Q-omics provides the consensus-scored CXCL1P1 profile across patient tissues and cancer cell-line models. CXCL1P1 expression is associated with patient survival in 10 of 34 cancer types, with the highest sampling consensus in KIRC. Among the 18 cancer types available for tumor–normal comparison, CXCL1P1 is differentially expressed in 1, with the highest sampling consensus in STAD. Additionally, CXCL1P1 RNA expression shows 1,769 significant gene co-expression associations, with the highest sampling consensus in ESCA. Together, these results highlight KIRC, STAD, and ESCA as cancer lineages where CXCL1P1 shows reproducible signals across survival, tumor–normal expression, and patient cross-omics analyses.
Every result is evaluated using two consensus scores. Sampling consensus measures how consistently a finding is reproduced within a cancer lineage across different conditions. Lineage consensus measures how broadly the result is shared across cancer types, distinguishing pan-cancer signals from lineage-specific patterns.
Premium analyses for CXCL1P1 — synthetic lethality, tumor antigen, and pembrolizumab response.
This table summarizes CXCL1P1 survival associations across molecular data types. CXCL1P1 RNA expression shows survival associations in the most cancer types (10). The rightmost column indicates the cancer type with the highest sampling consensus for each molecular layer.
This table ranks reproducible CXCL1P1 RNA expression–survival associations across cancer types. High CXCL1P1 expression shows unfavorable associations in KIRC, THYM, BLCA, LIHC, CESC and TGCT. The KIRC Kaplan–Meier curve shows clear separation, with the high-expression group declining faster, consistent with the unfavorable association (log-rank p < 0.001). Together, the overview and detailed table identify KIRC as the clearest survival context for CXCL1P1 RNA expression.
This table summarizes CXCL1P1 tumor–normal expression differences by data type. RNA shows broader differences across cancer types, with a lineage consensus of 1. The strongest signals are observed in STAD for RNA.
This table ranks reproducible tumor–normal expression differences for CXCL1P1. A negative fold-change indicates higher expression in normal tissue than in tumor tissue. CXCL1P1 shows higher tumor expression in STAD. The STAD box plot shows higher CXCL1P1 RNA expression in tumor versus normal tissue (log2 FC = +0.044, t-test p = .047).
This table shows molecular features associated with CXCL1P1 in patient tissues and cancer cell lines. In patient samples, CXCL1P1 shows the broadest associations at the RNA and protein expression levels, with ESCA recurring as the lineage with the largest associated feature set.