Table 3.

The 20 genes giving the largest contribution to inertia according to the Correspondence Analysis of Figure 4B.

ENSEMBL gene name	Gene name	Inertia explained	Inertia explained (%)
ENSBTAG00000005260	SPP1	0.058932831	10.2341
ENSBTAG00000011184	FTH1	0.018064914	3.13711
ENSBTAG00000043567		0.0154907	2.69008
ENSBTAG00000000604	GPNMB	0.014190275	2.46425
ENSBTAG00000009812		0.012897643	2.23977
ENSBTAG00000007622	CTSD	0.009037762	1.56948
ENSBTAG00000043570		0.008758801	1.52103
ENSBTAG00000015228	CD74	0.008169965	1.41878
ENSBTAG00000026779	LYZ	0.00775699	1.34706
ENSBTAG00000009359		0.006656633	1.15597
ENSBTAG00000007268	F13A1	0.006621972	1.14996
ENSBTAG00000021035	CTSK	0.00617882	1.073
ENSBTAG00000037811	CCL2	0.005152158	0.894711
ENSBTAG00000012442	CTSB	0.004747509	0.824441
ENSBTAG00000020676	MMP9	0.003996245	0.693978
ENSBTAG00000048122		0.003913428	0.679596
ENSBTAG00000026199	ACTB	0.003670953	0.637489
ENSBTAG00000047379		0.003585699	0.622684
ENSBTAG00000013472	COL1A2	0.003536053	0.614062
ENSBTAG00000032764		0.003415321	0.593096

Inertia's role in Correspondence Analysis is similar to that played by variance in Principal Component Analysis.