ATP5PO | OmnibusX

I. Expression across cell types

Name	Number of supported studies	Average coverage
B cell	32 studies	43% ± 16%	Explore
fibroblast	31 studies	44% ± 18%	Explore
endothelial cell	28 studies	43% ± 18%	Explore
macrophage	26 studies	43% ± 16%	Explore
natural killer cell	26 studies	35% ± 11%	Explore
pericyte	24 studies	51% ± 20%	Explore
T cell	23 studies	38% ± 16%	Explore
smooth muscle cell	23 studies	49% ± 18%	Explore
CD4-positive, alpha-beta T cell	23 studies	42% ± 19%	Explore
CD8-positive, alpha-beta T cell	23 studies	40% ± 19%	Explore
conventional dendritic cell	20 studies	53% ± 17%	Explore
epithelial cell	20 studies	52% ± 24%	Explore
dendritic cell	19 studies	46% ± 22%	Explore
classical monocyte	19 studies	42% ± 17%	Explore
non-classical monocyte	16 studies	52% ± 18%	Explore
plasmacytoid dendritic cell	16 studies	42% ± 15%	Explore
basal cell	16 studies	57% ± 18%	Explore
mast cell	15 studies	36% ± 10%	Explore
monocyte	15 studies	45% ± 16%	Explore
endothelial cell of lymphatic vessel	15 studies	50% ± 18%	Explore
connective tissue cell	15 studies	50% ± 20%	Explore
plasma cell	14 studies	44% ± 17%	Explore
regulatory T cell	14 studies	40% ± 15%	Explore
naive thymus-derived CD4-positive, alpha-beta T cell	12 studies	45% ± 16%	Explore
ciliated cell	12 studies	52% ± 17%	Explore
naive B cell	11 studies	39% ± 11%	Explore
mature NK T cell	11 studies	34% ± 10%	Explore
myofibroblast cell	11 studies	53% ± 19%	Explore
gamma-delta T cell	11 studies	38% ± 16%	Explore
capillary endothelial cell	10 studies	28% ± 7%	Explore
memory B cell	10 studies	42% ± 10%	Explore
endothelial cell of vascular tree	10 studies	42% ± 10%	Explore
myeloid cell	10 studies	43% ± 17%	Explore
naive thymus-derived CD8-positive, alpha-beta T cell	9 studies	48% ± 14%	Explore
progenitor cell	9 studies	72% ± 15%	Explore
goblet cell	9 studies	53% ± 18%	Explore
vein endothelial cell	9 studies	36% ± 16%	Explore
mucosal invariant T cell	9 studies	30% ± 12%	Explore
secretory cell	9 studies	49% ± 22%	Explore
leukocyte	8 studies	46% ± 17%	Explore
CD16-positive, CD56-dim natural killer cell, human	8 studies	37% ± 11%	Explore
endothelial cell of artery	8 studies	35% ± 16%	Explore
enterocyte	8 studies	50% ± 20%	Explore
CD16-negative, CD56-bright natural killer cell, human	7 studies	37% ± 12%	Explore
abnormal cell	7 studies	59% ± 20%	Explore
astrocyte	7 studies	32% ± 17%	Explore
type I pneumocyte	6 studies	38% ± 18%	Explore
type II pneumocyte	6 studies	42% ± 22%	Explore
plasmablast	6 studies	65% ± 8%	Explore
epithelial cell of proximal tubule	6 studies	58% ± 16%	Explore
kidney loop of Henle epithelial cell	6 studies	57% ± 23%	Explore
neutrophil	6 studies	32% ± 8%	Explore
innate lymphoid cell	6 studies	42% ± 13%	Explore
neuron	6 studies	49% ± 24%	Explore
mesothelial cell	6 studies	54% ± 22%	Explore
T follicular helper cell	6 studies	36% ± 16%	Explore
transit amplifying cell	6 studies	52% ± 27%	Explore
CD4-positive, alpha-beta memory T cell	6 studies	37% ± 19%	Explore
CD8-positive, alpha-beta memory T cell	6 studies	35% ± 8%	Explore
ionocyte	5 studies	34% ± 12%	Explore
effector CD8-positive, alpha-beta T cell	5 studies	41% ± 17%	Explore
mononuclear phagocyte	5 studies	56% ± 18%	Explore
effector memory CD8-positive, alpha-beta T cell	5 studies	40% ± 16%	Explore
