Fish Transcriptome and Expression Database

XLOC_017667

Basic Information

Item	Value
gene id	XLOC_017667
gene name	NA
gene type	non-coding
species	zebrafish (Danio rerio)
category of species	model fish

Chromosome Information

Item	Value
chromosome id	NC_007131.7
NCBI id	CM002904.2
chromosome length	55201332
location	47534028 ~ 47544552 (+)
genome version	GRCz11_2017_zebrafish_Genome

Sequence

>TCONS_00036697
TTTTAATCCAGGCcagaaaaagtgttttaaaatccgATTGTAAGTTTTCCTTACACCCAGATGACCCGAAAGTGGATGATCATGTGCCAAGCATATCTCATGTGGGCGATATGGGGCTggatctacatatatatatatatatatatatatatatatataatggctcTTTGATTTGATTCCTCTCCTCCCTTATGCGTTGCTTCATTAAACGTGGAGTATGATGCTGTTATTGGGTCTAAATTACCGTAATGAAGAAATGGTCATATTCTAAATTACCAATAGAAACTATACATTCTCTCATCTTGTGTCGTCACATACAAAAATaactttcaaaatattattttatttgattttggctATATTTTGAGAGTGTATCGTGAATTATTTTAGTGGTTAAGGATGTTACTCTATTCAGTAATGCTGTGCATGATCCATGGTGACATAAAAAGCAGGCCAAATCTTCtctattttttgcttttttcagtAGTTTGTTGTTGCTTTTCTTCTATAACAACttaatactgaaaaaaatctaataaaatcatGTTGCGCACATACTGTAGgaattatacaaaaataattttcaaactTTGTAAATTTCACAGGTAATTCTGAATTTAAATCCGATGACTGCAATAATAATTTTCAATCTTTAAAAATCATGCTATTTTTACTCCTATTATGCTGAGTAAGTTAGAAAAATCAGGCTTAACATTTAGAGAAATTTTCGCACCAATATTGCTAGTAAATTTTTACCAATTAATTTCACCAATTTGCAACTATGCAGATGACGCAATTTACATCAAGTGCACTGTAGGCATGCAGTATACATCAGAAAAGAACCATTTTTAAGACCTGATGTATTTAGGTTAATTTATGCATATACTTGTCTAGGGGTGCGCAAACTTTTtagtataaagggccaaaaaccaaatattattgagacccctgagccgaaggtaaatataccaacatatattacattaaagttgccatgggtaattttctttatttatttaataatattttaaaataaatagaaaacattactttaaatcagtggttctcaaactgtggtacgtgtaccactagtggtatgcagGTTTCCTTCTAGTGATATGCGGAGGAATCAATTATGTCATATGTATATGctgcatatatttcaaaatgtatcaaacatgaattatatatgaatatgatgacatacagTGTATATTTCTAAGGtccaggtgttgatgaattggctgTTATATgtaaatactttacatttaaattacagcagtttttttttctttttagaacaGTAACCtagcatttttaacttttaaaagctcattttaatttaaatgttaagattttttgtttttttatttattttgttttttacatataagcacagtgtTATTGTTCAGACTATTTCTAATGTATAAAGTGACTGACAACAATAAATCTTCTTAATATTAGGAATTAATTtgccatgtttttgaactgtgcagagctgtagctgctttatcAGCCctatacgctactgtatttcaacactactcattatggtggtacatttttttctgaggtgatacttgatgaaaaaggtttgaaaaccactgctttaaatcatattaactaatgcagtataactttttaaattataactcattgcaataaaacaaacactcacaTTTATaccacagtggagttcaatgatAAATACGCTAGTCAAGCAGAATCCGCCTTTACCTTGATtcactcaccaaagtctctgcattgtcaggTTACAATATGTACATGTAAagaaaatctgattaatttacaacatttaattgaaacattcaattttagttacttttaacaataaaacaaacaaaggattATATTTGGAtttacaatctctaaaccatccccatcattctccctctcttctcagaagtgatggtgggccaaatcaaatgtTACCATGGGCCAATTTTAGCATGCGGGCCATAGTTTGGTTATCTCTGATTTAAACTCTGTGTAGTAAGTGATGAATTTTATCAGCATACTGTATGTGCGCAGACTGATTTTGTAACAGAGATTGCATATTGCATACCTAAAATCTCCATTAATTTAACAGTACATGAGGGTATTGTGAGCTTGTTGATGTTTATATGCATCTAATGAACCCTTCTGTTCACATTATTCCAATGTGCTTTTAACAGCCAAATTTGCAGACAAACTACATTACCAATGATGCTGTACAGAAAAGTCCGCCAATAAGAATGACCAAAAGAGATATTGGCCCCGGCGACTGCTATGAAGCACAGCAAATGATGTCTTACATTCTAAAATGCcagtattactgttattatattattaatgacctcaaGAATAGTCAAAAGCATCTGTGCTTTGCGTCTCATGCCTTTAAATGCCACCATGCATTCATtgcgtgtcagcattgtcttctgaggcgcaagtcatttattaaatgaacaaaagattgacgcagcttctcctactgcaataaattctatttttactgttgatatttggcaccagttaatcaggaagtggctattttgttctctttgactcgttggatagaaacgctgctttattcacatgtcTTTTATGCCAGTGTTTCTCAGCCACGTTCCTGGTGggccaccagctctgcacattttccatgtctccttaaccaaacacgcatgattcagatcatcagctcattagcagagatggaaagacctgtaatgggtacagcagacaaaggagacatccaaaacatgcaatgCTGGTGGTCcaccaggaacatggttgagaaacactgtttgatgcgatattccagttttgcccATAATTCTGATTCGCATCTTTGGATAGAAACAGCTCCCTACACTCTCAATAAATTTACAAAGGACAAAAGTTAGCAACACTATCCTCCTGGCAAACTATTGAGATGAAACAAACAGCTCaacatttaattaatctttaattTTATCATTACGGTAATTCCAACATGACTCAAAACACAGCATTTTACAACAATTTAAACTGCGTCACACTGCAAAAATTAAATCGTAGATCGACAGATttcagtgcataatattttgtGTATCAACGAAtcgtttttaaagattttatacaattagtttttgtttagtttttaaagggatagttcacacaaaaatttgaaaaaaaattaagtcatcACTTATTCGTCTTTTATTCGTTTCAAATGTTTATGAATGTCTTcttttgagcacaaaagaagatattttgaagaatgctgaaaacctgtaaccattgacttttacagtatttgtttttctgacTATGGGAGTCGATggtaacaggttttcagcattcttcaaaatatctcctttagtgttcaacagaaggttTGGAATCAATTAAAGAAAGAACAAATAGTAAGAAATTgatatttttgcatgaactatgcctttaaaaaattatatttttatctttatgAAGCTTCATTAAAGTCCATCAATTTTTTATTTGCTAATTGTGCGAACATGCTAATGTACTAAATATTGAGAAGATTTTTACGCCCTTATATGCGGAGAATAAACAACATACTACGCTTTTCACATTACACAGtccacacaaaacacacacacatttgttttatttttcatttagctAATGAATGTAGACAAACTGAAGCCTTAGAGAGACTGAGATCTGATCATTTAAAGCTGCTGGCGGAGATCTGAATGATCCTAACATTGCGAGCAAATCTGCTACAATCATCCATTGAACcgtggaaaaactgaacaaaagTGCACTTGAACAAAGCAAGAATTGTTTACCCAGAATGCCGTGCTGTGGAGGGTCGCCGTTTAATGCCGAAACGTCCTTGAAAGCTCCAGTGAATTGACTGTCAGCAATAATTTCAGATCCTTTTCATTCTGTCAAGCTTAATTACTGACAAGCTGTAGAAGTTTAACTAATGCTTACTAGTAACAGAAACGTGTTTATAGAGGGTTACGGCAGCGTTTGGCATCTGAAATGTCTCTCATATGTGTTCTGATTAGAAGTGAATGGGATGGTGAATCTCattaagcatttaaagcacacgcTAGCGTCAGTTTTAAtcataaaatcaattaaaaagacatgataaatagatttttaaactatttagtTGCAGTTAAGGATTAATTCCCTCAGTAATGCCAATAAATATCAAACACATTACTGTAATGTAAGAAATGTGATCAATTTCTCAAGTGCTTATGTTTCATGTCAGTGTTACGAGTttataaaatccattttaaattaagtaataatgCCATGAGAGTCACCATTAAGGATTAGTTAAGCTcagtaaaataaacacaattaaaataaatccctaaagggacagttcacccaaaaatgaaaattaccatAATCATTTATTCCCCTatatatttgagtttctttcttctcttgaaaataaaagatattgtgaagaatgttggttATTGACACCCATTAACTTTCATAGTAGGTAGCATTTTTTACTTTGAAAGTCAATACATTATCATGCACCCGGCGCAACAAGATGCAAGATGTGTatggcacgatttgttgctattttcagatcagtgCAACCCTAATTGTCATGTTTTGCTCCttgttgtttaaatggcaaatccatttgcgccaccttgtggactcatgggtgtacTAGTCTGAAAAGGTGGTGTGTTAAGGCGaattgttggtgtgttgctattttgaggaactgaaatataCCACgacattgaccaactaaaagctgtcTAAATTCAGCGCAGAGcggttagttatgcacctatgcaggtttaaacgcttacacattgcttaatagaccctttttacatttctgggtttcttagTAGCGGAAGTTActagagcacagtgaatgggagaatacaacaaatagTATTTTTACATCTTATTGgctcaaaaaataaaagaaaaaccgAACGATGATGTTACAAAgacgtttagaaaaaaaaaaaaaaatagtgatgacggcagccagaggagagaataatgtcaacTTTACTGTCATGCCcgatagacgctgcattagattCGCCTCGTACAAGTggtaattcatttttttcatttgaagcaaagatgatataatacatacggaaatacatataaatgtttaaatataattaaaaaaaaatctaaatattaaaaacgttcaaggatttaagatgctgatggccgttaaatgcgtcataacaggcttgtgagaAGGGTccatacacacaggatgtacagcaatacacaaatatctttacatttaaaatgttacaaaaatgattattttctacataaatataaaaaccacggCCTCAATGCTTTCTTCAtgtcagggggctttttcagtttatccaTGACAATCtgctttttgttattattattagtagtatttagtatatgcatatttatatttgttttaataaaaacaagtttagatttgtcaaccagtcgggttttggagacgtctgcatcaccataaggggcataagaatagcacttgtgtttggatataactcagtgttttgactacacttcattattatcgttcatttatttgtttgctggaaattagaactgaatttataaatagttttgaaacaaatcttcgtgcttaacaaatgaaattaaatatgtaggctaatggatgttttcagtggagtgcgtacaacactgtttccttatccacgaaagtaaaggagtaaacggtataaataaagtaaggagtctgaatggaggaggcttgttctttatcctcgcactgcagatggtctgtttaactgttttctcactagtaaagcattcagtttttccacttacaagtCTGCCATTTAagtagcaaatgcaccatggcgtgatgcaactgactcttaaagggaatgtgagatgagactcttattgatttaatgcaagttatgctcaaaacacacccataactcattaagagaataaccACAGCCTTGTTAGACCAAGCGATGgagcgcagagcgtatttttccatccttaaacatgtaaaagtggattcggacacgcccttaatgcttttgcgccatgcgctttagagtTTGCACGCCTACTTTAGATtggtaaaatagagcccaatgggTTGAGAATTGTTCTAAATATCTCTTTGTACAATAcgattttgtgttcaacagaagaaactcaaatataTTTTGAACAAGAGTgtttaaatgatgacaaaatgttcatttttgatgaACTAACCCGTTAATATTCATCCCAATAATTTCACATTTCATTCGACTTGATGTTTGAGTGAGAGTTATCAAGGAACAAATCAAAAATTAAttagtgtttttatatataactGAAGCTTGCTTTTTTATCTCCATCACACGAGCAGTGAAACGTGTGTATGCGTGTGCGTGCTCAGGCAGAGATTTCTATTATGACTTGAACCGGCGCTCATACTCCGCTCGAGGTCTCGAAATACCAGACGACACCTCTGACGATACTGAATGTGTAAAAGATTCAAAGCGAGCTCGCACGACTGTTCCGGATTTCTCCATCCTGTGTGTTGACAAATCAAACAGTGTGTCATGCGGTTTTATCGGAGGGCGCAAACTAACTGCGTGTGTTTTGGTATAGATGTTTATACCAAAGACCGGCTGTGTTTGAAGGCATTGGAAGTGCGAAGTTTGACGCTCATGCTGTGAAACAGCCCAATGaatgtgtgcgcgtgcatgtgtgtatgtgtgtgtgtgtgtgcatcgtaTTTAATCAAATGCACAGACGAAGAAAACAATCTGAGAGAAAGAAACTGACCAAAAGACAGACCCAGCACAGACTCAGACCCCAAACCTCACACAGATTTATACAGTGTATTTTTGTACATTTCTACCCACAATTCTTCTCAGGATGAACTTCTCTCAGGGAACGAACCAAATAAGTGTATTTGATGTTATTCTGTAGGGAAGCATTGACTGAATGAACTGACTGTTGCTTATTAAACTCACCGACTCTGTTCTGGTATGTTAGAACTACCTCTTCAGTTACACATAGTCGAatcttttagttttgttttcggttgtttttgtatttttttaggaGATTAACAGCGTCGAGTCCTTTTAGTTTGTTTTACTAGTCTTCATCTTTTGGAGAAAGTTATCATTTGCTTTGTTTACACAGAAGTCTACCTCATTTCTCTCTTTTCATCTCCAGTTATCGACTTATTTTTATGTCGTTCAATAGAAATCATCTGCTCatttctctctccctccctccctcccttttTTGTTTAACTCAACCAAACTAGCTGTTGAATGTGTAACGGTTCAATCTCACACCGACTCCTATCGCCACTCCTGCTGAAAAACTCAAAATGTTCTCCATGACAGCTCAGTGCAAAGATTGTTTCGCTTTTTGtgcctttatttttattgttttatggctAGACTTTTGATTAGGAGGCGGACAGTGTCTTATTTGGGGGCATTAAgtgctgtatataaatatatatatcattccAGTTGTGTTTATTGGTAACGTTTCATAATAAGGTTTCATTTACGAGCAGTTCTTTTgttatagtatttattcatttttgctaACATTAATAACCAACACATCAGGTTAATGTTCGCTTGTGGCTCAGGTCCATTCAAATATTAACCAATGCAGCtttgattttattaatgcattactaAATGTTGGAATTAACATTAGACCGAGTTACTTTCTTTGTAAGTTTATGatgaaccttattgtgaagtgttacttGTTTATTTGTAACATCAATATTAGGAGTAATACATTGGTGGCAGTATTTTGTGTGTATACATTTATAGAAAGAATTAAGAGATTACTTGGAAATTCTCTGCATTTATGATTTATAGTTATGCATCTtagtaaaacaacattttttactactgatgacatttaatctaaaactaaataaaaaattggaTATAAAAATAGTTATTCTttagaaaattaaatatttttctgtTGTTGTGATTTGAAAAATGTAACCACTTTAGATGATGGTGgttgattttgttgttgtttttttcaaatacAGCAATAGATGcataactaaaaaatatatacaattattcaattaattcaaataaaataaattttaagagAATGTttaagactgtttttttttacttaccatTTACTTAACTAAAAAATAAGCCTGGAGAAACAGAAACATTCTTTAAATATTAAGagcatacatttatttgtttattttttagaaaatttaatttgtttctattattgtgatttaaaaaattaacCACTTTAGATGACTgtggttgattttattttatttttttcaaacacaacaataaaacattacactttctaaaaaataaacacaattaataaatcaatgcaaacaaaattcatttaaatatatttttaaacatttgtttttatttataattttcttaaaactaaaaaaagtaaGGCCAAAGAAACAGAAACATTTGGATATTAcgagcatacacacacacacacacacacacacacacacacacacacacacacacacacgtacacacacacacacacacacacacacacacacagttgaagtcagaattattagcccaccattttaatttttttattttttttatgtattcaattttttttttatttccccaatgatgtttaacagggcaaggacattttcagagtatgtctgatgtttttcttctggagaaagtcttatttgttttatttcagctagaataaaagcagttttaacttttataaaacccattttaaggtcaaaattattagcagctttaagctatatatatttttttgatggtctacagaacaaaccatcgttataccctaacctgcctagttaacctaatactcctagttaagcctttaaatgtcactttaagctgtatagaagtgtcttgaaaaatatctagtcaaataaaatttactgtaatcatggcaaagataaaagaaatcagttattaaaaatgagttattaaaactaataatgcAGGAGGGctaagacttcaactgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtatatatataaatgaaatatcTTTCTTTTGCTGTGATAAAAAAATTAACCACTTTAGATGAGGGTGGTTGATTTGTTGGGTTTTTTCCCCAAGCCCAACTATAGAAAcattacattttctaaaaaataaatacaatttttaaattatttaacataaaatgtattcaaataaatttattttagacaattattttttatttatcatttacttaaaactaaaaaataaccccagaaaaacaaaaacatttcttttggatattaaaagcataataattcaataaaaattctacattttttcgaaagaattattaaatgtttttctgtttttgcgattaaaaacattaatgatgTTTCATTTAGATGATGgtggttgatttttatttattttttttatcccaaaatagaaaattttacattttctaaaaataaaaacaattattaaattaattaaaataattttatttaaaacttaaaagTCATTCCAGAAAAACAGAGGAATTTCTCAAGAAAATCTCTTAGTATTTTCCATAGctatatacataatatacatgcttttaaaagaaaacatgatGTTATAACTACTGATTTACCGCTGTTTGATTGAGAGATTTGAAGTCACAAGACCGAACACAGTTCTGCCAGATTGTTTGACATCAACTGATTTGATGTTCAGTGTTTGAAATAAGATCATGTGCTGTTTATTTTGCctcactgtttttttttagcaCTGAATGTATATGAAACTGACCAAAGTCCAGGACTAATGAAAGTAACAACTGTTGGAAACTCTTGATTGTTATTGTAATGCCTAATGAATCGCTGCGGTCTTAATAATCAATCAAATCACGTTCTCAAGACTCTGTGTTTTATTTGGACACATACCTCTGTTTGCCAAGTGGCTGCTGAACTTTGAATAACATTGTCgctcagagattttttttttctggtttgttTCATGCCCTGTGTATTTAAACTTTCAGTTGGACTCCAGAAGACAATGATGTCTTTATTCATGCACAGAGACGGCGGTGCTTTATTAACCCTCATTTTAATGATGTCAAACTTTTATCATTTCTCACTTCTGCTGTCGAAGTGCATTCAGAGCGGCGGTCATTTCTGTTTTTAACTTCATCGAAGCACTGATTGCCTCTTTTGATATTATTTGAAGAGCGTATCACTCATTGTAAccacatttatatgcattttgccTTTTTTGTCTGTGAAATTAGGACTTTTGAGTATGTTTAACTGTTTTACTTGATTGATATTAAACCTATTATATCAACATTAAATATGTTGGAGAGAAATCCATAAGGGAGTTTgtcgttttttttgttgttgtttttttttatgtggacagttttaatattttgtgctctttttctgaaaataaacattaatg

