XLOC_033745 (gene) - C. hemisphaerica

Overview
NameXLOC_033745
Unique NameXLOC_033745
Typegene
OrganismClytia hemisphaerica (Jellyfish)

Sequence
The following sequences are available for this feature:

gene from alignment at scaffold_231:109269..119563-

Legend: gene
Hold the cursor over a type above to highlight its positions in the sequence below.
>XLOC_033745 ID=XLOC_033745|Name=XLOC_033745|organism=Clytia hemisphaerica|type=gene|length=10295bp|location=Sequence derived from alignment at scaffold_231:109269..119563- (Clytia hemisphaerica)
TTAGCAACCACAAAAAATAAAAAAGAAAATATAAACAAGAGGAAAATGAA
AAAGAAGAAGGGTTGATTGGTTTTGAATGAGGAATAAATTTCAGTTTTGT
TTGTTTTCACCTTTGGTATTTGTGATACAGAATTTGAAAGAATTCTGTTG
AAAATGTGAACAGGAATGGGATGTGCTTCAAGTAACTATCAGAAACAAAA
TATTCAAGTGACACCTTTGGCTAAAAAGAAGAAACAAGATGTGATCCCAA
ACCAGTCTCCTTATTTACCTAGAAATGCAGTGGAACCTTTGAAAAGGGTT
TTCAATCCTGATGCAGGTTTGTTGGTTACAATTTTGAAATCTTATCTTGA
AAGTTCAAACAATTTCAAAAGGGTTTGTCTTATTGCATACGAGTGAAGCA
CTTTGATACTCTTTTCTTTAGCTGAATTCATGAGCTGAGAGATCTGTTTA
TTTTACGTCAGAAGGATTGTTTCAACTTTCAGCCTTGGCATCATCAATCA
TCATTCAAAAATGGTACCGAAGATACAAAGCCAGACTTGAATTGAAAAGA
CATTGTGCTTGGAAGGTCTTCCAAGAAATCGAATATTCTGCTGAACATGA
CCAAATTAACGTATGCAAAGTTTTTTTTGTAATTTCTCTCCCAATGAATC
CATAAATCGATTATGCGAATGAATTTGTGCATAGTTTTCTCATTTATCGT
GAACGACATGAAAAATACTAGTAATCAGATTGGCTGATCGCGTACATAAA
TGCTGTATTTCGTATTGTACCGTACAAGACCGTTCAAAGAAGGGGCTTGG
TAAGCGAGAGACCATATTTTGTACTTTCTTGTTGTATCTTATACCCAAAT
TTATTCTCAGAAATGTTTTCTTTTTTCTCTCAAAGCACAAAAAGGTTGTC
AAATAAGAATGTTTTTAATTGTTTAATGACAACTCGAATCATTTAGAATG
TTTTGATATTGATACCGAAATACAGGAGTGAAAAAACAAAAATTAGGGAA
CAAAACACAATCTGTGACTAAATATTGTGGCAAGAATTCCCTTCCCTCAC
CCCTAGTATCAATGTTTATGGGTAGAAAGGCTGCTACCATGCTCAGAAAA
AGCTCACATTAACACTGATATTAGGGGGGAAGGGGTTTTTCAAAAAATTG
CCACATATTTTGTCATTGATTGTAGAGAGAGAAAGTTTGTTGATATTGGC
GATAAACCAGTTTATCACACTTTTACTTGTACAATATTGGATATATATTT
TTCTCGTTCAAAGTTTTCTATATTTTGTATGACGAAAAATTTGAGCTCAA
AAAATATATCCAACATTGTATTCGGTACCGTGCGATAACTATTATGAAGA
CGAATGAATGGTCTAAAACCATTCCAGGAGAAGCTTTGAATTATTTCGTT
ATCCTTTTTTTTTCAGCTTTACAACTTTTTCAATGAGATGGTATCAAATG