hematopoietic precursor cell	5 studies	49% ± 34%	Explore
renal alpha-intercalated cell	5 studies	83% ± 8%	Explore
enteroendocrine cell	5 studies	55% ± 26%	Explore
intestinal crypt stem cell	5 studies	67% ± 21%	Explore
retinal ganglion cell	5 studies	66% ± 32%	Explore
retinal cone cell	5 studies	52% ± 26%	Explore
retinal rod cell	5 studies	45% ± 17%	Explore
hematopoietic stem cell	5 studies	52% ± 21%	Explore
club cell	5 studies	49% ± 12%	Explore
granulocyte	5 studies	43% ± 16%	Explore
glutamatergic neuron	5 studies	32% ± 14%	Explore
alveolar macrophage	4 studies	37% ± 5%	Explore
effector CD4-positive, alpha-beta T cell	4 studies	46% ± 23%	Explore
exhausted T cell	4 studies	56% ± 14%	Explore
glomerular endothelial cell	4 studies	36% ± 16%	Explore
kidney distal convoluted tubule epithelial cell	4 studies	76% ± 10%	Explore
erythroblast	4 studies	56% ± 26%	Explore
IgG plasma cell	4 studies	30% ± 12%	Explore
microglial cell	4 studies	36% ± 17%	Explore
pro-B cell	4 studies	36% ± 16%	Explore
amacrine cell	4 studies	49% ± 18%	Explore
retina horizontal cell	4 studies	38% ± 20%	Explore
mucus secreting cell	4 studies	47% ± 19%	Explore
respiratory goblet cell	4 studies	35% ± 28%	Explore
erythrocyte	4 studies	52% ± 25%	Explore
oligodendrocyte	4 studies	22% ± 3%	Explore
intermediate monocyte	4 studies	63% ± 14%	Explore
CD4-positive helper T cell	4 studies	30% ± 8%	Explore
effector memory CD4-positive, alpha-beta T cell	4 studies	37% ± 22%	Explore
luminal hormone-sensing cell of mammary gland	4 studies	41% ± 18%	Explore
oligodendrocyte precursor cell	4 studies	44% ± 14%	Explore
pancreatic A cell	3 studies	61% ± 15%	Explore
type B pancreatic cell	3 studies	57% ± 21%	Explore
renal beta-intercalated cell	3 studies	88% ± 7%	Explore
renal intercalated cell	3 studies	82% ± 7%	Explore
neural crest cell	3 studies	75% ± 11%	Explore
retinal bipolar neuron	3 studies	50% ± 23%	Explore
OFF-bipolar cell	3 studies	52% ± 33%	Explore
ON-bipolar cell	3 studies	53% ± 32%	Explore
thymocyte	3 studies	42% ± 33%	Explore
extravillous trophoblast	3 studies	60% ± 18%	Explore
placental villous trophoblast	3 studies	76% ± 18%	Explore
lymphocyte	3 studies	54% ± 11%	Explore
megakaryocyte	3 studies	34% ± 4%	Explore
precursor B cell	3 studies	44% ± 14%	Explore
brush cell	3 studies	38% ± 23%	Explore
adventitial cell	3 studies	34% ± 7%	Explore
duct epithelial cell	3 studies	54% ± 5%	Explore
intraepithelial lymphocyte	3 studies	36% ± 4%	Explore
Mueller cell	3 studies	41% ± 8%	Explore
rod bipolar cell	3 studies	42% ± 17%	Explore
acinar cell	3 studies	41% ± 10%	Explore
luminal cell of prostate epithelium	3 studies	27% ± 10%	Explore
IgM plasma cell	3 studies	37% ± 7%	Explore
GABAergic neuron	3 studies	30% ± 9%	Explore
granulocyte monocyte progenitor cell	3 studies	57% ± 24%	Explore
megakaryocyte-erythroid progenitor cell	3 studies	46% ± 18%	Explore
glial cell	3 studies	44% ± 30%	Explore
hepatocyte	3 studies	52% ± 27%	Explore
germinal center B cell	3 studies	46% ± 19%	Explore
group 3 innate lymphoid cell	3 studies	37% ± 17%	Explore
keratinocyte	3 studies	48% ± 2%	Explore
T-helper 17 cell	3 studies	51% ± 27%	Explore
immature B cell	3 studies	44% ± 29%	Explore
double negative thymocyte	3 studies	49% ± 17%	Explore

