XLOC_037153 (gene) - C. hemisphaerica

Overview
NameXLOC_037153
Unique NameXLOC_037153
Typegene
OrganismClytia hemisphaerica (Jellyfish)

Sequence
The following sequences are available for this feature:

gene from alignment at scaffold_315:83199..93530-

Legend: gene
Hold the cursor over a type above to highlight its positions in the sequence below.
>XLOC_037153 ID=XLOC_037153|Name=XLOC_037153|organism=Clytia hemisphaerica|type=gene|length=10332bp|location=Sequence derived from alignment at scaffold_315:83199..93530- (Clytia hemisphaerica)
CGGTGTTTGCTGCGTCGGTGTTTGTAAAGGTAAGTCATATTTCATCAGGA ATATACTTATCCAGCATCAGTCAGTCAGCTATCGACAATCAAGTGATAGT TATTACTCAAGTGTGAAGCAGCATTTCTATTTTGTTTCTTGTTAATATTC CGATGCACAAACAAAGGATTGAAACAAAACCCTCCCTCCCTCCTGCCCTG CCCTTAGGCCGATGAAATTTATATATGAGTTTACCGTCAGCCGCCCGCAT CTCTAAAAAGCACCCGCATGAAAATTTCATTATTTTCAAAATTCATAAAT TTTTCATTATTTCCATATTTCTTTACAACTACAACCTCTATCATTGTTAA AATCGTCTCTACGCATGTTTACACGGGATTTATTACAGATTTATTACAGA AAATGCTGCCGCCCTCAATCCTACAACTGCAGTGGGCGTCCCGCCCATAT ATCTGCCAAACCGCCCTGACCGCCATTTTAGTTTTTTGCAAAANNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGTTCGCAAAAGAT GCGAAGGGTTGAAGCGAAGCAAATTTTTTTATTTTGAGAGAGCATGATTG GCAGAAATGGTGGATAAGGTGCTGTTGGGAAAATACCGTGAGATTGGGTA ACTTGCATCAGTGGAGGCTAACATGCATAGCCCTCAAATGAAAGACCTAG CTGGTCATTAAAATACAAAGTTAAGTNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGTA TTTTAATGACCAGCCAGGTATTTCATTTGAGAGCTATGCATGTTAGCCTC CACTGATGCAAGTTACCCTTAATCTCACGGTAATGAATAATGAATAATGA AATCATGCCGCATCTATTTTTGGGTAAGTTCACGACGGTAAACTCATATG TAAATTTCATCGGCCTTAACTGTTACAGAAAATCATCCATGACCATGGCC ATCCACAGGAAGAGAGGCAGACAGGGGGTAGTCATGGACTATAACTGGAA CCACCTATTGGCTTTTTTAGAATTGCACCCTTGCAGTGCAGTCAGCAGAA ATAGGTGAAATTCAGATCAGGTCCTTATATTTACAGAATTTTACATCTGT ACATATATGTTTTTTTATAATATAAAAGCATACAAAAATCCAAAAGCGCT GGCTGGGAAATGCTTAGATTGAGAGATTTACAAAGCTGAAAAATCCTTTG AGGGATATCCTAAGCAAAATTTTAGAGAAATTTCGAAAATCCAGCCAAAA ACAAACAAATTCTGAAAATAAAAGCTCAAAGTAATGTTATTTAGCATTTG TTAACCGGTTGCTTTTTCAAAGCGGCCTACACTGCCCAGAGTTGCCCAGA GTTAGGAAAATTCATTGTGACGTCACTTTTTCAAAGGAAAATGAACAATG