Basic Information
Symbol
hsa-mir-767
RNA class
miRNA
miRNA hairpin
Alias
MIR767
MicroRNA 767
Hsa-MiR-767-5p
Hsa-Mir-767
Hsa-MiR-767-3p
MIRN767
MIMAT0003882
MIMAT0003883
MI0003763
Mir-767
Location (GRCh38)
21:35720715-35720808
Forensic tag(s)
Mechanical injury analysis
Wound age identification
External database
Sequence & Structure
Secondary Structure
Generated by RNAfold
Minimum free energy (MFE) structure:
Secondary structure that contributes a minimum of free energy.
Secondary structure that contributes a minimum of free energy.
Ensemble properties:
Thermodynamic properties of the Boltzmann ensemble.
Thermodynamic properties of the Boltzmann ensemble.
Minimum free energy
-44.00 kcal/mol
Thermodynamic ensemble
Free energy:
-45.65 kcal/mol
Frequency:
0.0684
Diversity:
5.40
MFE Structure Visualization
Structure Prediction
MFE Structure Prediction
((....(((.((.(((((((((((((...(((((((..((.((((((.((((.....)))).)))))).)).)))))))...))))))))))))).)).))).....))
Thermodynamic Ensemble Prediction
{{....(((.((.(((((((((((((.,.(((((((..((.((((((.((((.....}))).)))))).)).)))))))...))))))))))))).)).))).....}}
Forensic Context
A review of human studies identified 197 miRNAs associated with wound healing, burn wound healing, and scarring, with specific dysregulation patterns observed in human skin tissue samples and cell lines post-thermal injury [Siu et al. DOI:10.1111/wrr.13100]. A study in mice demonstrated that the mir-767 was among the down-regulated miRNAs with the highest fold change in the contused cortex following traumatic brain injury, though its qRT-PCR profile did not correspond to the initial microarray data [Meissner et al. DOI:10.1089/neu.2015.4077].