II. Expression across tissues

Name	Number of supported studies	Average coverage
lung	15 studies	45% ± 18%	Explore
peripheral blood	12 studies	48% ± 14%	Explore
intestine	12 studies	46% ± 22%	Explore
kidney	8 studies	51% ± 16%	Explore
eye	8 studies	42% ± 16%	Explore
brain	8 studies	34% ± 9%	Explore
bone marrow	7 studies	29% ± 15%	Explore
uterus	5 studies	47% ± 18%	Explore
liver	5 studies	48% ± 21%	Explore
pancreas	4 studies	53% ± 20%	Explore
lymph node	4 studies	49% ± 19%	Explore
placenta	4 studies	52% ± 24%	Explore
prostate	4 studies	34% ± 11%	Explore
breast	4 studies	39% ± 17%	Explore
esophagus	3 studies	59% ± 26%	Explore
skin	3 studies	39% ± 9%	Explore
thymus	3 studies	59% ± 23%	Explore

Tissue	GTEx Coverage	GTEx Average TPM	GTEx Number of samples	TCGA Coverage	TCGA Average TPM	TCGA Number of samples
adrenal gland	100%	5459.71	258 / 258	100%	23.94	230 / 230
esophagus	100%	7061.88	1445 / 1445	100%	17.49	183 / 183
intestine	100%	7988.32	966 / 966	100%	33.95	527 / 527
kidney	100%	9212.81	89 / 89	100%	30.24	901 / 901
ovary	100%	6273.74	180 / 180	100%	31.14	430 / 430
skin	100%	6352.36	1809 / 1809	100%	21.57	472 / 472
stomach	100%	7689.03	359 / 359	100%	28.86	286 / 286
uterus	100%	5552.85	170 / 170	100%	34.90	459 / 459
bladder	100%	6029.14	21 / 21	100%	33.54	503 / 504
prostate	100%	5021.48	245 / 245	100%	25.46	501 / 502
brain	100%	7169.03	2636 / 2642	100%	27.76	705 / 705
breast	100%	6367.59	459 / 459	100%	27.30	1115 / 1118
pancreas	100%	3243.52	327 / 328	100%	23.08	178 / 178
thymus	100%	5443.13	651 / 653	100%	27.69	605 / 605
liver	100%	4304.38	225 / 226	100%	26.52	405 / 406
lung	99%	4693.58	573 / 578	100%	19.40	1155 / 1155
adipose	100%	6409.36	1204 / 1204	0%	0	0 / 0
lymph node	0%	0	0 / 0	100%	58.23	29 / 29
muscle	100%	13444.90	803 / 803	0%	0	0 / 0
spleen	100%	4864.20	241 / 241	0%	0	0 / 0
tonsil	0%	0	0 / 0	100%	33.52	45 / 45
ureter	0%	0	0 / 0	100%	24.42	1 / 1
blood vessel	100%	5820.72	1333 / 1335	0%	0	0 / 0
heart	99%	18528.42	856 / 861	0%	0	0 / 0
eye	0%	0	0 / 0	99%	33.63	79 / 80
peripheral blood	72%	3630.70	673 / 929	0%	0	0 / 0
abdomen	0%	0	0 / 0	0%	0	0 / 0
bone marrow	0%	0	0 / 0	0%	0	0 / 0
diaphragm	0%	0	0 / 0	0%	0	0 / 0
gingiva	0%	0	0 / 0	0%	0	0 / 0
nasal cavity	0%	0	0 / 0	0%	0	0 / 0
nasopharynx	0%	0	0 / 0	0%	0	0 / 0
nose	0%	0	0 / 0	0%	0	0 / 0
placenta	0%	0	0 / 0	0%	0	0 / 0
spinal column	0%	0	0 / 0	0%	0	0 / 0

