XLOC_000520 (gene) - C. hemisphaerica

Overview
NameXLOC_000520
Unique NameXLOC_000520
Typegene
OrganismClytia hemisphaerica (Jellyfish)

Sequence
The following sequences are available for this feature:

gene from alignment at sc0000005:1354866..1363302-

Legend: gene
Hold the cursor over a type above to highlight its positions in the sequence below.
>XLOC_000520 ID=XLOC_000520|Name=XLOC_000520|organism=Clytia hemisphaerica|type=gene|length=8437bp|location=Sequence derived from alignment at sc0000005:1354866..1363302- (Clytia hemisphaerica)
TTTTTATTTTATATTTGTGAAAATCAATTTGTAATTAAAAAAAGTTCTCA
CAGAAAATAACACAGATGCAAAATTAAAGGTGTAACCTGAGATGGTGGTG
CACCCTTGGGCTTTGGCTTTGCCCATTCAGGTAGCTCTTTATCAGGAACG
CATTGCTTTTCCATTTTATTATCTCACCCTTGCCGCAGGAGGGTCACGTT
TAAGTTTTTCTTGTTTCTCAGAATTATCAGTTTTGTCAGTTACCCTAAAA
AACAGAATTGAAATTGAACCTAAGTAAGGGTTTAATGAATTACATTCCCC
TTTAAACAACTTTTTCATTTGTATATAATAAGTCACTGTGTATATAAACT
AAAATTTTTAATATGAGAACTTTAGAAAATGAGAAAGACTTTTTTTGAAC
AGCCAGGTAAGCACAAAATCTTTAAAGATTGAATGAAAATTAGGAATCTC
CCCAAACTCAGCATAAATTCGTGCAAAATAAATATAAAAGGCATTTTTTA
CCACAAAAACCCCTCTAATATTTTATCTAGAAAAGTTGGAATTTTTTGCA
GTATATGTGCATTTATTAGGATCTTCTTATTTTACAATCTCTTAAAAACG
GTGTCAGAATCAGATGAGGGATGTCAACAACAGTCTTTTAAATAACTATA
TTTCACCTGATTTCACCAACAAAATAAAAACAAACAGCAAGAAAAAACCA
TGTGCAAGTCCAGAAAATTTTTATTAAATAAAATGTTTACAACCTCAAGA
TGTCAAGTTAAGACTGTTGTAAGAGAGGAACCGTCAACTGCTCTAACTTG
GGACGATTGGTGGTAACAAGGGACTGGTTGATATCTGGTCTGTATTTTCA
CTTACTGTTAAAATCTTTTTAATGACAAATTTGTTTTGATAACTCCACCA
AGTTTATCAATCATACCGTGAAAAAGGGTAACTTGCATCAGTGGAGGCTA
ACATGCATAGCCCTCAAATGAAAGGCCCGGCTGGTCATTAAAATACGAAA
ATAAATCGAAACAAAAATGGTAGAGTNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNCGGAGCTGCGTATGTGTATTTTAATGACCAGCCAG
GTCATTCATTTGAGGGCTATGCATGTTAGCCTCCACTGATGCAAGTTACC
CTTTCTCACGGTACTTCTTCGTTACGCTTAGAGTGCACAGACACTTGCGG
AGTGCACAGACACTCGCGTGTGTTCCACTACGGATTTTTTTCATATTTCG
ATTTAAAAGCCTACTCGATGCGAAAGAGAAATCGTGTATTTTTTAATACG
GCGTTCATTATTAACTCAAATCAAATGACTTTGGAGGTTCCGTGAAATGG
TGGCCGAATTGCCGTCCCATGTTTTGTCAGATAGTCCCAAGTTAGAGCAG
