XLOC_044731 (gene) - C. hemisphaerica

Overview
NameXLOC_044731
Unique NameXLOC_044731
Typegene
OrganismClytia hemisphaerica (Jellyfish)

Sequence
The following sequences are available for this feature:

gene from alignment at scaffold_69:187942..196547+

Legend: gene
Hold the cursor over a type above to highlight its positions in the sequence below.
>XLOC_044731 ID=XLOC_044731|Name=XLOC_044731|organism=Clytia hemisphaerica|type=gene|length=8606bp|location=Sequence derived from alignment at scaffold_69:187942..196547+ (Clytia hemisphaerica)
TGGGAGAATGTGACAGTcctttgaataactaattactccagcagatattt
ttttaatgataacGTCATATAATCCATCTGTCTTTTACAACAAAGCTGTT
ACAGGTAAGATAATTCATCATGTTTGGGTGGAGTAATTTATCATTCATTA
TCATCATCCCATTCTCCCAACGAATATCCAATCAATTGAATGTTTACTTA
CATCAAATGAACACAATTGAAGAACACAATTTAATAATTGCTTTTCGATT
GTCTcggggggaggggtacttaggcaaatggagggtacggtatgtgccgc
ccttaagggtaccatttttagacttccaaagtcctgctaagggtcagaaa
aatcagaaaatcaaatttcagtcccactaaaggtcggaaaaataggaaaa
tttcaacttttatagaaatttggtccaaattggtcaaattttcctttgtt
ttctcctttttagtcccggtaagggtccaaagttcgaaagttgggcggca
ccccccgtcagcttgcaaccctaatacgctaatagacgatatcggcttaa
cgtgaaaactcagatttgatcccggaatattgcccacaatgctttgtgca
gaaaaaatttcaccgtgaatttttttccgcgcaaagcattgtgggcaata
ttcggggatcaaatctgagttttaacgTTAAGCCAATATCGTCTAATGTA
ATCAAATTTTACCCAGGATTTTCTGTTCGATTGCTTTGTTTACGCTCTAT
CGTATTGCATATGTTCGATTATGTTCAATTGATTCAACTGTATTTGATTG
CATTTATCGCTATTGTCTGATGAGATACTTACGCGCTTGTTTTAATCTGA
TTTTCCAATGGCAGATTTGAGGCACCCCACGCTAAAGATCTAAAACTCGA
GAGGAGTCTTATTGAATATTATTGTTATCGACCTAATCCAACATAATCCA
AtatcaatcaaacgcaatcaaaCACAGAAATCGGTCATTTGATTGATtag
attgcgtttgacaattgaattgcaattatttgCTCGCATTGGATAATATT
CAATTGTTTCGATCTCAATTTTCAAACTATTCTGCTTCAGACCattgatt
aaaattttcttttaaatcgtTTTGCAATGTGTAACCAACCTTGTTGCCTT
GTGTTTTAAAATGGAATTGTCTTAGAAGTATAGTTAAAAAAAGCTAAATG
ACAAGTTTATGATGTATGAAAAAATCCTAGAATTGTTCTTAACAGAATGA
AATTCAAACTTGCCATTCATGTTACAAAATTGCTGAGAATCTAGTTCACC
TTTGACTGATTTTGTATTAGTGAATCTGTAAAATCTTGCTTTGTCCAAAG
AATTTTTGATGCCATTCATTGAGTATTCTTttaccttaccttaccttaAT
GCATTTAACTATTAAAGCAAAGGGTCGTTatacaaaacttgaaaaatttg
tcaaactTATGCTTGAATATGtagatttttccttttttcactgTTGCAGA
AAATACTACAATGATTTATATACAAAAGGCTTTCACGTTGCTTGCCTTGA
TACACAACTTTGGATCTTTGACTTATGGGGCAAAAATTTGTAAACCAGTG
GATCAGTGTTCATGTAATTTGGAAGGAGAAGGAGAGGTTTCTTTACATGC
TATTGATCAACGCAATTCACCACTGTAAGTGATAGAGATAAtgtttgttt
cttgattttttgtattatGTTCATTATTgcgccattccattttatatcca
tacaggggagtggatgaacatttccagagggtaatccaagagaaatttcc
agtttttcttttttccaagggggtaaaaagcttttctaaaatttccaggg
gataaaagactgattttagttcgtccaccatCACTTTATGGTAtgaaatt
