RNA id: TCONS_00008133



Basic Information


Item Value
RNA id TCONS_00008133
length 8148
RNA type mRNA
GC content 0.50
exon number 59
gene id XLOC_004260
representative False

Chromosome Information


Item Value
chromosome id NC_007122.7
NCBI id CM002895.2
chromosome length 45484837
location 35777329 ~ 36020005 (-)
genome version GRCz11_2017_zebrafish_Genome
species zebrafish
(Danio rerio)

Sequence


ATGTCGGACAAGATGTCCAGTTTCCTCCACATCGGGGACATCTGCTCCCTGTATGCGGAGGGCTCCACCAATGGATTTATCAGCACATTGGGTCTGGTGGACGACCGCTGTGTGGTACAACCTGAATCTGGAGACCTGAACAACCCTCCTAAGAAGTTTCGAGACTGTCAGTTCAGGTTGTGTCCCATGAACAGATACTCGGCCCAGAAACAGTTCTGGAAAGCAGCAAAGCCTGGTGGAAACAGCACCACAGACACTGTACTACTCAACAAACTACACCATGCTGCAGATCTGGAGAAGAAGCAGAATGAATCGGAGAACCGTAAGCTGCTGGGAACGGTGATCCAGTATGGAAATGTTATTCAGCTGCTGCATTTAAAAAGCAATAAGTACCTGACGGTGAATAAACGCCTGCCGGCTCTGCTGGAGAAGAACGCCATGCGTGTGACGTTGGACTCGGCTGGAAATGAAGGATCCTGGTTTTACATCCAGCCCTTCTACAAGCTGCGCTCCATTGGAGATAGTGTTGTGATTGGGGACAAAGTAGTTTTGAATCCGGTAAACGCAGGACAGCCTCTCCACGCCAGCAGCCATCAGCTGGTGGACAATCCTGGCTGTAATGAGGTGAACTCGGTGAACTGCAACACGAGCTGgaagattgttttatttatgaagtGGAGCGACAACAAGGAGGCTATTCTTAAAGGGGGGGACGTTGTTCGGCTGTTTCACGCGGAGCAGGAGAAGTTTCTGACCTGCGATGAGCACCGGAAGAAGCAGCACGTGTTTTTGAGAACCACCGGCCGTCAGTCCGCCACCTCTGCCACCAGCAGCAAAGCATTGTGGGAAATAGAGGTGGTCCAGCATGACCCATGTCGTGGCGGCGCCGGTTACTGGAACAGTCTGTTCAGATTTAAGCATTTGGCCACAGGACATTATCTGGCCGCAGAGGTCAATCCTGACTATGAGGAAGAATCGCAGGAATCCCGTTCATCTGTAAGCAGTCAAATAGCTCTGCGAGCTCGTCTGCGCACGCCCAATGAGAAGGTCATGTACTCACTGGTGTCTGTGCCTGATGGCAATGACATTTCCTCTATATTTGAGCTGGACCCCACCACTCTCAGAGGAGGAGACTCACTCGTGCCCAGGAACTCGTATGTGAGATTGAGGCACTTGTGCACCAACACATGGGTCCACAGCACCAACAACCCCATTGACAAAGAGGAGGAGAAGCCGGTTATGCTGCGTATCGGCACGTCTGCCGTCAAAGAAGATAAAGAGGCCTTCGCCATTGTGCCAGTTCCTCCTGCAGAGGTGAGGGATCTGGACTTTGCTAATGATGCCAGTAAAGTGTTGGCATCCATCGCTGGCAAGCTAGAGAAGGGCACAATCACCCAGAATGAAAGAAGGTTTGTCACTAAGCTGCTGGAGGATCTCGTGTTTTTTGTAGTGGACATTCCCAACAATGGACAGGATGTGTTGGAGATCATGGTCAATAAACCCAATCGTGAACGACAGAAACTCATGAGAGAGCAGAACATCCTAAAACAAATCTTCAAGCTGCTACAGGCTCCATTCACAGACAGCGGGGACGGTCCGATGCTGCGTCTGGAGGAGCTGAATGACCAGAGACACGCTCCCTTCAGGCACATCTGCCGGCTCTGCTACCGCGTCCTGCGACACTCACAGCAGGACTACAGGAAGAACCAGGAATACATTGCCAAGCAGTTCCGCTTCATGCAGAAACAGATCGGCTACGATGTGTTGGCCGAGGACACAATAACAGCCCTCCTCCACAACAACCGCAAACTCTTGGAGAAGCACATCACGGCGGCAGAAATCGACACGTTTGTCAGCCTTGTGAGGAAAAACCGTGAACCGAGGTTTCTGGACTACCTCTCAGATCTGTGTGTGTCTATGAATAAGTCCATCCCAGTGACTCAGGAACTGATCTGCAATGCCGTTTTAAACCCCGCCAACGCTGACATCCTTATAGAGACCAAGCTGGTGTTGTCCCGGTTCGAGGTGGAGTCTGGAGAGGGTCCTATGGAGTCAGAAATAGACGAGGAGGAGGTCTGGTTGTTTTGGAAGAACAGCAATAAAGAGGTGAAGAGTAAGAGCATCAGAGAGTTGGCACAAGATGCCAAAGAAGGCCAGAAAGACGACCAGGATGTCATTAGTTACTACAGATATCAGCTGAATCTGTTTGCTCGGATGTGTTTGGACCGCCAGTATTTGGCCATTGAGAAGATCTCGGGCCAGCTGGATGTGGATCTGATCCTGCGTTGTATGTCAGATGAAGACCTGCCCTATGACCTCCGGGCCTCCTTCTGTAGACTGATGCTTCACATGCATGTGGATCGAGACCCACAGGAGCAGGTCATGCCTGTCAAATATGCCCGGCTGTGGTCCGAGATCCCCTCCAAAATCGCCATCGATGATTATGACAATGACGGAACCAGCAGAGATGAGATAAAGGAGCGTTTTGCGCTGACAATGGATTTTGTGGAGAACTACCTCAGAGATGTGGTCCTTCAAAATGTTCCTTTCTCCGATAAAGAGAAAAACAAGCTCACTTTTGAGGTTGTGAATTTAGCAAGAAACCTCATTTACTTCGGCTTTTACAACTTCAGCGACTTGTTACGTTTGACGAAGATCCTTTTGGCCATTTTGGACTGCGTTCATGTCAGCACCATTTATCCCATCAACAAGATGGAAAAAGGAGATGACTCAACTTTCAATATTGATATTACAATTGCTAATTGTTTGAAACAGATATGTAGTAATGTAATGAAGTCCATTCATGGTGTTGGTGAGCTGATGACTCAGGTGGTGCTGAGAGGAGGCGGATTCTTACCCACAACCCCTACAACACCTCCAGATGGAGATGTAGTGAAGACCCAGACAGAACCAGAGAAAGAAGACATTCTGGTGATGGATACCAAGCTAAAAATCATAGAGATATTACAGTTCATTCTGAATGTTCGGCTGGACTACAGGATCTCCTGCTTGCTGTGCATCTTCAAACGAGAGTTTGACGAAAGcaacacacaaacagatacagCACCTGCTCCAAATGCAGACGGCCCCAACACTCTGGACTTTGAGAACATTGAAGAGCAAGCAGAAGGAATTTTTGGTGGAAGTGAGGAGAACACACCTCTGGATCTTGATGACCACGGTGGCAGAACGTTTCTGAGGGTTTTGCTTCATCTCACCATGCATGACTATCCACCGCTTGTGTCCGGAGCGCTTCACCTGCTCTTTAGACACTTCAGCCAGAGACAAGAAGTGCTCATGGCTTTCAAACAGGTTCAGCTTTTAGTGACCAGTCAAGACGTCGACAATTACAAGCAGATCAAATCAGACCTTGACCAGCTGCGATCCAACGTGGAGAAATCTGAGCTCTGGGTTTATAAGCGTCAGGGTGATGAAGGCATGGATGGAGGAGACGGACTTCCTGCAGAGTCTGACCACAAGAAGAAGGTGGACTCTGGCTCAGACAAAAAAAAGACGGACGGAAATGGCAGTGACAATTACAGAGACGTAAAAGAGATCCTCCTGCGTCTCAGTAAACTGTGCGTGCAGGAAGGGCCGTCGGGGAAGAAGAGTAAGAAACAGCAGCAAAGGCTCTTGAGGAACATGGGAGCTCATTCAGTGGTGCTGGAGCTTCTGCAGATCCCATATGAGAAGGGTGAGGACGTCCGAATGCAAGAGATCATGAAACTGGCTCATGAGTTTCTTCAGAACTTCTGCGCAGGGAACCAGCAAAACCAGGCTCTGCTCCACAAACACATCAACCTGTTTCTCAACCCCGGGATCCTGGAGGCAATCACCATGCAGCACATATTCATGAACAACTTCCAGCTATGCAGTGAGATGAACGAACGTGTCGTGCAGCACTTTGTTCACTGCATCGAGACCCATGGCCGACACGTCCAGTACCTGAAGTTCCTGCAGACCATCGTCAAGGCAGAGAACAAATTCATCAAGAAGTGCCAGGACATTGTGATGGCCGAGCTAGTGAACTCGGGCGAGGATGTGTTGGTGTTTTACAATGACCGGGCCTCCTTCCAGACATTGGTCCAGATGATGCGTTCGGAGCGCGACCGGATGGATGAAAACAGCCCTCTCATGTACCACATCCATCTGGTGGAGCTTCTGGCCGTCTGCACTGAGGGCAAAAACGTCTACACTGAGATCAAGTGCAACTCTTTGCTGCCGCTAGATGATATTGTTCGTGTGGTCACACACAAAGACTGCATCCCTGAGGTCAAAATAGCATACATCAACTTCCTGAACCATTGCTACGTGGACACAGAGGTGGAAATGAAGGAGATTTACACCAGCAATCACATGTGGAAGCTCTTTGAAAACTTTCTGGTCGACATATGCAGGGTCTGCAACAATACAAGTGACCGCAAACATGCTGACACGACACTAGAAAGCTACGTGACTGAAACCGTGATGAGTATTGTGACGACATTTTTCAGCTCCCCTTTCTCCGACCAGAGCACTAGTTTACAGACTCGGCAGCCTGTGTTTGTGCAGCTCCTGCAAGGGGTTTTCAGAGTTTACCACTGTAGCTGGCTCCTTCCTAGCCAGAAGGGCTCAGTGGAGAGCTGTATTAAAGTTCTATCTGATGTGGCCAAGAGCAGAGCTATCGCCATCCCGGTGGATTTAGACAGCCAAGTCAACAACCTGTTTGTGAAATCCAATAATGTGGTGCAGAAAACCATCCTCAATTGGAGATTGTCGGCTCGTAATGCATCCAGAAGAGATTCAACGCTCACAGCTTCCAAAGACTACAGGAATATCATCGAAAGGCTGCAGGATATCGTGTCTGCTCTGGAGGATCGTCTGCGGCCGCTGGTTCAGGCTGAGCTCTCTGTGTTGGTGGATGTTCTTCATCGGCCGGAGCTACTCTTCCCTGAGAACACAGATGCCCGAAGGAAATGCGAGAGTGGAGGCTTTATCTCAAAATTAATAAAACATACTAAGCAGCTTTTAGAGGAAAATGAAGAGCGCTTGTGTATAAAAGTCCTGCAGACACTTCGAGAAATGATGACTAAAGACCGAGGCTATGGGGAAAAGAGTGAGGCTTTGAGGCAAGTCCTGGTTAACCGTTACTATGGCAACTTCAAACCGGGCGGCAGACGAGACAGTTTGACGAATTTCAGCAATGGGCCGCTCACCCCTGTTGGGCAGACGAAGActcctgcagggggtggtggtggtggtggtggtggtggtggtggttcaGCAGGGAGTCGGGGAGAGCTGAGTCTGGCTGAAGTGCAGTGTCACCTGGACAGAGAAGGAGCTTCTGACCTGGTCATTGACCTCATCATGAATGCCACCAGTGACCGGATCTTCCAGGAAAGCATCTTGCTGGCCATCGCTCTGCTTGAGGGAGGAAACCCCGTCATACAGCGGTCGTTCTTCTGCCGCTTGACGGGTGATAATAAGTCAGAGAAGTTCTTTAAGGTGTTTTACGAGCGGATGAAACTCGCCCAGCAGGAGATCAAGGCCACAGTGACGGTGAACACCAGCGATCTAGGCAGCAAACGCAAAGATGAGGACACCAATGATAAGGATGTACAATCACGCAAGAAAGTCAAAGATGTGGCTGTTATAACCGAAGAAGTGCGAGAGCAGCTACTAGAAGCCTCTACGGTCACTAAGAAGGCCTTCAGCACTTACAGAAGAGAAGCGGACGCGGATGAGCATCTGAATGCTACGGAGGGACCAAGCAGCACAGCTGAGAAGAACCAGGACGAGAACGAGATGAGCGTCATCATCACCATCATGCAGCCAATCCTGCGCCTCATGCAGCTGCTCTGCGAAAACCACAACCGAGAGCTGCAGAACTTCCTTCGCTGTcagaacaacaaaaacaactacaaCCTGGTGTGCGAGACGCTGCAGTTCCTAGATTGTATATGCGGCAGCACTACAGGAGGCCTGGGGCTGCTGGGACTCTACATTAATGAGAAGAACGTCGCTCTTATAAACCAGACTGTGGAGAGTCTGACTGAATACTGCCAGGGCCCTTGCCATGAAAACCAGAACTGCATTGCCACACATGAATGTAACGGCATCGACATCATCATCGCCCTCATCCTCAATGACATCAACCCTCTCGGCAAGAAGAGAATGGACTTGGTGCTGGAGCTAAAGAATAATGCTTCAAAACTCCTGCTGGCCATCATGGAAAGCCGTCATGACAGTGAGAATGCAGAGAGGATTTTATACAACATGCGGCCTAAAGAACTGGTGGAGGTGATCAAGAAGGCCTACATGCAGGGAGAAATCGAGGTAGAGCACACTGATGACGGAGAGAACGGTGAAGAAGAGCATGCCGCTTCTCCTCGTAATGTGGGTCACAACATCTATATCCTGGCGCATCAGCTAGCCAGACACAACAAGGAACTCCAGGCTATGCTGAAGCCAGGAGGGACGTATGGGGAGGGAGATGAAGCTTTGGAGTTCTACGCCAAACACACAGCTCAAATTGAGATCGTCCGCCTGGATCGCACAATGGAACAGATTGTATTTCCCGTCCCCAACATTTGCGAATTCCTAACCCAGGAGTCCAAGCTTCGCGTCTATTACACCACAGAACGCGACGAGCAGGGCAGCAAGATCAATGACTTCTTCTTGCGCTCTGAAGACCTTTTTAATGAGATGAACTGGCAGAAGAAGCTGCGAGCTCAGCCCATCCTGTACTGGTGTTCCCGTAACATGTCCTTTTGGAGCAGCATTTCCTTTAACCTCGCCGTCCTCATGAACCTCTTGGTAGCATTCTTCTATCCACTGGAAGGTGGAGGTGTCCGTGGAGGCACTCTGGAGCCGCATCTCTCCGCTCTCCTCTGGGCGGCCATGCTGGTTTCTCTGGCTATAGTGATTGTACTGCCTCAGCCGCACGGCATTCGGGCCCTCATCGCTTCCACCATCTTACGCCTCATCTTTTCGGTCGGCCTGGAGCCCACCCTCTTCCTCCTTGGGGCTTTTAATGTGGGCAATAAAGTGATCTTCCTAATGAGTTTTGTGGGCAATCGGGGCACGTTCACGAGAGGATACAAGGCCATGATCATGGACGTGGAGTTCCTGTATCATCTGCTGTACCTCATCATATGCAGCCTTGGGGTCTTCGTTCACGTCTTCTTCTATAGTTTACTTcTCTTCGACCTGATCTACCGGGAGGAGACGCTGTTGAACGTCATCAAAAGCGTGACCAGGAACGGGCGCTCCATCGTGCTGACCGCTGTTCTGGCTCTCATCCTGGTCTACCTCTTCTCCATCGTCGGATACATCATCTTTAAGGATGACTTTATCCTGACTGTGGACAGGATATCCAATAAGACTCTCGGTGAGAATACCAGTAAGATGGGAGAGTTCCTGGCTGGAGCAGTGTGTAGAAAAGAAGAGAACTTTCAGTCGTCTGCATTGGTGATTGAGGATAAAGAGAGGACCTGCGACTCTCTGCTTATGTGTATCGTCACTGTGTTGAGCCACGGCCTGCGAAGCGGTGGAGGAGTCGGAGATGTGCTGCGAAAACCCTCCAAAGAGGAGCCTCTGTTTGCGGCTCGCGTCATCTACGATCTGCTCTTCTTCTTCATGGTCATCATCATCGTCCTCAACCTCATCTTTGGGGTCATTATCGATACCTTCGCAGACCTCAGAAGCGAAAAGCAGAAGAAAGAGGAGGTTCTGAAAACCACCTGCTTTATTTGTGGTTTGGAGAGGGACAAGTTTGACAACAAAACGGTGACGTTTGAGGAACACATTAAGGTGGAGCACAACATGTGGCACTATCTCTTCTTCATTGTGCTGGTGAAAGTCAAAGACTCCACTGAATTCACTGGGCCTGAGAGTTATGTGGCTGAAATGATCCGGGATCACAATCTGGACTGGTTTCCTCGAATGCGCGCCATGTCTCTGGTCAGCAGCGATGCCGAGGGTGAACAGAATGAGATCAGGAGTCTGCAAGAGAAGCTGGAATCCACCATGAAGCTGATCTCCAACCTGTCAAGCCAACTCACAGAACTAAAAGAACAGATGACGGAGCAGAGGAAACAGAAGCAGAGGATCGGCTTATTGGGACACCCACAACACATGAACGTGAACCCCCAGCAGCCCGCCTGA