Function

GO:

id	name	namespace
GO:0048731	system development	biological_process
GO:0090527	actin filament reorganization	biological_process
GO:0000027	ribosomal large subunit assembly	biological_process
GO:0001732	formation of cytoplasmic translation initiation complex	biological_process
GO:0071826	ribonucleoprotein complex subunit organization	biological_process
GO:0022613	ribonucleoprotein complex biogenesis	biological_process
GO:0022618	ribonucleoprotein complex assembly	biological_process
GO:0043009	chordate embryonic development	biological_process
GO:0021575	hindbrain morphogenesis	biological_process
GO:0019538	protein metabolic process	biological_process
GO:0043603	cellular amide metabolic process	biological_process
GO:0048513	animal organ development	biological_process
GO:0043604	amide biosynthetic process	biological_process
GO:0031290	retinal ganglion cell axon guidance	biological_process
GO:1901566	organonitrogen compound biosynthetic process	biological_process
GO:0009059	macromolecule biosynthetic process	biological_process
GO:0043043	peptide biosynthetic process	biological_process
GO:0007275	multicellular organism development	biological_process
GO:0006412	translation	biological_process
GO:0006413	translational initiation	biological_process
GO:0009653	anatomical structure morphogenesis	biological_process
GO:0048856	anatomical structure development	biological_process
GO:0010467	gene expression	biological_process
GO:0042255	ribosome assembly	biological_process
GO:0071679	commissural neuron axon guidance	biological_process
GO:0044267	cellular protein metabolic process	biological_process
GO:0044271	cellular nitrogen compound biosynthetic process	biological_process
GO:0042273	ribosomal large subunit biogenesis	biological_process
GO:0010499	proteasomal ubiquitin-independent protein catabolic process	biological_process
GO:0040011	locomotion	biological_process
GO:0097485	neuron projection guidance	biological_process
GO:0006518	peptide metabolic process	biological_process
GO:0010002	cardioblast differentiation	biological_process
GO:0002181	cytoplasmic translation	biological_process
GO:0032502	developmental process	biological_process
GO:0007411	axon guidance	biological_process
GO:0007417	central nervous system development	biological_process
GO:0034645	cellular macromolecule biosynthetic process	biological_process
GO:0007420	brain development	biological_process
GO:0030902	hindbrain development	biological_process
GO:0060322	head development	biological_process
GO:0009790	embryo development	biological_process
GO:0009792	embryo development ending in birth or egg hatching	biological_process
GO:0044391	ribosomal subunit	cellular_component
GO:0019773	proteasome core complex, alpha-subunit complex	cellular_component
GO:1990904	ribonucleoprotein complex	cellular_component
GO:0022625	cytosolic large ribosomal subunit	cellular_component
GO:0022626	cytosolic ribosome	cellular_component
GO:0044445	obsolete cytosolic part	cellular_component
GO:0005829	cytosol	cellular_component
GO:0005832	chaperonin-containing T-complex	cellular_component
GO:0005839	proteasome core complex	cellular_component
GO:0005840	ribosome	cellular_component
GO:0005852	eukaryotic translation initiation factor 3 complex	cellular_component
GO:0005854	nascent polypeptide-associated complex	cellular_component
GO:0101031	chaperone complex	cellular_component
GO:1905368	peptidase complex	cellular_component
GO:1905369	endopeptidase complex	cellular_component
GO:0032991	protein-containing complex	cellular_component
GO:0015934	large ribosomal subunit	cellular_component
GO:0033290	eukaryotic 48S preinitiation complex	cellular_component
GO:0000502	proteasome complex	cellular_component
GO:0016282	eukaryotic 43S preinitiation complex	cellular_component
GO:0008135	translation factor activity, RNA binding	molecular_function
GO:0070003	threonine-type peptidase activity	molecular_function
GO:0003676	nucleic acid binding	molecular_function
GO:0004298	threonine-type endopeptidase activity	molecular_function
GO:0005198	structural molecule activity	molecular_function
GO:0003723	RNA binding	molecular_function
GO:0003735	structural constituent of ribosome	molecular_function
GO:0003743	translation initiation factor activity	molecular_function
GO:0051082	unfolded protein binding	molecular_function