CGTTGGGTGGCAATCTTCGTTTCGCGTCGCCCGACCGACTCTCGAAAATT GAGTAGAATTGGGTCGGTGAGTCGGTAAATTTGTCAGACTTTTTCTGTCG ATGATGTTTCCTTCCTTCAAAAATTTTATTATTGCCGATTTTTTGCGAGC GATTTCTAGCGCATTCGCAGCATTTTGACTTTGTTTATCATTACATGCGC CATTTTAGGTTGTAGGTCATAGTGTTCAAAGGTCATAATTTGAAACCACC TATAACACGCGTTTGTTTTGGCTGCCGGCTGGCTGGCAGTTTCCTTCAAG AATATATACACTCCAAAAGTGGAGGATGTTTGGATCAAATTTTTACAACT GACCGACTCACTTTTTAGACCCAACGAGGACTCGAAATGAAGATATTTGT GATTGGCGCCTATGCTTAAATTTTTACCATATGAGCCTACAGTAGGCCCT AGATATACTTATAGTGCAATGCTTACTGTGTGAAAAAAAAACATGTACAG TAGTGCATTTTCTCAAATTTTCGACTCTTAGAGCTGATAACTCATAACTT TCAAGCAGCAAGAATTTGCAGTTTTCCTGGATTTGCTGAAATTTCAATCC ACCCTCAGGGATTTTTCTAAGCACTTTCTTACTACCGTATACCGGCAAAA ATACTCAATCCAAGATTGAGTTATGAAACTCAATCCGAAATATAAAAAAA AATTAAAAAAAGAAAAGTTTCAAAGCAGTTTTCTCAGAAACGCCAATTGT TTGTTTTTAATCAGTATAGAGTAAAGACAACACTACTGGGTCAGAAACCG TTCGATTCGGACACACGAACGCTTTTCCATTCGTGACGAACGGGTTAACC GTTCGCAACGAATGGAATGCTTTTGCATCCTTTGCGAACGCCCTACAAAA AAGTTTTATTGAAACTGTTCGCGACGAACGCTTATGCTTTTTAACCCGTT TGTGACGAACGGCCTACTGTAAAAAGAAAACCGTTTGTGAAGAACGCTTA CGAAAACTTGAGATATGAAACCGTACGCGAAGAATGCTTTTCCGAATGCT TTTAAAGAATCATTCAAAAAAACGTTCGTCACAAATGGTTTAACATACGC AACAAATGGATTTTAATGGAAAAAGTTTTAACTAAGAAAATTTATTTCGC ATTTACTTGGATTTTTGGAACAGGGAATGAATTTACTTATTGAGTTAAAA ATGGAGTTTGGTATACCCCTGTCCCACTAATTGAAATTCTTTATTATTAT TTTCGACAATGTAGGACTGCAATCGGACATTATGTCCGACTAGAAACACT CTTAAAAGTTACGAAGAAGCGATTTCATAAAAGTGATCTTAGATACACTC TTAAAAGTTACGAAGAAAACGATTCGATAAAATCGATCTTAGAAAACACT CATAAAAGTTACAAAAAATTACGAAAAAGCGATTTGATTAAAGCGATCCT AGAAACACTCTTAAAAGTTACGAAGAAGCGATTTGATAAAAGTGATCTTA GAAACACTCTTAAAAGTTACGAAAAAGCGATTTGATTAAAGCGATCCTAG AAACACTCTTAAAAGTTACGAAGAAGCGATTTGATAAAAGTGATCTTAGA AACACTCTTAAAAGTTACGAAAAAGCGATTTGATAACAGCGATATTTGAA ACACTCATAAAAGTTTCGAAAAAAGCGATTTGATATAAAAGTGATCTTAG AAACACTCTTAAAAGTTTCGAAAAAAGCGATTCGATAAAAGTGATCTTTG AAACACTCTTAAAAGTTACGAAGAAAGCGATTTGGTAAAAGTGATCCTAG AAACACTCTTAAAAGTTTCGAAAATAGCGATTTGATAAACGTGATCTTAG AAACACTCTTAAAAGTTACGAAGAAAGCGATTTGATAAACGTGATCTTAG AAACACTCTTAAAAGTTATGAAAAAAGCGATTTGATAAATGTGATCTTAG