(primary solid tumor cohort)
This pipeline uses various statistical tests to identify mRNAs whose expression levels correlated to selected clinical features.
Testing the association between 17814 genes and 8 clinical features across 526 samples, statistically thresholded by Q value < 0.05, 7 clinical features related to at least one genes.
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2 genes correlated to 'Time to Death'.
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RPS26 , PPP1R14D
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409 genes correlated to 'AGE'.
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ESR1 , CNTNAP3 , MAGED4B , KRT17 , FOXD2 , ...
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6 genes correlated to 'GENDER'.
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PI3 , TMEM16C , CACNG1 , RP13-36C9.6 , MAPK4 , ...
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1 gene correlated to 'RADIATIONS.RADIATION.REGIMENINDICATION'.
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OR13C4
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10 genes correlated to 'LYMPH.NODE.METASTASIS'.
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PIK3CA , KCNMB2 , GUCA2A , ARID1B , AMTN , ...
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1 gene correlated to 'NUMBER.OF.LYMPH.NODES'.
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CSDE1
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19 genes correlated to 'NEOPLASM.DISEASESTAGE'.
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NGFB , OR1M1 , C20ORF71 , PRKACG , OR6K3 , ...
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No genes correlated to 'DISTANT.METASTASIS'
Complete statistical result table is provided in Supplement Table 1
Table 1. Get Full Table This table shows the clinical features, statistical methods used, and the number of genes that are significantly associated with each clinical feature at Q value < 0.05.
| Clinical feature | Statistical test | Significant genes | Associated with | Associated with | ||
|---|---|---|---|---|---|---|
| Time to Death | Cox regression test | N=2 | shorter survival | N=2 | longer survival | N=0 |
| AGE | Spearman correlation test | N=409 | older | N=195 | younger | N=214 |
| GENDER | t test | N=6 | male | N=1 | female | N=5 |
| RADIATIONS RADIATION REGIMENINDICATION | t test | N=1 | yes | N=1 | no | N=0 |
| DISTANT METASTASIS | ANOVA test | N=0 | ||||
| LYMPH NODE METASTASIS | ANOVA test | N=10 | ||||
| NUMBER OF LYMPH NODES | Spearman correlation test | N=1 | higher number.of.lymph.nodes | N=0 | lower number.of.lymph.nodes | N=1 |
| NEOPLASM DISEASESTAGE | ANOVA test | N=19 |
Table S1. Basic characteristics of clinical feature: 'Time to Death'
| Time to Death | Duration (Months) | 0.1-223.4 (median=24.2) |
| censored | N = 429 | |
| death | N = 65 | |
| Significant markers | N = 2 | |
| associated with shorter survival | 2 | |
| associated with longer survival | 0 |
Table S2. Get Full Table List of 2 genes significantly associated with 'Time to Death' by Cox regression test
| HazardRatio | Wald_P | Q | C_index | |
|---|---|---|---|---|
| RPS26 | 2.7 | 9.674e-08 | 0.0017 | 0.682 |
| PPP1R14D | 2.3 | 2.933e-07 | 0.0052 | 0.592 |
Figure S1. Get High-res Image As an example, this figure shows the association of RPS26 to 'Time to Death'. four curves present the cumulative survival rates of 4 quartile subsets of patients. P value = 9.67e-08 with univariate Cox regression analysis using continuous log-2 expression values.
Table S3. Basic characteristics of clinical feature: 'AGE'
| AGE | Mean (SD) | 57.92 (13) |
| Significant markers | N = 409 | |
| pos. correlated | 195 | |
| neg. correlated | 214 |
Table S4. Get Full Table List of top 10 genes significantly correlated to 'AGE' by Spearman correlation test
| SpearmanCorr | corrP | Q | |
|---|---|---|---|
| ESR1 | 0.4216 | 4.416e-24 | 7.87e-20 |
| CNTNAP3 | -0.299 | 2.509e-12 | 4.47e-08 |
| MAGED4B | -0.2963 | 4.052e-12 | 7.22e-08 |
| KRT17 | -0.2955 | 4.657e-12 | 8.29e-08 |
| FOXD2 | 0.2906 | 1.082e-11 | 1.93e-07 |
| KLK6 | -0.2902 | 1.15e-11 | 2.05e-07 |
| NUDT16 | 0.289 | 1.415e-11 | 2.52e-07 |
| PPP1R14C | -0.2866 | 2.11e-11 | 3.76e-07 |
| SYT8 | -0.2848 | 2.851e-11 | 5.08e-07 |
| MGC102966 | -0.2847 | 2.899e-11 | 5.16e-07 |
Figure S2. Get High-res Image As an example, this figure shows the association of ESR1 to 'AGE'. P value = 4.42e-24 with Spearman correlation analysis. The straight line presents the best linear regression.