KEGG:

id	description
ko00230	Purine metabolism
ko00240	Pyrimidine metabolism
ko03020	RNA polymerase
ko03230	Viral genome structure
ko05164	Influenza A
ko05169	Epstein-Barr virus infection
ko05016	Huntington disease
ko03200	Viral proteins

RNA

RNA id	representative	length	rna type	GC content	exon number	start site	end site
TCONS_00036697	True	10525	lncRNA	0.33	1	47534028	47544552

Notice the +/- strand.
Display format: symbol/gene id: RNA id. (Except when gene id is similar to RNA id.)
You can browse transcripts by dragging.
A more detailed transcript can be viewed by the zoom button in the upper right corner.

Neighbor

gene id	symbol	gene type	direction	distance	location
XLOC_017666	lin28b	coding	upstream	2159	47491247 ~ 47531869 (+)
XLOC_017665	rab10	coding	upstream	62433	47434709 ~ 47471595 (+)
XLOC_017664	CABZ01076801.1	coding	upstream	126764	47407150 ~ 47407264 (+)
XLOC_017663	znf975	coding	upstream	331926	47196506 ~ 47202102 (+)
XLOC_017662	NA	coding	upstream	348699	47182434 ~ 47185329 (+)
XLOC_017668	NA	coding	downstream	11148	47555700 ~ 47712588 (+)
XLOC_017669	BX005121.1	coding	downstream	215234	47759786 ~ 47759908 (+)
XLOC_017670	hadhaa	coding	downstream	408495	47953047 ~ 47984895 (+)
XLOC_017671	CU138532.1	coding	downstream	437585	47982137 ~ 47982271 (+)
XLOC_017672	NA	coding	downstream	443899	47988451 ~ 48034675 (+)
XLOC_017661	NA	non-coding	upstream	373582	47154473 ~ 47160446 (+)
XLOC_017659	CR385078.4	non-coding	upstream	420706	47110856 ~ 47113322 (+)
XLOC_017658	CR385078.3	non-coding	upstream	427771	47106094 ~ 47106257 (+)
XLOC_017673	NA	non-coding	downstream	517194	48061746 ~ 48068088 (+)

Expression

Co-expression Network

Homologous

species	gene id	symbol	gene type	chromosome	NCBI id	location
grasscarp (Ctenopharyngodon idella)	G183070	NA	non-coding	CI01000039	null	7210904 ~ 7211109 (-)
rainbow trout (Oncorhynchus mykiss)	G9772	NA	non-coding	NC_048565.1	CM023219.2	11129652 ~ 11129956 (-)
tiger barb (Puntius tetrazona)	G7874	NA	non-coding	NC_056699.1	CM032068.1	30656456 ~ 30661467 (-)
tiger barb (Puntius tetrazona)	G140808	NA	non-coding	NC_056718.1	CM032087.1	21482618 ~ 21483300 (-)
mexican tetra (Astyanax mexicanus)	G8578	NA	non-coding	NC_035898.1	CM008301.1	6921697 ~ 6923220 (+)
mexican tetra (Astyanax mexicanus)	G153438	NA	non-coding	NC_035913.1	CM008316.1	21949668 ~ 21949876 (+)

gene	XLOC_000007 f7
RNA	TCONS_00000019
bioproject	PRJEB12982

model fish

Basic

Function

RNA

Neighbor

Expression

WGCNA

Homologous

XLOC_017667

Basic Information

Chromosome Information

Sequence

Function

GO:

KEGG:

RNA

Neighbor

Expression

Co-expression Network

Homologous

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