AAACACTCTTAAAAGTTTCGAAGAACGCGATTTGATAAAAGTGATCTTTG AAACAGGCATAATTCGATAAAGAATAGAGTAAGAGTCAGGGGTGTATGTG AGATTTGATCTTGATGAAATGAATTTTAAGAGAATCCTCATAAATTCCTT TGTAAATTTTTTCATGGTCAGAACTTTGAGCACAACTCTGAACCTGCAAA GCATCTCAAAAGCCACCCTGACCACGAATTCTTATGGAAAATAATCTTAA ACGCTCCCACGAATACCCGATTAAGAAAAAATCTGGAAGCGGCATTAATT GCCCTTAAGAGACCACGTCTTCATGACCAACTCGACTCTGCTCGTTTAAT TCTTTTTAGAAATGGTGTAACATAGATTTTAATAGAAAAGATACATTCAC ATAACCAGTGACAATGCCTCTTTTCATTTTTAATAGCTTTCTTTTATTAC TTTTTAATGATTTTAGACGAATAAATTTGTAACTTTTTTGATTTTCAATT TTACTATTCTATAGCACTGATGATGGAAGGACCGAAAAGCTTTTGCTAAT TTTAAATGTTGTTGTTTTTTATATTTTTATCAATATGGCAAACATTGATC ATATATCTTTCAAGGGTGTTTCAAAGTTAACTTTTATCGACTTGCTTTCT TCGTAACTTTCAAGAGTGTTTCTAAGATCACTTTTATCAATTCGCTTTCT TCGTAACTTTCAGGGTGTTTCTAAGCTAACTTTTGTCAACTTGCTTTCTT TGTAACCTTCTTTGTTTCTAATATCACTTTTATCAATTTGGTTTCTTTGT AACTTTCAAGGGTGTTTCAAAGTTAACTTTTATCGACTCGCTTTCTTCGT AACTTTCAAGAGTGTTTCTAAGATCACATTTATCAATTCGCTTTCTTCGT AACTTTCAAGGGTGTTTCAAAGTTAAACTTTTATCGACTCATTTTCTTCG TAACTTTCAAGAGTTTTTTTAAGACCATTTTCATCAACTTGCTTACTTCA TAACTTTCAATAGTGTTTCTAAGTTAACTTTTATCAACTCGCTTTCTTCT TAACTTTTAAGAGTGTTTCTAAGTTAACTTTTATCAACTTGCTTTATTCG TAACTTCCAAGGGTGTTTCTAAGATCACTTTTATCGAATCAATTTCTCTG TTATATACAGTAACAAATTGTTCAAAGGTAACTTTTATTTTTCTCGCTTT CTCCATAACTTTAAAAAAAAAAATATACACTGAATGACCGACAGGATTTT GAGTTTGACCGACAGGATTTCATTTCTGTCGGACATGATGTCTGATTGAC TAAAAATATTTATTTGCTGCCATGTGAAACCTTTGAACATACTCGTTGGT CAGTTTCCCTGTCTGCAATCAATCAAAACATCGGTTTTCAGGGCTGATTC TAATTTTTCTACCAGGTAAAAAGCCAGATACTGTAGGTATTTTTCTCATT TGTCAACTACATAGTTTTTTCGTCTATTTTTCATGGTTCCACACAAAAGA TTGGTGGTAAGACGAGACAAGCCAATTGATTTTCAAAATTAAAAAAAAAA GGTTGTTGGTATGTGTAAAAAAAGATAATAGATAATATAGGAGGTAGGAT TGGAGAGTTAAGGGAGAGTTAAAAAGGAGAGATTGGTCATTTTTCATTAA TAGTTTTTAATTTTAATTTTAAGTTTTTAATTGTAAATGTGTGATGTGTG AATAGAAAAAATTAAAAATTACAATATTAGATGACTGACTCTACTAAGGG TAGGGGGGGGGTCTTGGACTAGCGTCATTTTGACGTGGGAAATATTGATA TGTAAGTGCCCCTTAAATATATACTTAAAATTTAGCACAGACATTATTCA TTGAGAGAGCCATTTCAAGTTGAATGGCAACCAGTAAAATGATGTAAAAT GAGGTCATTTTTTGCCATAATAACCAGAAACTATTTTAAAGGTTTTATTT TTATTTTCCTCTTTCTGACCAAACTTGCTCCACATCCGTGTCGATTCAAT GTGAAAAAGCTTGTAAATTTAATTTGGTGAAGGCTCAATTAGAAGATATT TCTGATTTTGATTATCGACTACTGGGTTTCTATGAGGAAAATCATCAGAA ATAGGGGGCTTATAATTAATTGTTAAATGAGTGTCCTCAACAAAAACAAA TTCCCTTACACCGTCCTAATAAACTCTTTAACACAATTCTACAACTAGAA CCTCCTTAATTCGAATGTCTCCTTCTTTAACTCGAACAATTTTGTAGTCT CTTGCGAGGTTATGCTTTTTGTGTCCCTAATTCAAATTCTTCATAAAAAG AGCTTTTCCTTCACCTTGGCATTCGAGAAACTCATCTGTACAAGCAGTTG ATTATTAAAAAATACTAGAGAAATGCATTTTTTTTTACATTTCTAATGAG TTATGAGTTGAGTTCGCTGAGTTTTGATTTTTTGGCCTGTTTGATAAAAA AGAAAGACTTTCCTTGGTTTATGGGAGCACTCTTGATGAGCAATTTATCG TTTGTACAATAATTTCTACTCAAGATATTATAACGTGATAAGACTCATGC AAACCCCTTTCATTCATAGTTTTATGTAAAATTTGTCAAATTGTCATGAA ATTCGTATAGTTACTCTTATTAAAAAACGTTATACTATCTTGTATATTTT CAATCAATCAGAAATGGAAGAAGGTAAAACAAACAAAATAAAATTCGAAC GAAGATGTCCTGGTATTGGTGAGTTTTTAGCTTACACAAGTGTTGTAGTG GTTGCATGTGCCGTTATAGTACCTCTCGAATTGAAGTATGGTTATTCGTC AAGAGTATTTAATTCATTCCATATGCATAGCACTAATGACGATAGTGTAT TGCATACCTTGATCAACATTCTGGGGCTTTTCAAGAAGCCAGCTGCACAA CAACCAAGTACTGGAGAAAGGATATTCACTAAAGACGAAATCAGACAATA TTCCGGTGAAGTCGAAGGGAAGCCGATCTATTTAGCATACTTAGGTGAGT TTTTTCATCGTGCCTTCTATTTAAGATTGTATTGTCTTTCCTGCTATCAG TATCACATTCCAGTTACTTTAGGCGTACAAACTTTCGCGAGCAGAAACTT TTTCAAGGTCGAAAAATCGCGAAATCTACAACATTTACTTTCGCGAATTT GAAAAAAAAATTTTCGCAAGCATAAACTTTCGCGAATTAGGAATATTTTA AGTAGAAAATTCAAGTTTTCGGTGCAGTCTTTTGATCGTTCAAATGTACT CAATCCACAATTGATGGACCTTTGTGCATAATTTCTACAGTAGATTTTAT CTTTGTTAACATCAAAGAGGAAAATTTGAGTAAATTTTCTATTCAGATTT TTTTTCGGGAGCATAAACTTTCGCGAATTGCCCTCTCAAGAATTTTCAAG GACATTTACTTTCGCGAAAAGGGCTAGAGTTTCTGCTCGTGAAAGTTTGT ACGCCTAAAGACTAAAGTACCATTCCCACATACCAATGCCCACGATAATC TAACCTGGATATCCAAGCAGCAAATTTATTTCTTATTTTGATATTTCTGC TATTTACAGCTTGCCGATAATCATTTAACAATGATAAGGTGCTATTCTTT TAAAGAAACATATTCAATCTATTGTTTTGGGAATTTTTTATGGGAGGCTA GTACTGCAGTTAGCCTGGAGATCCATGCTATGATTTGTTATTCTATGTAC TGATGACGAAATATACTAATACAATAATAACTGGTTTTGAGGTCAATATT TTACGTATTGACCGAGAAAACAGTTATATTATTGTGCTTATTAACTGGTG AACATTCTTTGTGTGTTTCTGGCCAAAAAAAATGCATTTTCCACTAATTT TCCATGATTTTTTCGTTTCTTTTTTACCCAATATTTTCTTTGATTTATTC