Entry Detail



General Information

Database ID:exR0258724
RNA Name:hsa-miR-6747-3p
RNA Type:miRNA
Chromosome:chr11
Starnd:-
Coordinate:
Start Site(bp):62567011End Site(bp):62567031
External Links:hsa-miR-6747-3p



Disease Information

Disease Name:Obesity
Disease Category:Other Diseases
MeSH ID:D009765
Type:Diseases Category/Nutritional and Metabolic Diseases
Alias:Appetite Depressants//Body Weight//Diet, Reducing//Skinfold Thickness//Lipectomy//Anti-Obesity Agents//Bariatrics



Expression Detail

GEO ID:GSE125494
Description:Adipocyte-Derived Exosomal microRNAs in subject serum samples
Experimental Design:Disease vs Control
Case Disease Type:Obesity
Case Disease SubType:NA
Case Sample:Obesity
Control Sample:Control
Number of Case:8
Number of Control:3
Number of Samples:11





Regulatory Relationship

mRNA targets:
Gene SymbolChromosomeStart Site(bp)End Site(bp)Strand
IRF2BPL
chr14
77024543
77028708
-
ACTR6
chr12
100199122
100241865
+
AP002990.1
chr11
62559603
62591531
-
B3GNT4
chr12
122203681
122208952
+
DPY30
chr2
31867809
32039805
-
EEF1G
chr11
62559596
62574086
-
METAP1
chr4
98995659
99062809
+
MTRNR2L12
chr3
96617188
96618236
-
MYO18A
chr17
29071124
29180412
-
miRNA targets:NA
circRNA targets:NA
lncRNA targets:NA
Display:



Experiment Detail

GEO ID:GSE125494
Sample Source:Blood
Source Fraction:Exosome
Platform:GPL21572
Method:Microarray
Num of detected RNA Type:1
Num of detected RNAs of this Type:2546
Sample treatment protocol:To isolate exosomes, we used the serum from lean and obese subejcts and used ExoQuick-TC precipitation solution, according to ExoQuick-TC protocol. We also used StemCell Technologies Magnetic Isolation Technique to isolate FABP4+ specific exosomes.
RNA Extract protocol:Total RNA was isolated following mirVana's total RNA Isolation kit.
RNA library preparation protocol:biotin We used Affymetrix FlashTag Biotin HSR RNA Labeling Kit to label 1000 ng of cRNA from each sample



Reference

PMID:31331347
Title:Cholesterol efflux alterations in adolescent obesity: role of adipose-derived extracellular vesical microRNAs
Author:Barberio MD, Kasselman LJ, Playford MP, Epstein SB, Renna HA, Goldberg M, DeLeon J, Voloshyna I, Barlev A, Salama M, Ferrante SC, Nadler EP, Mehta N, Reiss AB, Freishtat RJ
Journal:J Transl Med. 2019 Jul 22;17(1):232.
Description:We assessed the relationship between adipocyte-derived extracellular vesicle microRNAs and macrophage cholesterol efflux capacity.