TCGAAAAAAACGGCAGTAAGATTCTTTAATTTTCTTTCAGGGATCTTATT
TTCTGTTTCTTCAAAAATACCACTTAGATGAACCTTTGTTATTGTAACAC
TCCAGTGTTTGGGAAATGTGTTCTTCTTCTAGTACTCTTATAAGTCTTCA
TTGCTCATTCTTTTTAAATTATGGAAAGGAAATAAACTTTTGGACTCTTT
TTGCTTTTAGACCACTCGAATAAAGGATTTGTCAATATGTTGACCAAAGC
TCAAACCAGCAACAATCTATTGGAAACTGAATCCATGGCTGAAGTTTCAA
ACATGGTGGTGGATAGCTCTTATAAAGGACCGCACGTCGAGCTACCAATA
ACACTGGAGAAAACAAAAGAATTGCTGGAATATTTCAAAGGAAAGAAAAG
ACAGGTAGAAGTTTGTTTATTTATGAATTCATATCATTCTAAATATTTTG
TTCTTATTTTATTATCCGGTTTTTAGTAGTTGAGTTATCCACGGAAGAGT
TAGCCTCGGAAGAGTTAGCCTAACCATTTCTTTTAAGAACTAATTTACAT
ATAACAAGAATTCTTAGGACATTTAGCCTTTAGTACTTACTAAATGATCC
AAATATTATTAGTTAATTATATATTTAGATTACATTCCTGTCTCTGAGAA
ATCCTTTACCAGGATAACTAAAATATGCTTTGCACTTTCTTCAGATATTA
CATCCGAAATACGTGAAAATGATTCTATTGGAAGCGTTTTCGCGAATGAA
AATCCTTCCCAACGTCATAGAGATTAATTTGAATATTTGTAAACAAGTCA
CTGTGGTTGGTGATATTCATGGAAAGTTCAACGATTTCATCACTATATTT
AACAAGGTAATTAATTCCAAATTTTTAACCGCATGGGCTTCTGATCAAGG
GTTAATGACCAACCGGACGTAAGTCTATTGTAAGGGTTAACGAAAGAAAA
ACTTTGGGATATGCGAAATTTTAGGATATGCATTATAATTGTTGTTTTTG
GTCAAAAGTTTTCTTGCATTTTTGGGCCAAATTAGGGCCGAATATACATA
ACAAAACAGGCTTTCCCAGCTGCCAGCAGTTATAGGTTAAACCTTCTTTA
TTTTTTCATCGTACATAGTAGATTTCTACTTTTTTTCACCAGCTTTCACT
GGAAGCTGCTCAATATGCTTTGCTTATCTAACATTAATTCATCATCGATG
TTTCGCCTACAGAATGGGTTGCCATCTCCTGAAAATCCGTATATTTTCAA
TGGTGATTTTGTAGATCGTGGTAAAAAATCATTAGAGATTTTCCTGCTGT
TGTGTTGCTTCCATGTTTTGTACCCAGATCACGTGGTATTAAACAGAGGA
AATCACGAGGATTACATCATGAACTCAAGGTAAGAACATTTTCACCAAAG
AGTTTGCAACAGAGATGTGAAGAGGAGTAAAAATGATTTTTTCTAACAGA
TGAATTCCACTTTTGTATTATGAAATCATGAAATTAATAGACTTTAGCTC
TCAACTTCAGTTGAGCTAGAATTGTTTGTTTGTTCGCAACTTTGGGGGCA
GCGTAGAAGACGAAAAAAGTTGTCCACGAAGCTAAAATTTGGCACACCTT
TGACACACTCTATTATTCACAAGTTCTTCCCAATTTTACAAGGTTTGTGA
TCTTATTTAACGTCAACTAAACTAAAAATATGACGTCAAAAAAAAACTGA
ATAACTGAATCTTCCTTTATCCAGGGTACCCAGAGAAACACCCTCCTGGT
CTTATAAAGAAATCTTACTTAACCCAGGAATCCATCCTAAAGGTTTTATA
ACTGAAGTCTCCTCTGAATCCTTAGTACACATCAATCGGATTTTTCTATT
ATGCCAATGAGCCTTTCCTAATGTCTATAATGGCAATGCCTACACGTTTT
TTTATAAGAACAAACTATATAAGAACATAAGGCTTCGCTGGTCAAAATTT
