.65	20.11	25.47	14.97	16.24	15.09	12.91	6.58	8.45	26.89	20.27	4.47	2.9	8.27	8.82