Table S5. Basic characteristics of clinical feature: 'GENDER'
| GENDER | Labels | N |
| FEMALE | 520 | |
| MALE | 6 | |
| Significant markers | N = 6 | |
| Higher in MALE | 1 | |
| Higher in FEMALE | 5 |
Table S6. Get Full Table List of 6 genes differentially expressed by 'GENDER'
| T(pos if higher in 'MALE') | ttestP | Q | AUC | |
|---|---|---|---|---|
| PI3 | -9.21 | 6.424e-11 | 1.14e-06 | 0.708 |
| TMEM16C | -14.25 | 1.234e-10 | 2.2e-06 | 0.9256 |
| CACNG1 | 18.35 | 1.806e-08 | 0.000322 | 0.9609 |
| RP13-36C9.6 | -6.21 | 9.225e-07 | 0.0164 | 0.6635 |
| MAPK4 | -9.12 | 1.37e-06 | 0.0244 | 0.8016 |
| PLA2G3 | -10.61 | 1.719e-06 | 0.0306 | 0.8301 |
Figure S3. Get High-res Image As an example, this figure shows the association of PI3 to 'GENDER'. P value = 6.42e-11 with T-test analysis.
One gene related to 'RADIATIONS.RADIATION.REGIMENINDICATION'.
Table S7. Basic characteristics of clinical feature: 'RADIATIONS.RADIATION.REGIMENINDICATION'
| RADIATIONS.RADIATION.REGIMENINDICATION | Labels | N |
| NO | 148 | |
| YES | 378 | |
| Significant markers | N = 1 | |
| Higher in YES | 1 | |
| Higher in NO | 0 |
Table S8. Get Full Table List of one gene differentially expressed by 'RADIATIONS.RADIATION.REGIMENINDICATION'
| T(pos if higher in 'YES') | ttestP | Q | AUC | |
|---|---|---|---|---|
| OR13C4 | 5.02 | 9.688e-07 | 0.0173 | 0.6263 |
Figure S4. Get High-res Image As an example, this figure shows the association of OR13C4 to 'RADIATIONS.RADIATION.REGIMENINDICATION'. P value = 9.69e-07 with T-test analysis.
Table S9. Basic characteristics of clinical feature: 'DISTANT.METASTASIS'
| DISTANT.METASTASIS | Labels | N |
| CM0 (I+) | 2 | |
| M0 | 496 | |
| M1 | 14 | |
| MX | 14 | |
| Significant markers | N = 0 |
Table S10. Basic characteristics of clinical feature: 'LYMPH.NODE.METASTASIS'
| LYMPH.NODE.METASTASIS | Labels | N |
| N0 | 138 | |
| N0 (I+) | 16 | |
| N0 (I-) | 101 | |
| N1 | 58 | |
| N1A | 77 | |
| N1B | 20 | |
| N1C | 2 | |
| N1MI | 13 | |
| N2 | 32 | |
| N2A | 29 | |
| N3 | 10 | |
| N3A | 18 | |
| N3C | 1 | |
| NX | 11 | |
| Significant markers | N = 10 |
Table S11. Get Full Table List of 10 genes differentially expressed by 'LYMPH.NODE.METASTASIS'
| ANOVA_P | Q | |
|---|---|---|
| PIK3CA | 7.069e-25 | 1.26e-20 |
| KCNMB2 | 5.037e-19 | 8.97e-15 |
| GUCA2A | 2.966e-12 | 5.28e-08 |
| ARID1B | 4.808e-08 | 0.000856 |
| AMTN | 7.439e-08 | 0.00132 |
| REG1B | 8.127e-08 | 0.00145 |
| SULT1B1 | 2.03e-07 | 0.00361 |
| PDS5A | 4.716e-07 | 0.0084 |
| C16ORF44 | 4.965e-07 | 0.00884 |
| ZMAT3 | 1.323e-06 | 0.0235 |
Figure S5. Get High-res Image As an example, this figure shows the association of PIK3CA to 'LYMPH.NODE.METASTASIS'. P value = 7.07e-25 with ANOVA analysis.