TTGACGGTAATACCGCAAAGTAGGGTAACTTGCATCAGTGGAGGGAAACT
TGCATAGCCATCAAATGCCTGACCAACCAAAAGCAGCAAAATTTCAAAAC
AAATGAACTACGCAGCTTTGCTCGCAGCTCAACTCTACCATTTTTGTTTT
GATTTAACTTTGAATTTTAATGACCAGCCAGGTTATTCATTTGAGAGCTA
TGCATGTTAGCCTCCACTGATGCAAGTTACCCAAGCTCACGGTACGGAGC
AGATAATTTACGACCCAAATGGCTGGAGTAATTTACTATGCAGAACTGAG
TCAATAGGTTGTCACATTCACCTAAACGACTATACTAGAAACTAGATTAT
CCTGGACTGTACAAATAATTTCCACCATTTTTCAGAAAAATGGCTGATTG
TTCATTGTTGTTTGTGAATCAATCTGTTCTCACCACTTTGAAAGAAGTTA
AATAATAAAAAAATTCATGATGATTGTAATCGTATGACACTAGTCATGCA
AACAACCTGACAACAAACAAGACGATAATAAATAAATGTACAACAACATC
AAATTCATGCTATTTTTCTAAATTTCAATTTTTTTTAACTGTTAGCTGCC
CTGGCTATTGTCTGATTGTGAAAAATGAAGACAATAAACTATAAATTTAA
GAAAAGGAAAAGCAGCCCTTTTCATTATTACTTAATGTTTTTGCCCTCTT
GCAACTTGCAAGACTTGACTTTCCATTCAAGGTCTTTTTTTTAACCAAAA
TTCCAAAATGTTGCATGACATGATCAAAGTCCAGTTGAGGAAAAAAAGTT
TGTTATGATTCTAAACGCCATACACCAAAACATCGTTTCCCGCCTATTTC
AAAGTATAGCTTTTAGAAGTCCCCTAATTTAACAACACCCAACTAGAATC
CGGGGGTAAAATGGAGCATACGGTTTTCTAAATAACCACCATAAGGGGCC
GTAACTAATAACAAATACTACTTAATTTCAGTTTGACTAAGATTGCATTA
ATTTTGATCAAAAATGATGGTAATTTATTTTGAAGAACATTTTCAAATTA
AGATATTTGTGAAACTGTCAACACCCCCGTCATTGAAAATGGGTAATCCG
ACCGATTGTTTTTACCAATTTATTATCAAGCAGTATCTTTCTGCTTTTGT
CTATCAAGAAATGATGACTTAAAATGAGATAATTAGAAAGAAAGCTAAAA
ATCAAAGAGATCTATCAGTTTGACATATTTTGAAGACGGGGGTCATTGAT
AAATTCATCAACAAACATGTTATGCAAAACTCGGGAAAAGAGATCAATTG
CAAAAAACTACGTTTTGGGGGCCAAAATCAGGTTATTTCACTCATGGAAA
GGATATGAAAAATTGTATTTTTCAGTTTTCGAAACTAAAAACCAAGGAAA
AATGTCGTGGTTCGTCATTTAGTAGCTACCCCCTAACTCAATTTAAATCC
AATCATGGAAAGAAGAGATCAAACTTGTAGAATCAAAATTGATTTAATCT
CAAACCATCCCTGTATTGTCCTTTATTTTATACAAAACAATTCGCATTTT
TTTCTCTTATTATAACGAACTTGAGCAGCACATCGTCAAGTACTCGCCTC
GATTGGTTATCAATTTCTCTCCAGAGAAAAAAATTCTGCAAAAACTTCTA
CATTTTTCATCGTAAAACTCACACATCAAGATGCAAGCCGTCAAATCGAA
ATTAGCTTCATTGAAAGCTAAATTGAAGGAATCCGAAGATGCAGCTAATG
ATGCCGAAGCTGAACTCAACGAGATCAAAGAAAAAACAGAAGAAATGGAA
ACTTTGGTAAGAAATTTCGTTTCATCTTTTGAAAATTTATTTATTCAAAC
GAATATTTTTTGAGTCTGCAAATTAAATAGATTTATTTAAATTAACTTCA
TAGCCGCGCTAGAGGACGTTAGTGATTTAAAAAGCCCTTGCTCGATTCCA
TTATTATTGACCACTGTCATTTTCACTCTCTCTCTGAATATATAAGATTC
