Fish Transcriptome and Expression Database

XLOC_017937

Basic Information

Item	Value
gene id	XLOC_017937
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	11097393 ~ 11178022 (-)
genome version	GRCz11_2017_zebrafish_Genome

Sequence

>TCONS_00036806
atatatatatatatttaacctgcctagttaacctaattaatccagttgagcctttaaatgtcactttaagctgtatagaaaaataTAGCTGTCAAgatagatgttttgaaaaatatctagtaaaatattatttactgtcatcatggcaaatataaaataaatcagtaattagaaatgagttatcaaaactgttatgtttagaaatgtgttgaaaaattgttctctcagttaaacagaaattgggtaaaaaataaacagggcgggTAATAATCCAGGGGGGCTAACTATGTATTGGATGgttgtctacaccttccccaaccttaAATCCATTCATTACAGTATTGTAGATTATTGCAGTAAGGGTGTTTCCTTATTGGGTGTTACAAGGTCCACTACGTATTGGACCAGGTCCATATCATTGTGATATAGACTGCATAcaggacatctttttttttttttttttttttttttggcaacatCTTTGTCATGTAAACGTACCTTAAGGTTCAGACTAGATTGCTGGATACTTGTTTACTTTCAGGTTGAAATTAGCTTACTGGCAATCAAACGGATTTCTTTGACTAATAGTTGGAGCTTGCACAGGTTAACAACCAACCAAGGTTTATCTCAGTGGGACAAACTGTtctctaaaaggaaaaaaaaaaaaaaaaaaaagggctacTGCACTTCTATGGTCTTGAAAGTATTTAGCATCCCTGCAGGCTACTTCAACCATACCATCCCTACTTTCCTGGAACATCCCTGTGCTCTGTTTCTCATCTGAAGGGTTTTAACTGATGTGTACACCATTAACAATTTATTTCAAATCCTGTGGCCACCCGTAACTCTTTTTTACAGACTTCCTCCACACAAGTCCTGTGCGGTTGTCAGGCTCAGGTTCCCCAAGAGGAGGCGGTTGCGGTGGCAAATGAATCGCTGCAAAGTTAACCCGTTAGTAAGATAAATCTATCCCAAGCCTCTCTCTTTGACATTATTTCATATCGAGAAAACTAATAGTGGGCTAAGCAGAATAACTTATTTGTGCCACTATCCAGTACATCACTTGTAGTCCTCGAAGCTAGCGTGGAGGGTTTTTGCTGGGTCATTACCAAAACCAGAAATGCTTCATCCTAAACACGGTTTCATCCTAACGATTTTTATCTATTGCCTTACTGTAACCCAGCAGTATGTCTTAATGCGGTTCATTTGACGTTTATTTTGTGAATTACAGCAGAGAATCGCACGTTTTGAAAGCAGGACTGAATGGGAAGCACACATTTTGAAGGGCAATTGCAAAAAGCATCCTGACAGACATCCGTACATGACATTGCTAACAAGCCAAGGTCTATCTTCCAGACAAGAATGGCGTGCTATGATTCAGAGTGACTCATTGCTTCGCTCGTGTGGCATACATTGTTCTTTATTTTCTACGGACGAGCTTGAAATCACAGTAGTGGCCCTGTAGCTGAATGGATGTATTACACAATAGGGACTGTGAGCAATGCCTTGTGTCCGTAATCCAACCTAACAGTCAATCGGTCTCTTGAAAAAGCACATTGATTTGGTTTGGAATAATTACTCTAACTGACTGTGAGGTCAGTCTGAACAAAGCACTACCACAAATGTGGCTGAATTCGTCTGTGATCTTTGTGTGTCCCttgcattcttttattttttatttaaagtgatacatatgttttaaaagttttcatCTTTCATCGTTTGGTCAATAAATATACCAATGCAGTGGTTCCCATTTCTAGTTGTCGGGTCTTTCTTATTTGACGCACAAGGATTGGTccatgcctctctctctctctcttaaaaaGTTGATTTGAATAAGATGTGTTAAGTacgctaaaaatatatatttattacgagctgaaacaacacgattcttgattttttttttttttcggtggGCGGGgcaacttaaatgatttgtgttcaatccacttaaatttgtaaatttgtacTTCATGTtgctccaacacaaatcaattctAGGAAACCCACaatttctttttacagtgtaaagaaaatatacaaaaaaccGAGGACTGGAATTGGGAACCACTGCACTGCAATGTTGGCACATTGGTTGACTGTAGTTTTACATTAGAGttaagcaaaatatagctgatttgtgaatgaatcaatTACATAATGACTTTTACTAATGGCAACCAGAAAGCCATGACAAGTTGAGCAACAACCAcaaactgtctgtgtgtgtgtgttttttaagcattttgggTATTTTATTTCTTCACCATGAGGATGGGGAATGATTCTGCTACTTTCGAAACAATCTCATGTTTAAGATATGGTGATTTGTTTGGTCAGCATTCTTGGTTTTTACTAGTAGAATCCATCAGGAACCAAAGTAACTTTTGATTGCTAcgtacatttattttgtttttgtttccacTACTATACAGTTGTTGTCGTCCCATGTATGTGCCTTCAAATGAACTTACAATGTAAAGTCCTTgaaacctttaaatgtttttgcacAAGTTGTAAATAGATAaaccaagcttttttttttttttttttgaaaataaaggAGCCATCAAAAATGACCTGTGATGAATTTGTC
>TCONS_00035383
GACTTCAGGAGTTTCATTGTACCCTGCTGCAGTCAGTGGAGAAAACCTGTTCATAATTCCAGAAGGCTCCCAGTGCCCTTGTGACCCCCTGTGACCCAAGTAAAAAGTCTCTAGAACCAAATGTCACATCTCCTGGAAGCAGCTTGGGCTGGGGCCCATCAGCACTTGACAGCAGGCCGGGAGGTGGACGATGTGGCTCAGTGCTTCAGCACCATCTGAGTCACACCCTGCTTGGGCCCGAGTGAGAGCAGTCAATGATCTGACTCCTCAGCATGGATGGCTTAAGTGAAAGAACCTATGTGCTCTAATGAGACCACCTTCTCTAGAGAAGGACTAGAAAATTATCAAGGGATTACTCCTCGGCTTGAATTCTTACATTTATCTGCAAACTGCACATTAGAATAATCTTTTAAAGGACATTTTGCTGGATTTTTACATTTCCATTTTACTCCCTTCAGCCACTGATTTTCCCTTGCCATttcctttaactttttttttccattatggAGTTTCAAACTGGATTTTGGAATAATGATTGGACTTCATTTCTTCGCTTTTGGTTGACAGTTCTGTTGAGCTTGCATGTGCAGTTCAGCCCTGTCTCCTCCTGTCCAGAGGAGTGCCGCTGTGATAGAACATTTGTTTACTGTAATGAGAGGAGCCTGACGTCTGTGCCTCTGGGGGTGCAAGAGGGATACAAGACCCTCTTCCTCCACAACAATCAGATCAATAATGCCGGCTTTCCATTGGAGCTACACAATGTTGCCTCTGTAGAAACGGTTTACCTGTACGGGAATCAGCTGGATGAATTTCCCCTTAACCTTCCGAAGAATGTCCGAGTGTTGCATCTCCAGGAAAACAACATCCAGACCATTTCCAGGGCAGCACTTGCCCAGCTACACATGCTGGAGGAACTCCACCTGGATGACAACTCCATCTCAACTGTAGGGGTAGAGGAGGGGGCTTTTAGGGAGGCTCTCAGTCTCAAACTTCTTTTCCTCACCAAAAACCATCTAAGCAGTATCCCTATCGGATTACCTGCAGACCTAAAGGAGCTGCGTTTGGATGAGAATCGAATTGCAGACATTGACGAGGATGCCTTTCAGAATGTCACCACCCTGCAGCGACTGTTACTGGATGGAAACTTGCTTGAGGATGAGGCCATTGCTCCTGGTACCTTCCAGGATTTGGTCAATCTCAAAGAACTGTCCCTGGCACGCAACTCCCTCACCGCTCCACCACCATTGCTCCCTAGCGTATCCCTAACTAAGCTCAACCTGCAGGAAAACCAGATAGACACTATTGAAGTGACAGCCTTTGCTGGACTTAGTAAACTAGAAAAGCTAGATATCTCCAACAATCTGCTTCAAATTCTTCCACCAGGTGTCTTTGACGGCTTGAGAAGTCTGAGAATCCTTAATGCTAGAAACAACCTTTGGCGCTGCGATTGTAGCATTAAGTGGGTCATTGCATGGCTCAGGTCTCTGCCTTCTGCGATAAATGTCCGTGGGTTTACGTGCCAGAGTCCAGAAAGAGTGCGTGGTATGGTTATACGAGAGCTCACTTTAGATGCCATTGATTGCCCTGCAGGCACTGTTCTTCATCCCTGGCCAACTCATACATATCCATCTACATTACCGCCCCGCAGGACCAGCACCATCACCAAAACCACCTCTAGAACCACCCGCATCACCACCATTTCACCCACCGCTTTTTACCCAGCCTCCACCAACCCCACACCACCAGTGCCGCATTTCCCTCCCGGTCCCCTCCCACCCTACGAAGATCCCTTGAAAATCTCTTTTCATGTTGTTAACTCTACCTGCATTGATGTGAGCTGGGAGTCTTACTTCACTGTGACATCTTACAAGGTGACTTGGGTTAAGATGGGCCAAAGTTTGATGAGTGACATTACTCGAGAAAGAACAGTCCCTGGATACCAACGAAGGCTTAGTTTGTCAAATCTGGAGCCTAGATCCGTCTACCGCATCTGTGTGTATGTTTTGGATACTCTTAATACTTACAGACCGGGCGAGGATACTATCTGTTCTGAGGCTAAGACAAAATCCACATCCACATACTCTGAATCGGAGCAGGCTGCTCAGCAAGACAACACCTCCACACTTTTATTGGCTGGAGTGATAGGTGGGGCAGTGTTGGTGGTCTTAGTGACGCTTCTAAGCTTGTTTTGCTGGCACATGCACAAGAAAAGCAGATCGCCGTCGTCCAAATGGAAATACAACCGTGGCAGAAGAAAAGATGACTACTGTGAGGCCGGCACCAAAAAGGATAACTCCATCCTGGAAATGACTGAAACCAGCTTTCAGATAGTGTCGCTAAACAATGAGCAGCTTTTAAAAGGGGACTTCAGAATTCAGCCCATCTACACACCTAATGGAGGAATTGGCCTCCGAGACTGTCACCTTAGTAACAATAGCATAGCTTACTGCAAGAGCAGTAACGTTCCCAGTGTGGACTTCCTCCACACATGATGCTTTTCAATGGATGCTACAACCATTTGTTCAAAGAACATGTAGTtcaatatactgtacattacacgtatacatataaatatataaatatatatttccagGTGCAGTCAACATGGTAATTTATACTGTGGACAAGTATGTGGAATTCTGCTATATTTTCTATTCTTAGTAAATATGAAATGGTTTTGTAATTTGTGAGGCTCAAAAGTGGCTTCACTCAAGGACACCACAGATGTTTTGTATAATCAAAGCACGTTGGCTACCTGCTACAAGTGCAGACCATAGGTTTTGCCTCTCAACCAGTTGAAGATGTTGCTAACCACACAACCAAAATATGCCCTTTTTGCTGAAATACAGCTACCCCTTCACATAACAGTAGTTACGATAACACAGTGGTCAGGAAACCAAAACACCGCTGATTAAGCTGCAGTAGAAAAAAAGGAGCcgggttttttttattattattgttttatttttttggaattgAAGTGCACTTTCTTAATGCAGCAGACAGCATGAGCAGTCATTCAGGAAATGAGCTTTTGTGGAAATCACATTTGAAGGGAAAAGGGACCACTCTACAAAACCGTGCAGTTCCACTATGAGAGGTCTGTGAATGCAGTAGGGAGATGGCCTGAAAGGTTCCTGTGCAAGCATTTTCCAGGGCATATTTATGTTTGATTTTGGCCACAAGGGGGCAGCTTGTTTCAGTCTATACAAGAGGATAACAGCTTAAATGGACTACAAACACTCTCCTGTGGTAAATCCATGACTTTTATGGGAATAGCTTTTGTGCTTGAGCCTTAATTTCAAGCAATTAGCAGCCCAAACATAAAATGAGGTAATGCAAGAGCTAAACCACTGAGGTAAACTATTAATATCCTGAGGGAGCTCTGTAAGCTCCTTCATGTTTGTTCTAATTATTAATCATTGAAAATTTGAAAACAGCGCAATCTCAAACTTCAAATCTGTAATTCACTTCTGTATACTCTAATTGCCCTTTCTGAACATGTTCTGTGATTTACAAATTAAGCCAGGGCTTTACACCCAGTTTCTCCTCTTTGAATATTTCTGTTTTATCACACGAATGTGATCAGGGACATTTTACAGCGACATCCACATCATTGTCTAGCTTTTTCCTTTACTGACCAAAACCTCTTTGTAATCATGCATCTCATCAGGTGGGATGATGAATGGCCGTTTAAACAAAAAGCCTTCTTTTCAGAGAGAAGAACTGGCACATGCCGGATTCAGTctttgaaagagtttcagatcccTGCATGACTGCAATTAGGACTATTTTTTTAATGGTGCACCAGTATTCCAGGATGGAGCCAAGTTTGGAATGCAGGCTTGCTGTGGAGAAGTATTTATCATGCGCTGTTACTCATAGACTTCATTTGCTTTGACAAGATTTCATTTTGAGAGCCGAGATCAAACCCCCACTGCATAATCCCTGGTCCAGGAAAGGGGGAAGAAAGGCAGGGGTTATTTTCACTTGGCAAGAGGGTTCTGGATTAGGGAGGGGGTTTGTAGTTCTAATGGTAGTCCTAATTGCCTGAGTTAACCCTTCATCTTGACATTAAGGGGACGTTTACACAACAAAGTTTTCAGCCAAAAACaggatttttaaaaactttttaaaaaaagttttcctgTTCGTTTACACTATAACATGGTTTAAAACATGAGTTGAAAACTGTTTCAAAGTGGaggtttttgaatatgatgctgtTGTCTTAACCATGCAAATACATGAAAAGAAAGTCTTTGctcagcaaacaattttgtcttcaatagatgtctaatagacatcaaaacgtagacagcttggctaaagcaAGGCTAAACTTAGGCTGTCagggaaaatctaatagacatctaagaatagcccaaaactagactggTCGTCAAACAggcagattagacagactttaaatctgtagtcatttttttttttttttttttttttttgatgactagtctagttttggcctattcttagacatctattagaatttcactgacagcccaaaattagccttgtttaagccaagatgactatgtttagacatctattaaaaaacaaaaatgcttactGGGTAAAAGCAATGACCTCACATGCATGCATAGTATGTGTTTAGAAGAGAGTAGATTAAAGGAAAGTGCAAACAAACATACACGATAATGAGTGAATATGTTGTAGTATTGTTTGTTTCTAAACAATTTTGTATCTCTCAAAAATGAAGGAAGGTGAACTGTAAGtggggcagtaccttttaaaAGATACCTATCTGTACccagagtccacagtggtacctcaaaggtacataatAGTATCGaattgtacctaaaaagtacctttgaggtaccattatggaccttttaggttcAAACCTTTTGAAatggtactgccccagtgacaatgCATTGAGTGAGAGTGTATTGTTGTTCCCTAATGCTTCATTAGCAAAGTGTGGCTTTACTTCACAGTACAATCTAAAGTGATACACATAGAAAACTATAcataagctatgtttccatccactgtttttatgtgcattttgaaatattgtttaaaaaatgcttgatggaaatgccaacatgcaaaagatgtgcataaaaaacactTTTGAGTAGGATAAACAATTGAGTagtgtaaactttttttattagataaaaaagtgcataaactatgatggaaacacatttacctaGTAAATTCTAATATGTTAATCAAGAAAACCTATTTGATTTTATGACATTTGATATCTAAAATGTGCAAAATTAATGCAAAGACAGCATTAATGGAAAACCTATGAAGTGACCACATTGCTCAACATCTGAAATGCTGCTCTGGTCATTCTAACGTCAGCCAAAGTCAGCCATCAGTATCATTACCTCCTAGAGGTGTCTTGAGTGACTGATCTCAAAGAAATGAATCAGGCCTCCAAAAGCGTCCGCAGTAGCCAGCCTATTAAAAggggtgcttctttttttttctcgaaAGTGGACCTTATTTAAGTTATTAGCCTCAAATTATGAGGTTCAAATACTGTTagtgacattatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatataatttatttatttatttttttacaaatgtgcatttaaactgtaagttattacagttttgtatataatgtaatgaggttagacatttaaaatataaaaaagaataaaaaagatacatacagtattgtatