Regulation of G2/MI transition of meiotic cell cycle

pathway activity — cross-omics
GO:0110030Cross-omicsPROTEIN-MS → RNAPatientPairwise association · TCGA cohorts

Across TCGA patient cohorts, RNA activity of the Regulation of G2/MI transition of meiotic cell cycle pathway is significantly associated with the RNA expression of multiple genes, with the GBM cohort showing a particularly strong set of associations.

The most reproducible pathway-associated genes across cancer lineages are DLGAP5, CDC45, and CDC6, each associated with the pathway in up to 6 cancer types. Since the analysis shows associations rather than directional relationships, both pathway-to-partner and partner-to-pathway views are reported.

Each partner is linked to its corresponding Q-omics profile. The scatter plot shows the strongest association, Regulation of G2/MI transition of meiotic cell cycle activity versus DLGAP5 in GBM (Pearson r = 0.36).

Pathway-associated genes by consensus

Ranked by combined sampling and lineage consensus. X-score (pathway→partner) and Y-score (partner→pathway) are standardized regression coefficients; both directions are reported because the association is undirected. The reported p-values are derived from the association test.
LineagePartner geneX-scoreY-scorep(X)p(Y)Sampling consensusLineage consensus
GBMDLGAP5 →+1.006+0.375.001.00236
GBMCDC45 →+0.900+0.416.001.00136
LSCCCDC6 →+1.088+0.449<.001<.00136
BRCACYBRD1 →-1.560-0.347.001.00235
BRCACDKN3 →+0.717+0.213.003<.00135
BRCAGINS1 →+0.803+0.269<.001.00535
Each partner links to its Q-omics profile. Showing the 6 strongest associations by consensus.

GO:0110030 vs DLGAP5 — GBM

Per-sample scatter of Regulation of G2/MI transition of meiotic cell cycle activity vs DLGAP5 in GBM.

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Exploration