RNA id: TCONS_00001142


Basic Information

Item Value
RNA id TCONS_00001142
length 9626
RNA type mRNA
GC content 0.49
exon number 50
gene id XLOC_000675
representative False

Chromosome Information

Item Value
chromosome id NC_007112.7
NCBI id CM002885.2
chromosome length 59578282
location 52560549 ~ 52628407 (+)
genome version GRCz11_2017_zebrafish_Genome
species zebrafish
(Danio rerio)

Sequence

ATGGAGGAGAGGAAAAAGGTCCGTCCATAAGAACACAAAGCACCACCAGTACAATATCGCTCGGAGAGAGTTTAAACAGCTGCTTTATCCTCTCTTTTCTAAAAGGATTTACAGTTTATATGAAATAAGGAACAATCATTAAGGAGCAAGAAATAGCGCTTCTGTAAGGCGGCACGGATAGTGTGTATCCGTGGTAAGATGGCTGTCTCCACTCAGTTGGGTTTACTGTTGTGGAAGAACTTCACCTACAGACGGAGACAGACTATTCAGCTGCTGGTCGAGATCATATGGCCACTtttcatctttttcatcttgaTATCTGTCAGACTCTACTATCCGCCATACGAGCAACATGAATGCCATTTTCCCAATAAGGCTATGCCCTCTGCAGGGACTTTACCGTGGGTTCAGGGCATCATCTGCAATGCCAACAACCCCTGCTTTCGCTACCCGACTCCAGGAGAGACGCCCGGGGTTGTGGGCAACTTCAATGACTCCATCATCTCCCGACTGTTCACCGATGCCAAGAAAATTCTCCTCTACAGCCAACAAGACAAGAGCTTCGAAGGTTTCAAAGGACTCGTTCGAGCCTTGAGAAAACTGCAGAGAAACACTGAAGGTTTCAAACTGAAGGATTTCCTCCATGATAATGAAACGCTGTCTGCCTTTCTGGAGAAAAATGCCACCCTGCCCAAGCATGCAGTGAGACAGATAGTGGAGGCCAACGTCAACTTGGAGAAGGTGCTTATTAAAGGATTCGGCGTTCATCTTACAGACCTGTGCAATTCCACGTCTCTGGAAGAGTTTGTGACTATAGCCGATAAAGACGTGTCTCAACTGACGCAAAACATCATCTGCCAGTCGCCCGCTGATTGGCTGAACAACGCAGAGCAACACTTCCTGTCCAACCTGGACTTCCTGAAGCCCATTCGGAAAGATGTCAAGTCAGACCCAAAGATCATCAAAGATGTGTCCATTGCTACAGACAGTCTGCTGGAGAGTCTGGGGGCTTTGGCAGTGGAGTTGGCGAGTATGAAGAGCTGGCGCGACATGCGGAATGAGATCCTCTACCTGACGGGCAACAGCACGCAGTCACCAAACCACATGTACCAGGCCGTGTCCCGCATCGTCTGCGGCCATCCGGAGGGTGGCGGATTAAAGATCAAGTCCCTCAACTGGTTCGAAGACAATAACTACAAAGCCCTGTTCGGAAACAATGGCAACGACAGTGACAGCGAGCCCGCATCTGTTTACGACAACTCCTCCACGCCGTACTGCAACAACCTGATGAAGGGTCTTGAGTCGAGTCCCATTTCCCGCATGATCTGGAGGGCCCTGAAACCGCTGCTCATGGGAAAGATCTTGTACACACCAGACACTCCGGCCACACAGAGGATCATACATGAGGTCAATAAGACGTTTCAGGAGCTCGGTGTACTCCGTGACCTCGGCGGCATGTGGGAAGAAATGAGACCCAAAATCTGGAACTTCATGGAGAACAGTGAGGAGATGGACCTCGTCCGGACGCTGCTCCAGAATAACGCCAGCGCTCGTTTCTTCAATGCTAAGCTGAGCGGGACAGAATGGCGCGTGGAGGATGTGTCCCGCTTCTTGTCCAAGTCTTCAGAGGACACTCGTCCACATGGGACAGCGTACACATGGAGAGAAGTGTTCAACGAGACTGACCAGGCCATACAGACCATCTCCCGCTTCATGGAGTGTGTGAACTTGGATAAGTTGGAGCCGGTGGCGAACGAGGAGCGTCTGGTCAATAAATCCATGCGTCTGCTGGATGACCGCAAGTTTTGGGCAGGAATCGTGTTTCCCGACATGCAATCCAACACGTCTGATCTGCCACTCAACGTTAACTATAAGATCCGCATGGACATCGATAACGTGGAGCGAACCAATAAGATCAAGGACGGATATTGGGATCCGGGTCCTCGAGCTGACCCATTTGAGGACTTGCGTTACATCTGGGGCGGCTTCACATACCTGCAGGACGTGATTGAGCACGGGATCATCAGAGCTCTGACCGGCAGCAAGGAAAAAACCGGAGTCTACATCCAGCAGATGCCGTATCCCTGCTATGTGGATGACATTTTCCTGCGGGTCATGAGCCGCTCCATGCCTCTCTTCATGACTCTGGCCTGGATGTACTCGGTGGCCATCATCATCAAGGGTGTGGTGTATGAAAAAGAGGCCCGACTCAAGGAGACCATGCGGATCATGGGTCTGGATAACGGCATCTTGTGGCTGAGCTGGTTCATCAGCAGCCTGATACCACTGCTCATCAGCGCCGCCCTGCTGGTGCTCATCCTGAAGATGGGGAATCTCCTGCCGTACAGCGACCCCGGCGTCATCTACTTGTTCTTGTCCTCTTTTGCGGTGGTGACCATCATGCAGTGTTTCCTGATCAGCACACTCTTCTCTCGTGCCAATCTTGCCGCCGCCTGCGGAGGCATCATTTACTTCACGCTTTACCTGCCCTATGTGCTCTGCGTCGCCTGGCAGAACTACGTGGGCTTCGGTGCCAAAATAGTAGTGAGTCTGCTGTCTCCAGTGGCGTTCGGCTTCGGCTGTGAGTATTTCGCTCTGTTTGAGGAGCAGGGTGTGGGCATCCAGTGGAGTAATCTGCTGTCCAGCCCCATGCAGGAGGACAGCTACAACCTGACCACCTCCATCTGCCTCATGCTCTTCGATTCGGTGCTCTACGCCGTCATGACCTGGTACATCGAGGCCGTCTTTCCAGGTCAGTATGGCATCCCTCGACCCTGGTACTTCCCTTTCACCAAGTCATACTGGTGCGGAGAGAAATGCGGATGGACAACATCAGTGCCAAGTAACAGGAAAGAAAACGCGGAAGCTGTGTGCATTGAGGAAGAGCCAGCCCATATAGATCCTGGTGTTTACATCGAGAACCTGATGAAGATCTACAGCAATGGTAAAGTGGCAGTGGACGGTTTGACTCTGGGCTTTTATGAGGGCCAGATCACTTCTTTCCTTGGCCACAACGGCGCTGGAAAAACCACAACCATGTCAATCCTCACCGGCCTGTTTCCACCGACTTCTGGCACTGCGTACATCCAGGGCAAAGACATCCGCACAGACCTGAATGCCATCCGCCAAAACCTGGGCGTCTGTCCTCAGCATAACGTCCTGTTCAGCATGCTGACCGTGGAGGAGCACATCTGGTTTTATGCGCGTCTGAAGGGTTTGTCTGCGGAGAAGGTGAAGTCTGAGATGGAGCAGATCGTGATGGACCTCGGCCTTCCTCATAAACGCACATCTCGCTCCAACCAGCTCTCAGGAGGAATGCAGAGGAAGTTATCAGTCGCGCTGGCCTTCGTCGGAGGCTCAAAAGTGGTGATTCTGGATGAACCGACTGCTGGAGTTGATCCTTACGCCCGCCGTGGCATCTGGGACCTGCTGCTGAAATACCGCCAAGGTCGCACCATCATCCTGTCCACACACCACATGGATGAAGCCGATATACTGGGCGACCGCATCGCCATCATCTCTCATGGCAAGCTGTGCTGCGTGGGCTCCTCTCTGTTCCTCAAGACTCAGCTGGGCACGGGTTACTACCTGACGCTGGTCAAGAAAGACTTCGATCTGTCCGCCAGCTCCTGCCGCACCTCCAGCAGCACGGTCTCCTACTCCAAGGGAAGCCTCAAGAAGgaTGACAGCGTATCTGAGAGCAGTTCTGATGCCGGACTGGGCAGCGACCATGAAAGCGAAACCACCACCATCGACATCTCCTTGATCTCCAATGTGATCTTCAAGCACGTTCCTACAGCCAGACTGGTGGAGGATCTCGGCCACGAAATCACGTACGTTCTGCCATATGAATCTGCCAAAGATGGAGCATTCGTGGAGCTTTTCCACGAGATCGACGACCGGCTCACAGACCTCAGCATCTCCAGCTACGGCATCTCGGACACCACTCTCGAAGAGATTTTCCTGAAAGTGGCTGAGGACTGCGGTGTGGATGCTGAAACCTCAGACGGGACTCTGCCTGCACGCAGGAACCGCAGACATGCATTCGGGGACCATCAGAGCTGCTTGAAGCCTTTTACTGAAGACGACTTTGATTTCAACGACTCTGAAGGGGATCCAGAGTCTCGTGAGACTGACTGGTTGGATGGTGCTGATGGTAAAGGCTCGTATCAGGTGAAGGGCTGGAGTCTGAAGCGGCAGCAGTTTGTGGCTTTGCTCTGGAAACGTTTACTGTACGCCCGACGCTCACGCAAAGGTTTCTTTGCTCAGATTGTGCTTCCCGCTGTGTTCGTGTGCATCGCTCTGGTCTTCAGCCTCATCGTTCCTCCTTTCGGGAAATATCCCAGCCTCGCTCTGGAGCCCAGCATGTATGAGGAGCAGTTCACCTTTATCAGTAATGACGCACCAgaagacagacacacaaacaggCTGCTTGATGCTCTGAAGGACAGTCCGGCTTATACTGACCAGTGCACAGATGGGAAAAACACAGCTAGCAGATCGTGTCCGATTAAAGATGGAGAATGGCTGGTTCCAGAGGTTACCGAGAGCATTGAGGCAATATTCCTGAATGGAAACTGGAGTATGGAAAACCCTTCTCCTCTGTGTGAGTGCAGCTGTGAAGGACGGAAAAAGATGCTTCCGGAGTGTCCGCCTGGAGCAGGAGGCCTTCCACCGCCTCAGATTAAAGTCACCCATGATGAAACCCTGCAGAATCTGTCTGGAAGAAACATTTCAGACTATTTGGTGAAAACATACGCACAGATTATTGGGAAAAGTTTGAAGAACAAGCTCTGGGTCAACGAATTCAGATATGGTGGCTTCTCATTGGGTGCACGAAACACACAGGCTCTCCCACCTGGCGATGAGCTCACTGATGCCATCTCTcacatccgcagccgcttcagtCTTGAGTCGGGCACCGCAGCCGACCGCTTTCTGGGAAGCCTGTCAACTTTTATCCGAGGTCTGGATACCAATAACAATGTGAAGATCTGGTTCAATAATAAAGGCTGGCACAGTATCGGATCATTCCTCAACGTCATGAACAATGCCGTCCTGCGTGCTAATCTTCCTCCCGGCCTGGATCGCTCCAAATTTGGCATCAACGCATTTAACCATCCACTCAACCTCACCAAAGAGCAGCTCTCGCATGTGGCACTAATGACCACCTCGGTGGATGTGCTGGTGTCCATCTGCGTCATCTTCGCCATGTCCTTCGTTCCAGCCAGTTTCGTGGTGTTCCTCATCCAGGAGAGAGTGAATAAAGCCAAACACATGCAGTTCATCAGCGGAGTGCAGCCGTTTCTCTACTGGCTGGCCAACTTTGTCTGGGACATGTGCAACTACATTGTCCCGGCGACTCTGGTGATCATCATCTTCGTCTGTTTCCAACAAGAGGCATATGTGTCTTCGACAAACCTGCCGGTTCTTGCTCTTCTGCTGCTTCTGTATGGATGGTCCATAACGCCCCTGATGTACCCAGCTTCATTCTTCTTCAAGATCCCAAGTACAGCATATGTGGTTCTGACCAGCGTCAACATCCTCATTGGGATAAACGGCAGCGTATCCACATTCGTCCTGGAGCTTTTCGGCAGCAATGAGATCGGCGGCATCAATGACATCTTGAAGAACGTGTTTCTGATCTTCCCTCATTTCTGTCTGGGTCGAGGACTCATTGATATGGTGAAGAACCAAGCTATGGCTGACGCGCTGGAGCGATTCGGAGAGAATCGTTTCCGCTCTCCTCTGGCGTGGGACATGGTGGGCAAGAATCTGTTCGCTATGGCCATCGAGGGCGTGATTTTCTTCAGCATCACCGTCCTCATCCAGTACCGCTTCTGCATTAAGGCCAGGTCACTTAGCACTAAGCTGAAGCCAATCGGAGAGGAGGATGAGGACGTAGCCCGAGAGAGGCAAAGGATTCTGGGAGGAGGAGGACAGACTGATATCCTGGAGCTCAGGCAGCTCACCAAGGTGTATAAGAGGAAGCAGAAGCCAGCTGTAGACAGACTGTGTGTGGGAATCCCACCTGGAGAGTGTTTTGGGTTGCTGGGTGTGAATGGAGCCGGAAAGACGAGCACCTTCAAGATGCTAACCGGAGACTCTGTGGTCACCAGCGGAGAGGCCTACTTAGCAGGAAACagCGTGCTGACGGAGATTGATGAAGTGCATCAGAATATGGGCTACTGCCCGCAGTTTGATGCCATCAATGACCTGCTGACGGGCAGAGAGCATCTGGAGTTTTATGCCATCCTGCGTGGCGTCCCTGAGAAAGAAGTGTGCAAGGTCGCAGATTGGGGCATCCGCAAACTGGGCCTGATGAAGTATGTGGACAAAGCAGCAGGAAGCTACAGCGGAGGAAACATGAGGAAGCTTTCCACCGCCATGGCGCTCATTGGAGGACCGCCGGTGGTGTTCTTGGACGAACCCACCACTGGGATGGACCCCAAAGCACGGCGGGCCCTGTGGAACTGCATCCTCAGCATCATTAAAGAGGGACGCTCCGTCGTGCTGACCTCACACAGTATGGAGGAATGTGAAGCTCTTTGCACTCGGATGGCCATCATGGTGAACGGCAGGTTCCGCTGTCTGGGCAGTGTGCAGCATTTAAAGAACAAGTTTGGTGACGGGTACACCATCATCCTGCGGGTGGCAGGCGCCGATCCGCGGCTGGAGCCGGTGATGGAGTTCATCGAGCGGGAGCTGCCGGGCAGTACGCTGAAGGAGAAACACCGAAACATGCTGCAGTACCAGCTGTCCTCATCCCTGACCTCCCTCGCTCGCATCTTCAACATCCTctccaagaacaaagagcagCTCCACATCGAGGACTACTCCGTCTCACAGACCACTTTAGACCAAGTTTTTGTCAATTTTGCCAAGGACCAAAGTGACGAGGACCACTTAAAAGACATTTCCATGAACAAAAATGATGCCGTTGTGGACATTTCGAAACTGAACGCCTTCCTCACAGACGAGAAGGCCAAAGAGACAGTGGTGTGATCTGGTTACAAAAACCTTCACGGGACTAGTGTGTCATTTTTTGTActactttttagttttttgttgtatttcagcagtgtgtttgtgtgcccgGAAATGGGCGCTGGACCTAAAACACACACTACTGAAACAAACCAATGCAAATCAATGCAAAAAGAGAAGAAGATTGGAGTAAACACTGAGGAAAGTCGAGCCTGGCGCTCACCACTCCCTCATGGTGAACTCAATGAAACTTGAAGCTTTTCGCTCCACAATCGGTGAATGTTCAATCGACGAAAGACGTCCGCGGAGTTTCTTTCGAGAATCAACGAAACACTGCCAATGAGATCCAGTTCAGGGCCGAAGTTCATCTCCTCATCTAACGCAGGCTTCAAAACACTTTGCATTTCAGCAACTATTCTTCTAcgttatttttttagatatatgCATTTTGAAACTATACTCAAGTGATTTTGTTTTCCGATGTGCAATGTTTCACTATTGTTGTCAAGTGTTTTGAAAGTGTGGTGCCTTGAAACAACACTCCGCTATTGGACAGCAGCCGTAGAGCGCGCACTCTCAGTGGGGTCTTTATCTAACGTCTCATGTGACGACAGAGCGGACGGCTTTCGGAGTTTATTGCATGCTTTACATGGATGCCGTGTTTAGGACGCCATCGTAAGCTCAAGCATGTTGTAGCTTCATTACACTGAAGTATTTTCGCGTGGGTATCAACGGATGGTCGCTGACTTTCGGCGGGAATTGTTTTTTTCGTGTGCGAAACAGGCAGAAGTTCGTATCGTGAATCTGTTCCGAAGCAATTCAAGTGTCCGTGCCAAAACCAGGTCAAGTGGTTCAATATTTTAGCGAAATGATCATATTATAGAGCAGTGttgaatattttttgttgtcTTGAACTAAAACAAGAGTTTCCTTGTACAGTAAGGCCTGGAGAGACATCCGTAGGCCTCTGATacagatttaaagggacagtacactgAAAACAAAAAGATGATACTGCCATCGTTTACTTTCTGTCGacgatatttcgaagaatgtctctctttaacttccatagtaattgtagCTGCATATAGTTCCATTGTTGGTTCTGACGCATTTATTCCTTGAACAGTttgataataaaatgaaatgtcctTACCTTTAAAAAGAAATTTGTATATTCCAATCCGTTTATTGTCAATTTAGtcaaaatttaaaaagtaaacattaaaattaaGTATGGGTGACGTaaaactgatgtttcgacacagtgttTAATCTCGAAGTGCAAGTATTCCGAAACACTGCatcgaagcatgatccgaaacacccaggtcacgtgagtAATGTGatccaaaacacccaggtcacatgactaaggtgattcgtAACACCCAGATCACCTAACTAATGTGATTTGAAACacacaggtcacatgactaaggtgattcgtAACACCTAGATCGCCTAACTAATGTGATTTGAAACacacaggtcatgtgactaaggtgattcgtaACACCCAGGTCACTTAACTAAGGTGATTCgtaacacccaggtcatgtgagtAATGTgcttcgaaacacccaggtcacatgactaaggttATTCGTAACacacaggtcacgtgactaaggtgattcgaaacatcCAGGTCACATGACTGAGGTTATTCgtaacacccaggtcacgtgactaaggtgattcgaaacatcCAGGTCACATGACTGAGGTTATTCGTAACACCCAGGTCAGGTGActgagcaatacacaaatatgacCACTAGGTGTAACTCTAGAGACGGGTTTCAAAACGTTTCGaggcttcgacacatttgctatcatgaagcctcgctttgctcACTACTAATCAATAAAAACATACTCAAGTCCATCACGGTCAAAAAGTACGTTTGACCTTCTTCCATTCCCCGCAGGTCATCGCTAGGAGAGCATAACTACATTATACACCATCTAGTGGTGTGAAAGAAAATTACAACCAAAAAAATAAAGGCTCCTACAGTAGTTATGTTTTTCTGCTATGGTAGTCGATGGATGTCAGGgagcagcattcttcaaaatatcttcttttattttcGGCAAAATAAAGAAACCACTCgatggagagtaaatgatgaggccattttcttttttttgtgcgTGAACTGTCCTTTTATTAACTCAGGATGTGCCTCTTTATCCTGTGTAAACGGTTTGTTTAGGTTTATTTGACCACTTTTACCATCGTGACCAGTGCTCTCTACAGCACCGTTGTTGATCGCCTACAGCGAGAAGTGACCAAACGCAATGAGGTGCTACTGATTGAGTAGATTTTCCAAATCTTTGAGGTGCTGTTTGGTCAAACACCTTCAGAAATTAGACAACAATCCTTAATGCACATTTAACGACGTGGAAGAAGAAAcgaagaagaagaaataaaactaGTATTGTCTTTGGTCCAAATCTGAAGCACTTTATAGCAATGTTAAACTGCTCTCGATGGTCATCATTCACAAACGGGatgttttctgtttaatgaaagATTAATAGGCTATTTTAAAATGTCCCGCCATGGCCATTATTTTCTGTGTTACGATGTATGTGTTtacatttgaaatattaaaaaactatttcagTCA