Function


GO:

id name namespace
GO:0070588 calcium ion transmembrane transport biological_process
GO:0055085 transmembrane transport biological_process
GO:0006811 ion transport biological_process
GO:0006816 calcium ion transport biological_process
GO:0005783 endoplasmic reticulum cellular_component
GO:0016020 membrane cellular_component
GO:0016021 integral component of membrane cellular_component
GO:0005216 ion channel activity molecular_function
GO:0005220 inositol 1,4,5-trisphosphate-sensitive calcium-release channel activity molecular_function
GO:0005262 calcium channel activity molecular_function
GO:0070679 inositol 1,4,5 trisphosphate binding molecular_function

KEGG: NA

ZFIN:

id description
ZDB-GENE-070604-2 Predicted to enable inositol 1,4,5 trisphosphate binding activity and inositol 1,4,5-trisphosphate-sensitive calcium-release channel activity. Predicted to act upstream of or within calcium ion transmembrane transport. Predicted to be located in endoplasmic reticulum membrane. Predicted to be integral component of membrane. Is expressed in Purkinje cell; cerebellum; granule cell; hindbrain; and optic tectum. Used to study congenital heart disease. Human ortholog(s) of this gene implicated in Gillespie syndrome; spinocerebellar ataxia type 15; and spinocerebellar ataxia type 29. Orthologous to human ITPR1 (inositol 1,4,5-trisphosphate receptor type 1).

Ensembl:

ensembl_id ENSDART00000191662

JBrowse2


Neighbor


RNA id RNA type direction distance location representative gene id
TCONS_00008124 lncRNA downstream 36907 35725245 ~ 35741444 (-) False XLOC_004257
TCONS_00008123 lncRNA downstream 36907 35725245 ~ 35741444 (-) True XLOC_004257
TCONS_00008837 lncRNA downstream 36910 35664551 ~ 35741441 (-) False XLOC_004257
TCONS_00008484 lncRNA downstream 36911 35664551 ~ 35741440 (-) False XLOC_004257
TCONS_00008839 lncRNA upstream 232135 36242059 ~ 36246756 (-) True XLOC_004264
TCONS_00008152 lncRNA upstream 280884 36290808 ~ 36291682 (-) True XLOC_004266
TCONS_00008841 lncRNA upstream 474468 36484392 ~ 36687156 (-) False XLOC_004269
TCONS_00008840 lncRNA upstream 474468 36484392 ~ 36687156 (-) False XLOC_004269
TCONS_00008161 lncRNA upstream 474468 36484392 ~ 36687161 (-) False XLOC_004269
TCONS_00008126 mRNA downstream 15028 35759652 ~ 35763323 (-) True XLOC_004259
TCONS_00008125 mRNA downstream 21883 35744918 ~ 35756468 (-) True XLOC_004258
TCONS_00008121 mRNA downstream 202521 35447417 ~ 35575830 (-) False XLOC_004256
TCONS_00008138 mRNA upstream 27152 36037076 ~ 36040549 (-) True XLOC_004261
TCONS_00008139 mRNA upstream 31693 36041617 ~ 36046741 (-) False XLOC_004262
TCONS_00008140 mRNA upstream 32345 36042269 ~ 36156935 (-) False XLOC_004262
TCONS_00008141 mRNA upstream 32521 36042445 ~ 36046458 (-) False XLOC_004262
TCONS_00008142 mRNA upstream 38655 36048579 ~ 36051004 (-) False XLOC_004262
TCONS_00008119 other downstream 553212 35225022 ~ 35225139 (-) True XLOC_004254
TCONS_00008105 other downstream 1311838 34466395 ~ 34466513 (-) True XLOC_004247
TCONS_00008102 other downstream 1422689 34355544 ~ 34355662 (-) True XLOC_004245
TCONS_00008088 other downstream 1812079 33966158 ~ 33966272 (-) True XLOC_004234
TCONS_00008078 other downstream 2406984 33371251 ~ 33371367 (-) True XLOC_004227
TCONS_00008174 other upstream 1289447 37299371 ~ 37299485 (-) True XLOC_004279
TCONS_00008194 other upstream 2165147 38175071 ~ 38175150 (-) True XLOC_004294
TCONS_00008207 other upstream 2938063 38947987 ~ 38949751 (-) True XLOC_004305
TCONS_00008210 other upstream 3079951 39089875 ~ 39089991 (-) True XLOC_004308
TCONS_00008222 other upstream 4172757 40182681 ~ 40182796 (-) True XLOC_004319

Expression Profile


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