miRBase entry: eca-mir-8948

Stem-loop eca-mir-8948

Accession

MI0028095

Description

Equus caballus eca-mir-8948 precursor miRNA

Sequence

2 reads, 0 reads per million, 1 experiments

cccucaccccacuuagacagggcauguucuUGGUGUUGGAAGCCAGGCCCGGAGuugccagcacuggccuggacuguggcugaccugguccucccugagcuggggagaagggagggaggugcu
(((((.((((((((((..(((((..(...(((((......(((((((((.((.(((...))).))))))))).))...))))).)..)))))..))))).))))).).))))...........

Structure

-----------    - a     -     ac     au uuc     GUUGGA  -       C  A   g 
           cccu c cccca cuuag  agggc  g   uUGGU      AG CCAGGCC GG Guu  
           |||| | ||||| |||||  |||||  |   |||||      || ||||||| || ||| c
           ggga g ggggu gaguc  uccug  c   agucg      uc gguccgg uc cga  
ucguggaggga    a a     c     cc     gu --c     ---gug  a       -  a   c

Annotation confidence Not enough data

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Genome context

chr23: 50337973-50338095 [-]

Database links

Mature eca-miR-8948

Accession	MIMAT0034477
Description	Equus caballus eca-miR-8948 mature miRNA
Sequence	31 - UGGUGUUGGAAGCCAGGCCCGGAG - 54
Evidence	experimental Illumina [1]

References

PubMed ID: 24692655
Large numbers of novel miRNAs originate from DNA transposons and are coincident with a large species radiation in bats
"Platt RN 2nd, Vandewege MW, Kern C, Schmidt CJ, Hoffmann FG, Ray DA"
"Mol Biol Evol (2014) 31:1536-1545