m6A-centered Crosstalk Information
Mechanism of Crosstalk between m6A Modification and Epigenetic Regulation
| Crosstalk ID |
M6ACROT05089
|
[1] | |||
Non-coding RNA
Dubr
YTHDF1
lncRNA miRNA circRNA
Direct
Enhancement
m6A modification
Calmodulin
Calmodulin
YTHDF1
 : m6A sites
|
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| m6A Modification: | |||||
|---|---|---|---|---|---|
| m6A Regulator | YTH domain-containing family protein 1 (YTHDF1) | READER | |||
| m6A Target | Calmodulin-1 (CALM1) | ||||
| Epigenetic Regulation that have Cross-talk with This m6A Modification: | |||||
| Epigenetic Regulation Type | Non-coding RNA (ncRNA) | ||||
| Epigenetic Regulator | DPPA2 upstream binding RNA (DUBR) | LncRNA | View Details | ||
| Regulated Target | YTH domain-containing family protein 1 (YTHDF1) | View Details | |||
| Crosstalk Relationship | ncRNA → m6A | Enhancement | |||
| Crosstalk Mechanism | ncRNAs directly impacts m6A modification through recruiting m6A regulator | ||||
| Crosstalk Summary | m6A-modified lincRNA DUBR is required for neuronal development by stabilizing YTHDF1 and facilitating mRNA translation.Dubr interacts with m6A-binding proteins, the YTHDF1/3 complex, through its m6A motifs to protect YTHDF1/3 from degradation via the proteasome pathway. Furthermore, Tau and Calmodulin-1 (CALM1) are regulated by YTHDF1/3 and m6A-modified Dubr. | ||||
In-vitro Model |
Neuro-2a | Mouse neuroblastoma | Mus musculus | CVCL_0470 | |
|
ND7/23
|
N.A. | Mus musculus | CVCL_4259 | ||