III. Associated gene sets

GO_0006754	Biological process	ATP biosynthetic process
GO_0042776	Biological process	proton motive force-driven mitochondrial ATP synthesis
GO_1902600	Biological process	proton transmembrane transport
GO_0015986	Biological process	proton motive force-driven ATP synthesis
GO_0005753	Cellular component	mitochondrial proton-transporting ATP synthase complex
GO_0000274	Cellular component	mitochondrial proton-transporting ATP synthase, stator stalk
GO_0005886	Cellular component	plasma membrane
GO_0005743	Cellular component	mitochondrial inner membrane
GO_0005739	Cellular component	mitochondrion
GO_0005634	Cellular component	nucleus
GO_0046933	Molecular function	proton-transporting ATP synthase activity, rotational mechanism
GO_0005515	Molecular function	protein binding

IV. Literature review

[source]

Gene name	ATP5PO
Protein name	ATP synthase subunit O, mitochondrial (ATP synthase peripheral stalk subunit OSCP) (Oligomycin sensitivity conferral protein) (OSCP) ATP synthase subunit O, mitochondrial (Oligomycin sensitivity conferral protein) ATP synthase peripheral stalk subunit OSCP
Synonyms	ATP5O ATPO
Description	FUNCTION: Mitochondrial membrane ATP synthase (F(1)F(0) ATP synthase or Complex V) produces ATP from ADP in the presence of a proton gradient across the membrane which is generated by electron transport complexes of the respiratory chain. F-type ATPases consist of two structural domains, F(1) - containing the extramembraneous catalytic core and F(0) - containing the membrane proton channel, linked together by a central stalk and a peripheral stalk. During catalysis, ATP synthesis in the catalytic domain of F(1) is coupled via a rotary mechanism of the central stalk subunits to proton translocation. Part of the complex F(0) domain and the peripheric stalk, which acts as a stator to hold the catalytic alpha(3)beta(3) subcomplex and subunit a/ATP6 static relative to the rotary elements. FUNCTION: Mitochondrial membrane ATP synthase (F(1)F(0) ATP synthase or Complex V) produces ATP from ADP in the presence of a proton gradient across the membrane which is generated by electron transport complexes of the respiratory chain. F-type ATPases consist of two structural domains, F(1) - containing the extramembraneous catalytic core and F(0) - containing the membrane proton channel, linked together by a central stalk and a peripheral stalk. During catalysis, ATP synthesis in the catalytic domain of F(1) is coupled via a rotary mechanism of the central stalk subunits to proton translocation. Part of the complex F(0) domain and the peripheric stalk, which acts as a stator to hold the catalytic alpha(3)beta(3) subcomplex and subunit a/ATP6 static relative to the rotary elements. . FUNCTION: Mitochondrial membrane ATP synthase (F(1)F(0) ATP synthase or Complex V) produces ATP from ADP in the presence of a proton gradient across the membrane which is generated by electron transport complexes of the respiratory chain. F-type ATPases consist of two structural domains, F(1) - containing the extramembraneous catalytic core and F(0) - containing the membrane proton channel, linked together by a central stalk and a peripheral stalk. During catalysis, ATP synthesis in the catalytic domain of F(1) is coupled via a rotary mechanism of the central stalk subunits to proton translocation. Part of the complex F(0) domain and the peripheric stalk, which acts as a stator to hold the catalytic alpha(3)beta(3) subcomplex and subunit a/ATP6 static relative to the rotary elements. . FUNCTION: Mitochondrial membrane ATP synthase (F(1)F(0) ATP synthase or Complex V) produces ATP from ADP in the presence of a proton gradient across the membrane which is generated by electron transport complexes of the respiratory chain. F-type ATPases consist of two structural domains, F(1) - containing the extramembraneous catalytic core and F(0) - containing the membrane proton channel, linked together by a central stalk and a peripheral stalk. During catalysis, ATP synthesis in the catalytic domain of F(1) is coupled via a rotary mechanism of the central stalk subunits to proton translocation. Part of the complex F(0) domain and the peripheric stalk, which acts as a stator to hold the catalytic alpha(3)beta(3) subcomplex and subunit a/ATP6 static relative to the rotary elements. .
Accessions	ENST00000652380.1 P48047 A0A494C0K9 H7C068 ENST00000429064.1 H7C239 ENST00000417181.5 ENST00000418933.1 ENST00000290299.7 H7C2P9 ENST00000431254.5 H7C086

ATP5PO report

I. Expression across cell types

II. Expression across tissues

III. Associated gene sets

IV. Literature review