TAAGAACAAGTTGAAACATTTTAAGGCTTTGTGGACTCAAAAACACCCTA
TTTCTTAGGAAAATGGTCAAAAATATTCACAAAATGATCAAAATAAGAAC
ATGTTAAGAACATTTTTAGGCTTAAAACTCTTAAAAGTTAAGAACACCCA
AAGGCTTAAAAAAATTTGGATGTTCTTATAAAAAACATGTATTAGGGTTG
ATGATTTATAAGCTTTCTTATTCCTAGGCGTAAAGTTTCCCTTCCATTCG
TTTCGACACGAAAATGAATAAGTAGTGATAAAAGTCACACGCTAAAACAC
ACGTTCAACTTCTATACGTTTTGGCACGTCACCATTAATAAATATCGTGC
TGGAATAAATGAATGATAAAGACCTTGTGTTTACAATAGGAAAACTTGTT
TTGGCTACTTTATTATTAGTCATTTTCAGCATTTCTGAGTTCTTTTCCCG
AGAAGAAATAACGAGTTTCTTATTTTACACGACGCATGCATTTCCAAAGT
CTATTTCTAAGAAGAAAAATGTCCATTGACGTCACAAGTTTCGATTGCAT
CATTTTAGTGAAATGTCAATAAAATATTTTTGCTTTCCCTTGTTACAATG
ATCATCGTCTTACAAGTAAAGAGTATTATGGCAGAAGTATGCAGTGAATC
AAAGAGAACTTTGTCAGTGAGTTGAAAGCTCATCGAATTTTTAAAGTCAT
GAACAGAGCACAGGGAAATGAAACATTTTGCTACGACCTTCCCATTTCTG
TTGGTAATTCTACTTTGTGTGGTATAAAAGAGCTTTGGAAGACTCCATAT
GAAGATATTACGCTTCAATTTAAAGTATATTCAATGATCGTTGGATATGG
GGTGATTCTTCTGCCCTTCTACGTCATCGTTTTCTTTCAAATGAAAGGAG
AATGGAGCAATAGATATAAAGAAAATAGGAGAAAAGAACGCCGAGAAAAT
ATAGAGCAATCTATGTTCATCGGTGTCAAATGGTATATCTATTGTTGCAC
TATCAAGAATGCAAAACTTTTGAAATTCAAGAGTTTCTCTGCAACAGTTC
TCTTGATGTTCTTCAAAATCATTTGGGACTATGTAGATTTTATTCTAGAT
ATGAAAATTCATTATCAGTATGAGACGGGTGGTTTGATTGATCCTGGTAT
CACTCGTCAACGGAATGTATCTGAGGCTATCTTCGGGTTCCCCCTCTATG
GTTGTGCTTTGAAAGTTGTCGCTTCCTTTGGGAAAATCGCTGCTTGGAGG
GGAACACAAGTTCAACTGGATGCCATTAAGTTCGACTTATACGCTTTGAG
CGTTATAACTGAAGACGCACCCGAACTATTTTTGGAATATTTTTACATTG
AGAAATACATTACGTCATCAGCCAATTGGTGGATGATTCTGAAAGATGTG
ATCATTGCTGTGGTAACCTTGGTAACATGTTATACTGCGTTCAAAGCAGT
CCGCTCAAAAGCACAGGAAGAAAACGAAAGCACAAAATGGAAAATTTATG
AAGTTTTCCTGGCAACGACAGTTTTCATCTTTAGTATTGCTTCATTTTTA
CGGATTGGGGGAGCATGTTATCAGTATGTGACACAAAAGATGAGACGAGA
TTGTTTCAATGTAGAAAAGGGACGAATTATTCAAACACCGTTCACATTTG
GCTGCATGCGTGGTATTGATTACGTCATCTTTTTGTTCAGTGGTTTATCA
CTGTTGGGGTGTATCTTAATCGCTCTTTTGTTTTTCTTTCAATGCTTTTG
TGGAAAAGACTTTGGAAACCCTAGAAAACAGGGACCAAAAGGACTTATTT
CGTAGAACGATTCCTTTAAACTATACTTCAATATATGAATCGATAATTTT
CACTCACTAATTTTTAAAGTTCACTTTTTTCAGTGATCAAAGTTCTTCCG
TCTCAGATGGATTTCCGTCTCACTGAAATTGTTGTCAAAGTTTTCCGTCT