AAAATATCAGATCACAACGCTTGTGGGTGGTGTGAATGCACCTTTATGTC
CCTTCCCAGTCGAAAATCTGAAATATATCAGTCAGGGGTACGCACAGTGC
AAGCCACAGGACAAATCAGAGTGCAGATTTAGAGACAGGGGTGTTTGTTT
AGTTGTTTCCTTCAAATGCATAACACACATCTTTTGTCCTTTTGTAAAGA
AATTCATCTGAATTGAAGTCATTACTGAAGGCCCTTACAGGAATGCGATG
CCTAATAACAAATATGACATATAAGATTTTTTTACTTATTACTCCCAAAG
CTATTAATAATGGTAAAATTGTGATATTTATCCTTATCTTTTCTGGTCAG
AAGTCAGAATGAGGCAACGAAACGTAATTATTAGAATCTTTTGAGGTAAA
CCATACCACAGACATGCTATTGCATAAAATAACTAAAACTTTGCTGTTTT
GTAAACCCTTTGTAACATTATTACAAAAATCGTTTAGCTTAATATATAGA
CGAAAAGATTACGAAGACAATATAAATTGCCTTAAAATATAATTTTTCTA
TGTTGAAGGTATTCAGAAAACAGACTTAATTTTAACGTATGTGTTCTCCT
AAGTCTTCTAAACAGCATTTTTCTTTTTTGCATAATTAGCTTTAATTGAA
GAGATGAAGCTCTTGTATAAAATATAATTAATGTTGAAGGTATTCACTTG
TTCATTGCTAAGAGAAACAGACTTTCTTAACATATGTGTTCTCCTAAGTC
TTCTAGCAGCATATTTTTCCTTTTTTGCATAATTAGCTTTAATTGAAGGG
ATAATGCATTTACTGTCGCTTAAATTTAATTAGCTCTAATGATTTTGGTT
TAAAGATGCCAATTATCGATTATAAATGACAATTCTTTGTGTTGTAATAC
CTTTGCTATTATCATTTTTTCTTTACTAACTTATTTTTCCTAAATATGGT
TGGAAATAAGGGGGTCATCCTCAGATTATCAATAATAGGGTTTAACTCAC
TAACATTTACGATCTCAAATTTTTAGACAATTTTTTATACGGTAGTAAAA
TATATTATGATACATACAAGAGATTATACAAAACAAAGGAAATATTGACT
ATGAAAAATCATCATATTTGACAAGCTGAATTAAATCATTATGTCTCCTC
ATGATGCTAATCCATTTTCTCTCCTCCGCTGGGGTTTGGGACAATAGCCA
GATTACTATACTTGACAAAATATTTCAAGTGCGATGGAGAGTGCTAAATA
CAGTATATGATAGTAAAATCGGTTTAAAATCTTTATAAATGACAGAAATA
TAATAACCGTGTCCGTCATACTAAGCTATTATGAAAAAAGAGTCAACGAT
TAAATAAAAGAGTAGTGGAGCCCTATATAACACAAAATGTAAGGAATTTA
AAGCTTTTCTACTGTGCTTTAAAAAAATACGAATTAGATTGATTAAGACT
AAAAGATAATGTGAAATCTCTCATCTGTATTATGTAAACTAGCAGGTGCC
ATCACGAGGTAAATCTTTTTGTCACAGTAAATTATTGAGATCATAGATAT
ACCTTGATTAAATTGTCTGCATGTCGAATCCAAAGAGATAATACTAAAAC
GAAATCATGAACCTTGAAAATTTTACACGCTTTTTTTATAAGAATATACT
TTGATATATGATGAAAATGGCCAAAAAATTAAGAGTATGCTAAGAATATC
ACCATCATGGAATCAGGCAACAAACCCTAAAAATGTCACTTCAAGAACAA
TTTTTTTAACTTTTGAATTACCAATTATTCCAAAGTAAGGTTTAATACTT
TCACAAAAATGCCATTTTTATGCTTCAGATGTTTATTTCTTGTTAAATTT
AGTTTGAATTTCGATTCTAACATAAGAATACCGTACGAATATTTTAGGAT
GATTTTTCCCAAAAAGTTAAGAATCCAGGATGAAATGAAAAGCACCATTC