ttactattttctagGGGATATCCactcattttcaatattttttttgactt
gaaaaggttatTTCATCCCCCGGTATGGGTTTTTAATGTAACAGCCCATT
GCTGTAATAAATTTGCTTATTGCTTATTGCTCATTATATTCTAAAGTTTC
CTGGATATCTCATTTGTAATATCGAATTTCtaaaaagtatttaaaatttG
CTCTTtttgtatacacgtttttttcatattagagcaaactatacaagaaa
attaagctactaaaatattaagaacaagttatgaGCATTTtgaggctttg
gggactctaaaacacctaatttcttagaaaaatggaaaaaataactcaat
aaataataaaagttttccGACTTTCGGTCACTAATTATTTTACTTTCACG
AACCTGCTAAACTTGAATTCTTATAAATATATCTACCACGATCTATCTAT
CAATCTGTTTATCTATAGATATCGATATTTAGCTTCTTTTAGATTGCTTG
TTTCCATAAATAACGTGCTCTACTTCTGGCAGATTTCGTTTTATTGTTCC
ATCCATATAAAATCGTTCATTATTTATTTTACAGGTTTCCAGATATTCCT
CAAAGTTCAGGGTCCACATTTTTAATCAGTTACAATCCTTGCACCACATT
CACCAAAGAAGATAATTGTAATAATGTCTTGGTAAGAATTACGAATTGAT
AGAAAAATCAATTATAATTTGATTCCAAAAAAACTTAATTATTTTGAATC
TTttgtattgggctcttccagaaaaaaattgaatatagggGGTGGAGgct
aacattttttggaaatttagtcCCCGAACATTGGGACTTTTGATCCCCCG
GACAGTAGGTATAatcccccggacaagcatcagttgaccccctggacatt
ctaaattaccctcaaacagagcaaagtTACCCAAAAATAAAGCAATTTTA
CCCCTTGGACAagacaaattttgtagatttttcactacccccggacacta
tattcTTTCCCCCCGTGTACAAAGGTTTTCTAGAAGAGCCCATTGCAAAA
TCAATCCGCGACAAACAACCGCTTCTCTCAAATAAAGAGTTTACTTTATC
TAAGACGCtgcatatatatatatatctgtATCTTTTATGTCGTAGTCACT
TCCTTCTTCTCCatttaaaatttggaaataatTTACAGCTGCTTTACTTA
CAGAAACACATACCTCTTATTACTTCAGGCTTGTCAATATGCATCAGGTG
ACCCAACACAAACTTTCCCATTGGCAAAACCAGCTACACGTGTCTTCACA
TACGATGAAACCAACCAACAAGTTGTTTTTACTTATACTGCTACCTCAAG
TGACCTCGCTAAAAGGTTAACTTGTTTATTATCGAGTCCAGTCCCAGAAC
GTTATCACAAGTGAAAATTGACCTTTTTAAATACAGTAGACTTcctgtta
ttcgaatctttctaaaaaCTTTTTCCGCGATGGAGGTTCTTTCTAAGTTA
TTCACAATATTCAAGCGATTCTTGAAATTAGCTTAATGTTTTCATAACCA
AAATGCCTCAATTTCTTAATGAAAACTCAACTTTAAAAAAGTTAAGTTGA
AAGTTCTTTCGGAAAAGGTTTCAATTATTGGAACTAGAAATTCCGGTAGT
TATACTGTAGCTACCAACAATGAAAGATACTTTCGGAAAAAACTAcacat
ttcttttataagcaagcGAGCTGCTAAGGATCCAGCCCTGAGAATtgcca
aaaaattaaacaaattggCCTTATTAACCTAGCCCTGAAACTGAGCTCAT
ATCTAGAAAGCAAccaaaaatacctaaaaaagaGGCATTTTCGGCATTAT
TTGACTTGGTATGAAAATGTGTACCAATTGTATTTGAATACCACATTTGA
GGTATTTTGGATACAAAATGAGATACAAAGCAAATAATTTGCTAggcatt
tttggctgaaaatccaTAAGCaactttttggctgaaatccaaaaaatcct
TAGCAACTGCCGCCCTGAGCCGAAAATTGGggttacttataaaaaaaatg
tgtataccAGAATTCACAATGTAACATTACCCCTGTAACtcataccgggt
gacccacgaaaaagttcagacgtttcccgacatctTGAGGCCGAAAAAAT
GTCCCAAGGTGCTtgaagttttgatatttagaaagtagatatcctaactt
aaaatttgagctatcattttttaaatttgaccgacttgttctctacttat
gagcttttaaagtcaaaattcacttttcggaaagtgtaaaaaacacgtaa
aaaagaggtattaaatttatgcaatcaattagaaaatcacttacaaattg
acttatttaacgagttttatgacattaataattaataaaaacacctttaa
aagtaatttttgcttaaaacaaNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNcaaatttaa
aaagtgatagctcaaattttaagttaggatatctactttctaaatatcta
aattccaagcactttgggacatttgttcggcctcaagatgtcgagaaacg
tctgaactttttcgtgggtcacccggtatatgcGGCCGTTTCAATAAATT
TATGGTCTTAGACCGGTGaacttttttgggttttcattttcttaaaattt
cttttccacATAGGACGTTTAATGTTGGTTTGAAATGTGACAAAACTGTG
GAAAAACCCAGTACATCTGGTATCCTTGAAGCTCCCACAAACACTTATGT
GAGTTAGAGCTACCTTATAACACGAAAATAAGGAGACATGTATTTAACAC
GAActaaaatatttcttgtttaTTAAAAACCTCTTTAATCTAAACCATCC
GTGTCGTACTTGacgaagaaaaatgaaattatttttaaatacatgattac
ctactttcatgtaatTGTAATAATAAGGTTATCTCAATTTGTAGAAATGG
AAGTGATCATGTACATGCTACTTGCTCTTGGATATTTACAGTGCATCTAT
TTTTATATCGCCTAAAAACCGTCaagaaaaaaccttttgaaATTGATATT
AATTTAATCTATATGGATGTTAAATTTTTATTACTATCACTATCCATCTA
TGGTTCGTggctttgaattttaatttccGTTTTAGACAATGACGCTAACG
CATAAGTGTGCATGTCCTGGTGTTTGTGCATCAGATGCTCCTGCAAGTGA
CAGTGGAAAGAATCTTAGCGTGGGAAGTTTGCTCTGTATTCTGTAAGTCT
TTTTATGCCATTGGTAAAATGTCTTAGTGGTGTATCACACTGTTTTTATA
ACATACATCGAAATAGTTTCTGGTTGAGCTGGCTTATTCATGATGATATG
CACCATTCTAATGTCTTCAACGGACCTCTTCaggtgacgtaaaatcagtc
aatacgtcacttacaaccaatcagctattgggtccgtgatgtatgCAACG
GTGCATAtcttgaattaaaaaataaaccaaaatcTTCAATTAGGGGTTAT
CGAATGATAAATAAAATCAATCTGCCGTCCTCAGCAAGAGCTCCAATTAG
TTTTTGAAACAAACGATGAGATTCGAaaatttgaattcatttttatcGTT
CTCTACATACGCAAGCTATGGTTGTATTTATCTAGTCATCCCTTTAAAGT
AATACATCTGAACTGCTTGAAACTGCATTTTCTTCTTGTCCTTAATTTCA
CATTGTACTTCCCGACCTTGATTTGTGTTAGTGATCGTACGACTTTGAGG
GCAATTTTcggaaacattttttgaaattgccTGAAAGAAAGTGAACTCGG
AACTTTTTCACTAAATCATATACGATTTCACATTGCAATGTCTACATTTC
ATTTTGATTCAGGTTAGTTGTGTTCGTTATTATTTATCTAATTGGTGGGA
TTTTATTCTTGAAATATTATAAGAAAGAAGAAGGGAGTGACGTCATCCCT
CATCGAGAATTTTGGACGGATTTTCCATCGAAAGTTAAGGTGAGTTTAAG
AGAATTGACGATGACCTCCATTTTTAATTTGATGACACAGGAATATTAAT
TTGATGTGTCTTTGTCCTTCTATTGGTTTATagatgtttttcatgttttc
ttaagttacgtaatttccgccattatgaaagcAATATATAGAGGCAATCC
CTTACGCAAATCAAACGTTTACTttcataatggtggaaattgaTATAATT
GTGTAACTttagaaaacatgaaaaacctctacTCCAGAAATAAATATCTA
CCTTCATGTTAAGGTCTTTTTTGCAAGGTCAATTCCACTGGGTTTTCTAC
AATTTGAGATggcattttacaatttttttaaggTACCCCGTTAGATTTTC
ATCTAAATTTCAGAGACCTCTCCTGGAACTTCCCggtttttgaggaaatt
tgaCCTCCTCAATTTTAGGGTAAAATTCTTCCTTGGAACAACCCATTCTA
AGTCGGCTTCTTATTGTAGGATTATGCTAACTTTACTTCACTTTTTTATC
AAGCAATTCTTACTTCTGCGATGGAATCATGAATTAGTCTACCACGTTAA
TATTGTTCATAAATTTAGCTTGTTTTTGTCCGTTGAATTTTCGGTTAGGT
GGAATTTAATAAACACTTTTGATCATTTAATTCAATTTGTTTTTCAGGAT
GGTTTCAAATTTACCGTCAGTAAAGTTCGCAAGAAGGACGAATACGAATC
CATTTAAATCGTTGGATATCACATGTTTAGTACCGTTTAGAAAATATCTT
TCAGACTACTGACGATTACGTTTGTCGTGTTTTTTGGTTAAAGTTTGCAG
AACATATTTTGTGATCAAATATTACTGAAAGTGGAATATGCATGTCTTTG