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatattgatatttggCATCCAGTTCAATTAGGAATTGACAATGTTCTCATTGATGGATacactgctttatttgcaaatgttcaATGCCaaattccagttttgcacaactttggatggaaacatagatattaAGCTGCAGACAGCAAGTAGACGCGTCCCTACAGATACTGTTTAACAAGGTAACAGCACCACATACTGACCTATTGCCCATTCTCacagatatatacagttgaggtcagaattattagccccccattgatttattcttttctttttctaatattgcCCAAATGATAATTAACAGCAAGGTATTGCTCAGAGTAtgtctgaaatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatttaacctgcctagttaacctaattaatccagttgagcctttaaatgtcactttaagctgtatagaaaaataTAGCTGTCAAgatagatgttttgaaaaatatctagtaaaatattatttactgtcatcatggcaaatataaaataaatcagtaattagaaatgagttatcaaaactgttatgtttagaaatgtgttgaaaaattgttctctcagttaaacagaaattgggtaaaaaataaacagggcgggTAATAATCCAGGGGGGCTAACTATGTATTGGATGgttgtctacaccttccccaaccttaAATCCATTCATTACAGTATTGTAGATTATTGCAGTAAGGGTGTTTCCTTATTGGGTGTTACAAGGTCCACTACGTATTGGACCAGGTCCATATCATTGTGATATAGACTGCATAcaggacatctttttttttttttttttttttttttggcaacatCTTTGTCATGTAAACGTACCTTAAGGTTCAGACTAGATTGCTGGATACTTGTTTACTTTCAGGTTGAAATTAGCTTACTGGCAATCAAACGGATTTCTTTGACTAATAGTTGGAGCTTGCACAGGTTAACAACCAACCAAGGTTTATCTCAGTGGGACAAACTGTtctctaaaaggaaaaaaaaaaaaaaaaaaaagggctacTGCACTTCTATGGTCTTGAAAGTATTTAGCATCCCTGCAGGCTACTTCAACCATACCATCCCTACTTTCCTGGAACATCCCTGTGCTCTGTTTCTCATCTGAAGGGTTTTAACTGATGTGTACACCATTAACAATTTATTTCAAATCCTGTGGCCACCCGTAACTCTTTTTTACAGACTTCCTCCACACAAGTCCTGTGCGGTTGTCAGGCTCAGGTTCCCCAAGAGGAGGCGGTTGCGGTGGCAAATGAATCGCTGCAAAGTTAACCCGTTAGTAAGATAAATCTATCCCAAGCCTCTCTCTTTGACATTATTTCATATCGAGAAAACTAATAGTGGGCTAAGCAGAATAACTTATTTGTGCCACTATCCAGTACATCACTTGTAGTCCTCGAAGCTAGCGTGGAGGGTTTTTGCTGGGTCATTACCAAAACCAGAAATGCTTCATCCTAAACACGGTTTCATCCTAACGATTTTTATCTATTGCCTTACTGTAACCCAGCAGTATGTCTTAATGCGGTTCATTTGACGTTTATTTTGTGAATTACAGCAGAGAATCGCACGTTTTGAAAGCAGGACTGAATGGGAAGCACACATTTTGAAGGGCAATTGCAAAAAGCATCCTGACAGACATCCGTACATGACATTGCTAACAAGCCAAGGTCTATCTTCCAGACAAGAATGGCGTGCTATGATTCAGAGTGACTCATTGCTTCGCTCGTGTGGCATACATTGTTCTTTATTTTCTACGGACGAGCTTGAAATCACAGTAGTGGCCCTGTAGCTGAATGGATGTATTACACAATAGGGACTGTGAGCAATGCCTTGTGTCCGTAATCCAACCTAACAGTCAATCGGTCTCTTGAAAAAGCACATTGATTTGGTTTGGAATAATTACTCTAACTGACTGTGAGGTCAGTCTGAACAAAGCACTACCACAAATGTGGCTGAATTCGTCTGTGATCTTTGTGTGTCCCttgcattcttttattttttatttaaagtgatacatatgttttaaaagttttcatCTTTCATCGTTTGGTCAATAAATATACCAATGCAGTGGTTCCCA