Function

GO:

id name namespace
GO:0010874 regulation of cholesterol efflux biological_process
GO:0033700 phospholipid efflux biological_process
GO:0002040 sprouting angiogenesis biological_process
GO:0055085 transmembrane transport biological_process
GO:0006869 lipid transport biological_process
GO:0016020 membrane cellular_component
GO:0016021 integral component of membrane cellular_component
GO:0043231 intracellular membrane-bounded organelle cellular_component
GO:0090554 phosphatidylcholine floppase activity molecular_function
GO:0090556 phosphatidylserine floppase activity molecular_function
GO:0005524 ATP binding molecular_function
GO:0000166 nucleotide binding molecular_function
GO:0016887 ATPase activity molecular_function
GO:0042626 ATPase-coupled transmembrane transporter activity molecular_function
GO:0005319 lipid transporter activity molecular_function

KEGG: NA

ZFIN:

id description
ZDB-GENE-031006-12 Predicted to enable ATPase-coupled transmembrane transporter activity; phosphatidylcholine floppase activity; and phosphatidylserine floppase activity. Acts upstream of or within regulation of cholesterol efflux and sprouting angiogenesis. Predicted to be located in membrane. Predicted to be integral component of membrane. Predicted to be active in intracellular membrane-bounded organelle. Is expressed in several structures, including blood vessel; central nervous system; neural tube; pleuroperitoneal region; and segmental plate. Human ortholog(s) of this gene implicated in Alzheimer's disease; coronary artery disease; hypolipoproteinemia (multiple); obesity; and type 2 diabetes mellitus. Orthologous to human ABCA1 (ATP binding cassette subfamily A member 1).

Ensembl:

ensembl_id ENSDART00000167514

JBrowse2

Neighbor

RNA id RNA type direction distance location representative gene id
TCONS_00001139 lncRNA upstream 49793 52495043 ~ 52510756 (+) False XLOC_000673
TCONS_00001140 lncRNA upstream 55380 52500945 ~ 52505169 (+) True XLOC_000673
TCONS_00001136 lncRNA upstream 160866 52398742 ~ 52399683 (+) True XLOC_000670
TCONS_00003167 lncRNA upstream 192351 52363402 ~ 52368198 (+) True XLOC_000667
TCONS_00002875 lncRNA upstream 192972 52365030 ~ 52367577 (+) True XLOC_000668
TCONS_00002876 lncRNA downstream 179225 52807632 ~ 52807843 (+) True XLOC_000681
TCONS_00001155 lncRNA downstream 379362 53007769 ~ 53081933 (+) False XLOC_000682
TCONS_00001156 lncRNA downstream 379371 53007778 ~ 53026231 (+) True XLOC_000682
TCONS_00002877 lncRNA downstream 637993 53266400 ~ 53278288 (+) True XLOC_000684
TCONS_00002878 lncRNA downstream 691752 53320159 ~ 53320674 (+) True XLOC_000686
TCONS_00001141 mRNA upstream 22032 52518176 ~ 52538517 (+) True XLOC_000674
TCONS_00001138 mRNA upstream 73554 52481332 ~ 52486995 (+) True XLOC_000672
TCONS_00001137 mRNA upstream 81803 52462068 ~ 52478746 (+) True XLOC_000671
TCONS_00001135 mRNA upstream 159889 52398205 ~ 52400660 (+) False XLOC_000670
TCONS_00001134 mRNA upstream 164285 52392511 ~ 52396264 (+) True XLOC_000669
TCONS_00001145 mRNA downstream 4449 52632856 ~ 52652163 (+) False XLOC_000676
TCONS_00001146 mRNA downstream 4960 52633367 ~ 52651686 (+) True XLOC_000676
TCONS_00001147 mRNA downstream 33796 52662203 ~ 52699063 (+) False XLOC_000677
TCONS_00001148 mRNA downstream 62041 52690448 ~ 52699021 (+) True XLOC_000677
TCONS_00001149 mRNA downstream 107077 52735484 ~ 52736125 (+) True XLOC_000678
TCONS_00001126 other upstream 425047 52130164 ~ 52135502 (+) False XLOC_000662
TCONS_00001119 other upstream 876931 51683519 ~ 51683618 (+) True XLOC_000655
TCONS_00001111 other upstream 1094967 51465468 ~ 51465582 (+) True XLOC_000651
TCONS_00001097 other upstream 1487442 51066782 ~ 51073107 (+) False XLOC_000645
TCONS_00001084 other upstream 1706071 50854364 ~ 50854478 (+) True XLOC_000638
TCONS_00001154 other downstream 371425 52999832 ~ 53061197 (+) False XLOC_000682
TCONS_00001160 other downstream 736103 53364510 ~ 53368034 (+) True XLOC_000689
TCONS_00001166 other downstream 759358 53387765 ~ 53387881 (+) True XLOC_000690
TCONS_00001180 other downstream 1424697 54053104 ~ 54061210 (+) True XLOC_000705
TCONS_00001186 other downstream 1557632 54186039 ~ 54186156 (+) True XLOC_000710

Expression Profile

//