CAGTTAGAAATGATTATTTAGCAACAAATAGTGATTTTATTCTCTAGAAT
AATTCCATCAGAAAGATATCTCGTATTAAAACTGTGTTTCTGGCTGATTT
TACATTTTGGTCATGTTTATTTTTAAACCTTTTTAGATAAATGTGTATTT
TCGCTGTATGATCGGCATTTTAAGAACATTTTGAGTTGTTTTAATTAACA
AATTTTAGAGCCTTTCTAGCCAATCTAGGGGGTAAAAAATCTGAAAATTT
TCTGGCCCTCGCCTCGGCCCCAACCATGGTGGGGCCTGCGGGTGTCACTG
TACGCCAAAATATCTCTATTAAGAAATTTTCCGTCTCACAGAAAAAAACT
GCTTCGACCACTGTTTTTTACTATCGATCAATATTTACTTTAAATATTTT
TTAAAAGACATCATTTACCATTCGCTTACACAACGTTCTCAATTTTCTTA
CACTCCTGCGCTGCGCCACACAAATTTTGAGAAATTCTTTTGTTTATTAT
GCTTTGTCAGCATAAGAGTTGCTCTTCCTTTCTATAGCACAAAAAAATCT
TATTGGTTATCCTGTACAAATCTGAGAAAAGAAAAAACTTATTACAACAT
CTTCATTGTGTAGTTATGGATCCCACACAGGAATACTCAGAAATTATCAG
CGGCTTTCCATCCCGCTTTTCCAGGGAAAAATTATTCTGTGATGAGATTT
CTGGCCTTCTGGCTTTCCTCTATTGAAATATTTCGCCCTTTCTCTATTAT
CTACCATTCAGTATTGCAACATGCTTCCCTTGTTTTTAGGTACGGTTTTA
CAAAAGAAATTACAAATAAATACAAAGTAAGTAGTTTTCCTTTTCATTTC
GATTCAAATCCAAAACACTATATAACTCTCATTAAATCCTGTGACTATGT
ATCCCAGAATGCTTCATAATAGAAAATTCAAAATCCAAAATTTCCAATAT
CTTACTAATGGCCCACTCAGATGTAAAGAATTTCATTGTTCCCTTAGGGT
GAAGCTGGTCATATTATGGACTTGTGCTCCAAAGTGTTTAGTTGGTTGCC
CTTAGCAACATTGATCGGTGAAAAGATATTCGTCTGTCATGGAGGTATTT
CCGATCGTACGGATTTGGAACGTTTGAGGACGGTTCGTCGCCATCAGGTA
TGAACCTTTGTCTGTTTTTATAGTAAAAGAAATTTCGACGCCAGTAAAAT
CATTTGTAATAAAAAACTTCCGGCTTCCCAGCTCACGTAAGATACCCTAT
TACACTTGTACAACTACTCAAGTATTTAGCGCAGGTTAAAAGAGTATGAC
AATTTATCAACGGAAAGGCCAAAGCTTTTGAAATGGCTCAAACTTTGTTA
GACAGTTATAAATTACACGACACGGGTCAATTCGCGTTAATAACATGACC
AGTTGATTTTATGTGGTAAGGTAGATGCTTCTATGTTCTTGTTTTCTTTC
TTTTTTTTAGTTTTCTTCAGTGTTGAAACCGACTCATGTTTCCCTGGACG
ATCACCAACCTCCTTCTATGGAGGTCTTGCAAGAATGGGAACAGGTTTGT
CTTTCAGTACTGTTTTTTATCAATTTTATAATCAATATTCGATTTCATTT
TGAACTGTTGTTTTCTTTATGGAAATGTCATCTAATGATCATCTTGACTA
AGCCACACACCAGATAAAATAAGAATTTTTTTCTTCTGAATTGTGAAGTT
TAGTTTTACTTAAGTAAAGTCTTCTTCTTTTGGACGTTGGACGTAAAGTA
TTTTTTTCACACGGATTTCCGGAACCTTCTATTGATAAAAAATAATGTAC
TGTAAATTTACCGCGTAAACATGGGTCAATTCAGATAGAGTCTATTTAGT
GTTCGTACCTTTTAAAAAGTTTATTAGACGTTTTGAACATTGCATGTTGT
TAAACCGAATTATCCCTAGACCAAACTTCTTAATTTGAAGTATGTGACAA
ATATTTTGAGGATCGAAATGCAGATTTTTAATTCATGTCATTTGTTTTCA
ACCTTAGATTATTGACCTGTTATGGAGTGACCCTCAACCTCAACTGGGGA
AGATTTTCAATAAATACAGAGGTGGAGGATGTTGCTTTGGTCCTGACATC
ACTAAATTGATATTAGAGAAGTATGATTGGGATCTGATCATTCGTTCGCA
TGAATGCAAGTTCGAAGGTTACGAGTACACACATGATGACAAGGTATGAT
CAGTCTGTGAGCTCATTCCCCAAAAGACCTTTTTGTTTATAAGACTTATA
AGCAAATTTGATATTCTTCTTTTATAATAGCTAATTCAAAAACATTTAGC
CTCTCTTCTTCATAGGTGCTGACCATCTTCTCTGTGTCTTCGTATTATGC
AAGTTCAAGTAATTTGGGCGCCTATGTAAAGATTGACGTCAATTTGAAGC
CAAGAATCATCCAATTCGATGCTCCTAAAACGCGAATGACTGTCAGGTCA
GTTACTATTTATCCACCTCGTCCTATTTCTCAAAACTCAACTCTCGATTT
GAATTTTAAACTGAATACTAAATGGCATGGAACATATTTGTCGTCGTGAT
CCTGGCTGGATTACTTTACAACAACTTTCTCTCTTAACACTTAAAAATAA
TAGAAGGCCAACTCCTGTACTGTGCAGGGTCGATCTGTTAAAGACGGTTC
GTATGATTAGACAGGGGTATGATTTTGTGTTTGAAGCTAGTCATTGGAGA
TTGAAATAACTTTCTCCTTCTCCTCCACAGAGTGGGTGTAAACTTTCTCA
TTCTCATCCACAGGGTGGGTGTAAACTTTCTCATTCTCATCCACAGAGTG
GGTGTAAATGAAGACGAAGCGACTCAAGATTTACAACGAAAAATTTACTC
ACAAAGGGAAGAACTCTTGGTAGAGTTTAAAAGGCTTGATCAAAAGTCGC
AAGGTATCTTCATGTCTAGCAACTTACCTTGACTGGAATGTTTTAATGTT
ATTTTGTTCAATCCTTAAACTTGCCTTGCCTCCTTTATTTACTTTTACAC
TTAACATTTGTAGTGACCTGTGCATTTTCACTCGTCATCGTAGAGAGAGT
AAGAGTCATAGAATCTTCGTGTTAACAAAACTTGATATTTTCATAAATCT
ATATCTACAGAAGTTCACTAAGCACAATGCTTGCGGATTTGTATTGTTAT
GTGCTCGATGAAACCAAAAGGGGTTCATTTGTGATACCATAACCGATTGA
CTTTCTCTTTCGCAGGGAAAATTCATGTGCAGGAGTGGACAGTTGTGATG
GAAAAAGTTCTGCAAATGAAACTTCCATGGTATTTGTTACGCCCAAAGCT
TGTTGTCCAAGATGAAAATGGATTCATCCTTTACGAGACTTTGTTCGAAG
GATATCGTATCGATTCAATGTTACCACAGGTAATGAGTAATTACTNTTTC
GCAGGGAAAATTCATGTCCAGGAGTGGACAGTTGTGATGGAAAAAGTTCT
GCAAATGAAACTTCCATGGTATTTGTTACGCCCAAAGCTTGTTGTCCAAG
ATGAAAATGGATTCATCCTTTACGAGACTTTGTTCGAAGGATATCGTATC
GATTCAATGTTACCACAGGTAATGAGTAATTACTGTCTAAATCGTTTGCT
CCTTTATCAAAACTCCTTTCCAGAAAATCCTTTTATTTTGCCAAAAATTA
TCACGTCAACCGTAAAACCACAACATAATATCTTAAAAGCCGTGTCAATT
TCGCTCACAGTTATACTGTAATTCACAATGAAATCTTCCTGTTTTAGTTG
AATGGCAATGGACTATCGGAGACGATCTATCGGAATAAAGATGCCCTGTA
TACTGTTTTCCGGATCATCGATAAAGACTGTTCAGGTATAGTATACGAGC
GCCACCATTTCTTTTCTCTATCTTCCATTTGAATCTCGAAGTTTTTACAC
TGGAGACTCCATGACTCGCAAGGGTATTACAAATTCGTCCGAGATAAGTA