TGACGTCACTTTCTTATGAGAAGTCATTGCATTTAAGAAGTCATTTTTTA AATCATGTTCAAACTGACGAAACTTTTCTATAAAACAAATTTCCCTTTTC AAAATCATCGTCAGTTTGACCAAAGCACTGAAGTGGTCTTTACCTGTCTT TACCGTATTATATTGACCGCTAGAGAACCAATCAAAATAGCGCATTTTCT TGTATTGACCGGCTTTTACTTCAACCACTTAATAAAGCATGGTATGGGCT GAGAGTTTGAATTTCCCAGATCCTAATAACGGTTGAATTCGAATTTCCCA CTGTAAATATTTTGAGGCAGATATGTGCTTCACAGGTCATACCCGTCCTG TATACATCAGATTATAAAAATACAGGACGGTTCTCCTGTCTAGTACTGCA GTATGTAGCGGATATTGAAATCTCCTCGTGACTTTTGTATTCAGGAAAAG TTTATGACGTCACCACTGGTAAACAACATTACGGTAAAGATGGTGCATAT CATTTCTTTGCTGGCAAAGATGCTTCTAGAGCTTACGTCTCTGGTCAGTT CAACGATGAAGGGTTGATTGACGACATTACTGGACTACCAGCTGGTCAAT ATTCGGGCTTGAAGGGTTGGACTGATACTTTCGAAAACAAATACCCTTTT GTTGGTAAATTAGAAGGTTTCTTTTACGATTCAAAAGGCAATGAAAAAGA AGGAATTGCTATTTATCGGCAAGGTTTAATTGAAGCATCGAAATTCGAAG CCGAGGAAAAAGATGATGAGAAAAGGTTTCCAGGATGTAATTCAAGATAT ACGCCACAAACGGGTCATGAAATTTGGTGCTCCACTAACAGGTTTGCAAA TCTACTTCAATCTTTTATCAATTATTCTTTAAAACACCCATCATAAACAC ATATAATCCCTATTAAGGAAGCTAAAAAGACGCTAAGAAATTTCCTACGT TCAAATGCTGCCACCAGTACCCACTAGAGTGCAAAAATAATTAATTTTCG GACATCTTAGTAGGGTTACTTATTTTCATTCTTCATCTATAATAAATTTC TTAAAAGTCACGACAATTTTAGCTTTTTCTCTATCGAACCTATGTTTTAA GGGATGTCAGACAAGCTTAATACCCCTTGGAAGTATCCTTAGTTATATAT TTTTTAAATGGTTTACTTAAATATTCATGATTAATATCTATGGTCGCATG CCCAAACCTTCCGTTAGTGTAGTAGTTGGTGGATCCAACACACTAGCAAT ATGGAGATGGATTTCTCCCAATTCACCGTCTCTGACCAGTCGGTAGACAA GAATTCACTTCCAGCTCTACCGAGTGACAATTGAGTCCTCGGGTTCCACA TGGACCCGTAGCTCAATGGTAGAACAAATGCCCGCGAATGGCATGATTGT GACTTCGAGTCTCGCAGGATCCGTTGGTTTTCCAACGGTTCTGGTGGCCT GGTCAGAAGACAACATGAGAGCGACTATATTCACTTCATAAGGGCATGGA ATATTCATGGTTTACTTAGTATACGTTAATGATCTTTTTTCTCTCCAAGC CACTAAATCATGATGATTCAAACAGATAAACAACACCAAAATTTTGATTT TATTAAACAATCAATAATAATAAAATTAAAATTTTGATGATGTTTATTTG TTTAAGTTTAATTATTTCTTTTTCCATTTTAGTGGGGCTGTCGATCGTGA TTGGACAGGATATCCCCGAAAGTTTTTCAAACCTGGTCGAACGAATTTCC GTTGCGCGTGTGTTCCAAAGGCTCTACTATCTGACCCTCGTTTCAAAGAA TTTGATGGTTGTCCTNTCGTTGTGCGTGTGTTCCAAAGGCTCTACTATCT GACCCTCGTTTCAAAGAATTTGATGGTTGTCCTACAGACTCTGTAAAATG TAAGTTGGTCCAATAATGTAGGTGGAGTTGTTTGACTTTATTGCTGGCGG