ATTTTATCAATGTAAACAGGCTCTTAAAGAATTTGGACACATATAACTTT
TCATTGAAATCAGATTAGAAATAACGCTTAAGGTTTGTTTTTTGAGCCTA
CCGTAAAGAGGTCCTCTAAATTAACTTTTGTGTGTCCGTCCGTCCGACGG
TTTGTTAtgagcttttctcgggatttgTTCATTCGACTTCTCtgattttt
gcacaatgatgcgaaATGGTAattcccaaaatgtgacggggcCAGATTTT
CAAGAAACATATCCAGatccggaaatatcccggagaAAGCGGTTTTTAGG
ATTTCACCGAGATTAAATCAtaagtttttcctgatttttttgtATGTAAA
TACGTATTAGTACTGCCATCAATCTGTCGAAAACtgttttccgaaaaaaa
caaTTTCGGTCTGTAAAACAGGAACTATGCCGGAAATCGCAGTTCGTTTA
GTTTTATTAGCGATCATTCTTTCAACccgaaacttttaaaaaaacacCGG
AACAGTCGAAAAATAAGCATATAATGAGTTTCGTTCATTTTTTCGAGTTT
CACTCGatagattttcatgatttttgcaTAATGAAACAAAATGATAATTA
GTGATAGCAAAAACatgcagatgagatggagtttctaaagatactttaat
aattggtcatttgaagtaataaaaatgacgcgttctttagaaaaagtaac
aagattgttttattactggctaacgaccaaccaaatcaggTACAAAGCTT
GTATAAACTCCTACTCGTCCCAAAACGTGAGGGAGCACAATTTTTGTTAA
GAATCCTCTCCAAGTAACCTGAGGTCAGATTGTGagtgttttctgcacac
cacgctgaagctctaatgggatgtgtgaaaacataacaatctgacgaata
tgcaatctcgaaatcgtaaggaccatgttcgtctaaaaggactaggaacg
acaacaaagttgcgtgattgggCTTAtaaatagggcgccgtatcagtttt
tagctttccggcgcacaacaagattctttttatagaatttcCCGCGGAGG
ACCATTTttctcagatgtataattttcaagcgccttcagaggtttaccgt
gcgcgtaagaaaattatctccaaggaactttaaaaaaataaaactgtttT
ATTAAAGTTCTTTGGTCTCTTGCGATCCGGAaatgtttttttggattttc
ttgatagtttttcttttttttattttgaatttaatttatatTAAAATAAC
CGTAGTTTTCTATTACGCCGTTAAATCATCTTTTGAATTTTATGTCAAAT
GAAAAGGGTAGATATTACGGTCTGTGAATTCTTCCAAATTTCAAAACTCT
GGAAATTGAAAGATAACAAGGATTTATACTTTTAGAAATGAAAATTATGC
ACTTTACAATTACAATTTCGATGTTAATTTATAtgttaattatttttaat
aacgcatttaaaaaataaaaatttcaaattgaaatttacttaatattttt
ttcttaaaactttatgtagtattttttttggtaatcttttttattcttat
ttagat
Gene-mRNA-Prot
The following transcript feature(s) are a part of this gene:
Feature NameUnique NameSpeciesType
TCONS_00072035TCONS_00072035Clytia hemisphaericatranscript
The following polypeptide feature(s) derives from this gene:
Feature NameUnique NameSpeciesType
TCONS_00072035-proteinTCONS_00072035-proteinClytia hemisphaericapolypeptide
Position
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
scaffold_69supercontigscaffold_69:187942..196547 +
Expression

Hover the mouse over a column in the graph to view expression values in transcripts per million (tpm).
Sort Descending | Sort Ascending | Only Non-Zero Values | Tile/Chart | Reset | Show/Hide Values

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
24.59	25.89	15.76	13.14	6.91	6.07	9.3	10.23	11.31	10.6	10.82	9.95	8.09	9.16	13.33	13.89	9.49	8.98	10.57	12.61	6.67	6.11	11.53	12.64	10.48	10.75	7	6.49	25.23	21.6