TTATAAAAAAAGCGTGCAATGGAGACTTATTTGGGGTTGAGTCCTATTTC
GTATGTTATTGCCCAGGCTTGGTTTTTAACCATGGTCGTACCTATGTGGA
TATTTTAGTGGCAAACAGTTTATCTTACACCCCTGTCTCACAGCCGCGGT
GGAACTTTTACCGAGTTTATGTATCGGAGGATATCGAGGGCGACGGTAAG
TGAAATCGATACAAAACAAAGTCGATAGTTGATGTACGGCTCTATATCGC
CTTTGCTCACCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNTGTTTTTACCGTCGTCGAGCAAAGTGGACGGT
GATTTTGGAGACATGTCAACTTTGCTTTATACCGTCCCCCTCGATTTATC
TCGAATACATAAACTCGCTATTTTCCTCAGTGGGGATAAGAGTTCCTATT
GAAATCCCAATGGAGATAACAATTCTATTGCTCCAATGTTAATAAATCCA
GTGGAAATGATTTTGGAGTGCATTTTTTAAACATTGAATTTTAAGGTCAA
TTTTCCAGTGGGCTGAAATTCTAGGGTATTTTCCCATCGGGGACGAAATT
TTTTCTAGTGGGGCTGGGGTCCCAGCGGATCCGTGACACAGGCGTGTTAT
CTTGAAAACACAATTCGAAATTTCAACAAGCTCGCCATTTCCAGACTTCT
TTAGTTTAATGTCCAGTTTATACGACACTCTTCAATCGTCAGCGCAAGCC
AGTATGACTTTTCTCTAAATCCAATTCCTTCGTCTACATACCAAAGAACG
ATAAATAGAATTTACCTCTAAAAAAACCACCCAAGCACGTAACTCGTTTT
AGCGCTCAGACAAGAATAATGACGTTATGGACTTATGATGGATGCTGGTA
TATATAGGGCCTTGCCAGGTATAACCTTGTTTCACTGAGATCCTTTTTCC
TAGTTGATAGTTAAAGGAAAACGAAAAACTGAAAGGCGATTGCCTAAAAT
GTTAAATTCGATGCAAAACTCATTGAAACTTTCGATCCCATTGGGAAAGT
CACTGGTGATTTTGTAATGGATTCCGTGATTTTGTAATGGATTTTTCGGA
AGGGAGGGATTCCATCGGTTTAGTGACCTTGGAAAAAAATGAGAGATTGC
CCCGTTGGCTGTTTTTAATTTTTTATTTGTCATTTTACAAGAATAAACTG
TTAATATCTTTTGCTTTTATTTACCTTTAGGGAGCTGATCTCTCGACCAA
GTTAGGTGAAATTGAGGATAAACTCGACGAAGCAGAATCACAATTAAACG
AACTCACTGCCAATGTAGCAGAAAACGAAAAAACATCCGACGAAACAGAT
CAAGCAAAAAAGATTATGGAAAACAGAGGTCGAAATGATGCTAGCAAAAT
TGAAGAACTCGAACGAGAATTAGAAACATTGAACGAAATGATCAAAGAAA
ATGAAGGGGAATATGAAGAGGACTTGACATTAGGTTCGTATACAGTTTTC
TATTCTCAAAATGCAAAGAAGGAGATTTTGGCAAAAATCTTTTGAAATTT
TAACAAATATTTACTAAAGAGTGGGGGGTGTTGAAGACATGATGCAAAAT
AAAATAATTTTGGGTTAATCAGATTGGGCCTTCTTTGAAATGTGGAAGCA
TTTGTGCGTCAGTCAGAAGTTTTGGTACAGCATCTTTCACCAGCGCTCAT
AGATACTTCTGTTTTCTGTTTCCCAATAATGGACTTGCCTTTTCCATAGT
TATCATGAAAATTCCTTATCAAATCTTGTCATATTCATTTCGCTACTTCA
TTTTTATCTAGTAACCGAGCTTGAAGAACAATTAGACGAAGCAGAAGAAC
GACACGAGTCCGCTGATGCCAAACTGAAAGAACTCGATTCTCAATATATA
TTGATCGGAAACAGTCATAAAAGTATGGTGACGAACGAAGATGCAGCTGC
CGATCGTGTAAGCCAAGCTGATTCAAAAATCTCTGAAATGGTTAGCCAAG