AATTTGGAGTTATGGAGTAAGATTTGCATGGTATTATTAACTAAATGGAC
GAGAAAACTTGTTTGAGTTAAAAAGCAGTCGAGTTATCGAGGTTAAAGAG
ACTCTCCTGTACATAAAAAGGATTACTTGCAACTATTTTGTTAATAAGTG
TTTTTGTTTTTGTCTTTGAAATGTTTCTCGAATTTGTCAAAGAAAAATGT
TCAGTAGCCATACTTTTGATAGATAACAGAAGGTTAGATTTCTTTAGTTA
TCAAAGTTAGTTAAAGTTATATTAGTTTTAAATTTGGAGCCTCTCCTACA
AACCCTCATCAAAAGTTTTGATTTATTCTTAGGTTTCATTTCAAAAGAAG
AATTTGAGGAAGCTTGTCGTGTATTGAACAATTTCAACGATCAAGAGGAC
ACTCCAAACTCAAGCATTAGTGATTTAGCAAAAGCTCTTGACATCAACAG
AGATGGAAAGATTGACTTCAATGAATTCTTAGAAGCCTTCCGATTGGTCA
ATCACTCAATTGAAGAACAATCAAAATCATCTATGTCAGTCAATGGGTGA
TATTGTTTATTTGCCTTAAGTTGCTTCCATTGTATATAACATGTCTCATT
TGTAAATTATTCTGATTTATCTTTTTAAATCACGATTCATGTTTCTTCCA
TGGTTCTTTTATGGTTCGAATTTTCCTGTAAATCAAGGATGAATAAATAA
TGAGTTCGAACCAGCAAAAAGTCGACTGTACTTTTAACACGATTTTCAAA
GACGATGGTATTATGAAGTTGCCCGTGCCTTTAAGGAAATTAGTACACAA
ATTCTCGTAAAGGAGGCAAGTTTAACAGTGCCTCCCTGTTTCGCTACTAC
CTCTGTCCTACCAAACATAAACTTTCGATTTTCTTCTACTACTCGTATAC
GCCATTTGTAAATAAAGATTTTTATTGTTTTAAGAGAAGATTTGTATATT
ATTATGATGACTATTTTTAAAAGAAAATATTTATCATGTTGTTTT
Gene-mRNA-Prot
The following transcript feature(s) are a part of this gene:
Feature NameUnique NameSpeciesType
TCONS_00053452TCONS_00053452Clytia hemisphaericatranscript
TCONS_00053451TCONS_00053451Clytia hemisphaericatranscript
The following polypeptide feature(s) derives from this gene:
Feature NameUnique NameSpeciesType
TCONS_00053452-proteinTCONS_00053452-proteinClytia hemisphaericapolypeptide
Position
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
scaffold_231supercontigscaffold_231:109269..119563 -
Orthologs
The following orthologs are found for this feature:
Ortholog NameDescriptionOrganism
PPEF1serine/threonine-protein phosphatase with EF-hands 1 isoform 1 Homo Sapiens
PPEF2PREDICTED: serine/threonine-protein phosphatase with EF-hands 2 isoform X1 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
3.99	4.09	23.93	26.16	37.35	27.69	23.93	25.33	21.25	21.53	17.4	20.65	22.74	20.37	6.62	7.72	11.13	13.04	37.18	46.03	20.85	22.35	9.48	11.9	58.06	50.21	17.71	15.87	9.43	7.93