TTAGTTAATGATATGACTAATGGTAGAATTTGTTTGAGATCACACGTGGT GTTTTTTATTGATATGATACTTTTGAAAAACTGATTCTTCATTGGTAGAA AATTCGTCGGCAAAAAAGTATTTAGATAGATTTTGTTTTAAACTGTATGA GGTTAAAGGCTTGGGAACACGAGTTTTTTTTGCGTTGGTGTAATACAACA TGCTCCATCCCACCAACCTGAAACGCTTTCTCGTGTCTCCATCCCCATTT TTCTTTTAATAACATTTTGTGCTTCTCTCACTTTTGTCCCTGGGACAAAA TCAGCGTGTCTTTTGGGTATTTCCCTCACTTTTTGTCCCATAAAACAAAA AAGGAAACAATGGGATACGCACTTTTTTTCAGGTTCGTGGGATGAGTATG TTGCATTGCACCAACGCGAAAAAACTTCTCGTGTCCCCAAGCCTTAAGTT TATTTATATCGAATTTTTTTAACGATGCATTCTGAAAAGTCTTTGTACTT TTTCTTGTTTATGGTGATTTTTATACATTATAGAAATAAAGATAAATTTT CGATGAGGTTCCTTGAATATCTGTTTTGAACCTGCTCTACCTATAATGAG AAGAAAAAACAGCTCTATCTTGCCAGACTCTTCCCCTTGGAAGATTGTTA TGCGCAGGTAATTTTTACGAGTTACGCAAATTTAATTAAATTGTTGTGTA GATTTGTAAATTCCGATTTTTTCTATTTAGTATAACTTAGGACTTAGGCA GGACTTTTTGAAAATATTGACACGATTTCAGATTTTAGTATTAATTTCTT AAGTGTGATTAATTACGTGCTTCTCGTACCTTTGTGCCTTTTTGGGTCCC GAAAAAAATCTCTTGGGATCCCGAAAAAAAAT
Gene-mRNA-Prot
The following transcript feature(s) are a part of this gene:
Feature NameUnique NameSpeciesType
TCONS_00058993TCONS_00058993Clytia hemisphaericatranscript
The following polypeptide feature(s) derives from this gene:
Feature NameUnique NameSpeciesType
TCONS_00058993-proteinTCONS_00058993-proteinClytia hemisphaericapolypeptide
Position
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
scaffold_315supercontigscaffold_315:83199..93530 -
Orthologs
The following orthologs are found for this feature:
Ortholog NameDescriptionOrganism
CYB5D2neuferricin isoform 1 precursor 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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min expression (1.68 tpm) - - (32.81 tpm) max expressionaGrOo_1GrOo_2FGOo_1FGOo_2EG_1EG_2P1_1P1_2P2_1P2_2P3_1P3_2PoPr_1PoPr_2St_1St_2GO_1GO_2PH_1PH_2BMF_1BMF_2MMF_1MMF_2M_1M_2GEC_1GEC_2GEN_1GEN_2
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
27.2 25.26 27.01 32.81 20.88 15.6 20.41 22 17.02 16.82 13.22 10.43 7.97 7.96 6.23 6.55 8.6 9.57 1.68 3.07 7.07 6.26 15.47 12.87 16.02 18.38 13.11 9.92 14.01 13.54