TCGACGAAAAAGAAGAATTGGCAACCGCTATGGAAGCACAATGGAAAGAA
CTTGAAGACGAAATGGATAAACTTGCGATGGAGGAAGAAGAATCAAAATT
AACGTTCGAGAAAAAACAAGAAGAACTTCAACTGGCTCTTGCAGAAATTA
ACGATTTGTAAACATTTGTTTTTTTTAGTCAACTCTAGATAATATCTTTG
CATACGCTTCCCCTATTTCCTTGGGTACTCAGCATTGAATTTTCTACAAA
TTCAAAGATTAGATACCCTAACTCATGGTGTACGCGAAACTTTACTTTTC
ATTTTTCCTCATTTTTATAAAAATAATTTTGTAAATTTTTTGATACCTTA
TTTTTCTCTTTTTGTATGTATTTATTGTATGAAAATTTAAGACTCCCGTT
TTTTTTGTATTATCATTTTTGACCGCACCTGTAAAATAGCAACTTTTTCG
TTTAAACCAGACAAAGAATAGGAAAATTCAAATATTAATATTTCTTTTCT
GTCATAATCTTCAACAGACTTAGCGCCACCGGTAGCATCGTCTTGTACGG
TTAAAAAATTTTAACACCCTCTTGAATACTTGAAATCATGCGTTGAATTC
GGGCTCGTGACAAAACTTTCAGATTTACGGCATGTCGGTGAAGTTAATCG
AGCACGCTGGGGAGACAACACAATTCAAAAGAGAACACAATTTGCTGTAA
GAAGTGCTAGACCATGTATGAGCAACATCGAGGGACTCAATGTTATCATT
ATCTACTCCTGACATTAGACAAACATTGCTCTAAGACAACTCATTTTAAA
GACTTTTAGACGAAATCTCGAAAATGGAAAGACTAGCCTTATCTTAGACT
TTCTCTTAAATATTCATCTTCCTATTTTCAAAGGGTTTAAAACTATGCCA
CAATAACTGAAGGTACTGTAACTGTTTTTCTCAAATAGTTTATTTTCAAT
TACTTTCAGAGGTTTACCCTGTACGCAGAAGAATTAT
Gene-mRNA-Prot
The following transcript feature(s) are a part of this gene:
Feature NameUnique NameSpeciesType
TCONS_00000881TCONS_00000881Clytia hemisphaericatranscript
TCONS_00000880TCONS_00000880Clytia hemisphaericatranscript
The following polypeptide feature(s) derives from this gene:
Feature NameUnique NameSpeciesType
TCONS_00000881-proteinTCONS_00000881-proteinClytia hemisphaericapolypeptide
Position
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
sc0000005supercontigsc0000005:1354866..1363302 -
Orthologs
The following orthologs are found for this feature:
Ortholog NameDescriptionOrganism
TPM2tropomyosin beta chain isoform Tpm2.2st Homo Sapiens
TPM3PREDICTED: tropomyosin alpha-3 chain isoform X2 Homo Sapiens
TPM4tropomyosin alpha-4 chain isoform Tpm4.1cy 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
0.22	0.59	0.41	0.4	33.81	25.78	329	339.67	117.39	120.51	27.2	36.1	461.48	453.17	0.7	0.41	336.37	440.89	783.45	632.21	688.23	639.93	348.5	392.23	299.27	345.68	255.51	168.19	1.87	1.14