Table S12. Basic characteristics of clinical feature: 'NUMBER.OF.LYMPH.NODES'
| NUMBER.OF.LYMPH.NODES | Mean (SD) | 1.83 (3.5) |
| Significant markers | N = 1 | |
| pos. correlated | 0 | |
| neg. correlated | 1 |
Table S13. Get Full Table List of one gene significantly correlated to 'NUMBER.OF.LYMPH.NODES' by Spearman correlation test
| SpearmanCorr | corrP | Q | |
|---|---|---|---|
| CSDE1 | -0.2433 | 6.958e-07 | 0.0124 |
Figure S6. Get High-res Image As an example, this figure shows the association of CSDE1 to 'NUMBER.OF.LYMPH.NODES'. P value = 6.96e-07 with Spearman correlation analysis. The straight line presents the best linear regression.
Table S14. Basic characteristics of clinical feature: 'NEOPLASM.DISEASESTAGE'
| NEOPLASM.DISEASESTAGE | Labels | N |
| STAGE I | 42 | |
| STAGE IA | 41 | |
| STAGE IB | 6 | |
| STAGE IIA | 185 | |
| STAGE IIB | 110 | |
| STAGE IIIA | 77 | |
| STAGE IIIB | 15 | |
| STAGE IIIC | 19 | |
| STAGE IV | 14 | |
| STAGE TIS | 1 | |
| STAGE X | 16 | |
| Significant markers | N = 19 |
Table S15. Get Full Table List of top 10 genes differentially expressed by 'NEOPLASM.DISEASESTAGE'
| ANOVA_P | Q | |
|---|---|---|
| NGFB | 6.739e-23 | 1.2e-18 |
| OR1M1 | 4.497e-20 | 8.01e-16 |
| C20ORF71 | 3.308e-13 | 5.89e-09 |
| PRKACG | 9.742e-13 | 1.74e-08 |
| OR6K3 | 8.457e-12 | 1.51e-07 |
| IFNA7 | 1.884e-11 | 3.36e-07 |
| OR1J4 | 6.796e-10 | 1.21e-05 |
| GPR52 | 1.706e-09 | 3.04e-05 |
| SEBOX | 1.841e-09 | 3.28e-05 |
| TAS2R40 | 1.992e-09 | 3.55e-05 |
Figure S7. Get High-res Image As an example, this figure shows the association of NGFB to 'NEOPLASM.DISEASESTAGE'. P value = 6.74e-23 with ANOVA analysis.
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Expresson data file = BRCA-TP.medianexp.txt
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Clinical data file = BRCA-TP.clin.merged.picked.txt
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Number of patients = 526
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Number of genes = 17814
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Number of clinical features = 8
For survival clinical features, Wald's test in univariate Cox regression analysis with proportional hazards model (Andersen and Gill 1982) was used to estimate the P values using the 'coxph' function in R. Kaplan-Meier survival curves were plot using the four quartile subgroups of patients based on expression levels
For continuous numerical clinical features, Spearman's rank correlation coefficients (Spearman 1904) and two-tailed P values were estimated using 'cor.test' function in R
For two-class clinical features, two-tailed Student's t test with unequal variance (Lehmann and Romano 2005) was applied to compare the log2-expression levels between the two clinical classes using 't.test' function in R
For multi-class clinical features (ordinal or nominal), one-way analysis of variance (Howell 2002) was applied to compare the log2-expression levels between different clinical classes using 'anova' function in R
For multiple hypothesis correction, Q value is the False Discovery Rate (FDR) analogue of the P value (Benjamini and Hochberg 1995), defined as the minimum FDR at which the test may be called significant. We used the 'Benjamini and Hochberg' method of 'p.adjust' function in R to convert P values into Q values.
This is an experimental feature. The full results of the analysis summarized in this report can be downloaded from the TCGA Data Coordination Center.