Table 6.
Hub genes (target genes of lncRNAs) and associated lncRNAs in the same module.
| mRNA | Module | Function of mRNA | Associated lncRNAs |
|---|---|---|---|
| MED24 | Molecular function | Interact with RNA polymerase II to promote formation of transcriptional pre-initiation complex to induce gene expression [17] | MSTRG.2158.2 MSTRG.34993.2 MSTRG.16183.1 MSTRG.17517.2 |
| ANO6 | Molecular function | Essential component for calcium-dependent exposure of phosphatidylserine on cell surface, essential for triggering clotting system and deposition in bone mineralization [18] | MSTRG.31383.3 MSTRG.9728.2 MSTRG.33542.1 MSTRG.25050.1 MSTRG.40598.2 MSTRG.18175.1 MSTRG.42141.2 MSTRG.860.1 MSTRG.24048.3 MSTRG.13083.1 |
| ZC4H2 | Molecular function | ZC4H2 may improve channel activity and turnover of plasma membrane and is identified as potential candidate for X-linked mental retardation [19] | MSTRG.33542.1 MSTRG.40598.2 MSTRG.11929.4 MSTRG.3259.4 |
| TBPL1 | Cellular component | TBPL1 may play an important role in transcription by RNA polymerase II as a component of the transcription factor complex [20] | None |
| MOGS | Biological process | MOGS may cleave distal alpha-1,2-linked glucose residue from Glc(3)-Man(9)-GlcNAc(2) oligosaccharide precursor [21] | MSTRG.3283.1 |
| ACADSB | Biological process | Catalyze dehydrogenation of short branched chain acyl-CoA derivatives in metabolism of fatty acids [22,23] | MSTRG.6256.1 MSTRG.22802.1 MSTRG.11451.1 MSTRG.24004.1 MSTRG.26481.9 MSTRG.32831.1 MSTRG.29185.1 MSTRG.3444.1 |
| DNAJC25 | Biological process | DNAJC25 may play an important role in cell protection, protein folding, refolding, aggregation and degradation, and protein translocation [24] | MSTRG.3827.1 MSTRG.8329.3 MSTRG.20562.1 |