Function

GO:

id	name	namespace
GO:0048731	system development	biological_process
GO:0048468	cell development	biological_process
GO:0072359	circulatory system development	biological_process
GO:0030154	cell differentiation	biological_process
GO:0048513	animal organ development	biological_process
GO:0031290	retinal ganglion cell axon guidance	biological_process
GO:0007275	multicellular organism development	biological_process
GO:0043062	extracellular structure organization	biological_process
GO:0030198	extracellular matrix organization	biological_process
GO:0048856	anatomical structure development	biological_process
GO:0042221	response to chemical	biological_process
GO:0048869	cellular developmental process	biological_process
GO:0045595	regulation of cell differentiation	biological_process
GO:2000026	regulation of multicellular organismal development	biological_process
GO:0071711	basement membrane organization	biological_process
GO:0061564	axon development	biological_process
GO:0050793	regulation of developmental process	biological_process
GO:0015985	energy coupled proton transport, down electrochemical gradient	biological_process
GO:0015986	ATP synthesis coupled proton transport	biological_process
GO:0032501	multicellular organismal process	biological_process
GO:0032502	developmental process	biological_process
GO:0007166	cell surface receptor signaling pathway	biological_process
GO:0005753	mitochondrial proton-transporting ATP synthase complex	cellular_component
GO:0016469	proton-transporting two-sector ATPase complex	cellular_component
GO:0045259	proton-transporting ATP synthase complex	cellular_component
GO:0098800	inner mitochondrial membrane protein complex	cellular_component

KEGG:

id	description
ko03230	Viral genome structure
ko05164	Influenza A
ko03200	Viral proteins

ZFIN:

id	description
ZDB-GENE-070705-267	Predicted to be located in membrane. Predicted to be integral component of membrane. Predicted to be active in extracellular space. Is expressed in brain; neurons; pronephros; and solid lens vesicle. Orthologous to human FLRT2 (fibronectin leucine rich transmembrane protein 2).

Ensembl:

ensembl_id

ENSDARG00000079355

RNA

RNA id	representative	length	rna type	GC content	exon number	start site	end site
TCONS_00036806	False	2602	lncRNA	0.37	1	11097393	11099994
TCONS_00035383	True	7961	mRNA	0.39	2	11098239	11178022

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_017936	NA	coding	downstream	80466	11011197 ~ 11016927 (-)
XLOC_017935	NA	coding	downstream	105104	10979458 ~ 10992289 (-)
XLOC_017934	glrx5	coding	downstream	609442	10484015 ~ 10487951 (-)
XLOC_017933	NA	coding	downstream	674580	10347783 ~ 10422813 (-)
XLOC_017932	BDKRB2	coding	downstream	809237	10287061 ~ 10288156 (-)
XLOC_017938	NA	coding	upstream	446882	11624904 ~ 11629535 (-)
XLOC_017939	AL929349.1	coding	upstream	451859	11629881 ~ 11634468 (-)
XLOC_017940	NA	coding	upstream	802756	11980778 ~ 11985215 (-)
XLOC_017941	BX322618.2	coding	upstream	1061908	12239930 ~ 12243746 (-)
XLOC_017942	si:dkey-97l20.6	coding	upstream	1388079	12566101 ~ 12642685 (-)
XLOC_017928	CU539064.1	misc	downstream	1043692	10053405 ~ 10053701 (-)
XLOC_017930	NA	non-coding	downstream	1019178	10077157 ~ 10078215 (-)
XLOC_017925	AL645822.1	non-coding	downstream	1191009	9906268 ~ 9906384 (-)
XLOC_017943	BX005367.1	non-coding	upstream	1427696	12605718 ~ 12607421 (-)

Expression

Co-expression Network

Homologous

species	gene id	symbol	gene type	chromosome	NCBI id	location
grasscarp (Ctenopharyngodon idella)	CI01000051_04796878_04799272	FLRT2	coding	CI01000051	null	4796878 ~ 4799321 (+)
bowfin (Amia calva)	AMCG00000483	NA	coding	CM030141.1	CM030141.1	16023883 ~ 16029161 (+)

gene	XLOC_000007 f7
RNA	TCONS_00000019
bioproject	PRJEB12982

model fish

Basic

Function

RNA

Neighbor

Expression

WGCNA

Homologous

XLOC_017937

Basic Information

Chromosome Information

Sequence

Function

GO:

KEGG:

ZFIN:

Ensembl:

RNA

Neighbor

Expression

Co-expression Network

Homologous

copyright 2021-present@Lab of Aquatic Bioinfomatics, Institute of Hydrobiology, Chinese Academy of Sciences