ATP5MG | OmnibusX

I. Expression across cell types

Name	Number of supported studies	Average coverage
B cell	46 studies	68% ± 18%	Explore
natural killer cell	40 studies	70% ± 18%	Explore
endothelial cell	38 studies	56% ± 21%	Explore
macrophage	37 studies	70% ± 23%	Explore
fibroblast	36 studies	65% ± 19%	Explore
CD8-positive, alpha-beta T cell	36 studies	71% ± 22%	Explore
T cell	35 studies	69% ± 23%	Explore
pericyte	32 studies	61% ± 24%	Explore
CD4-positive, alpha-beta T cell	31 studies	77% ± 18%	Explore
dendritic cell	27 studies	72% ± 25%	Explore
conventional dendritic cell	27 studies	87% ± 12%	Explore
classical monocyte	26 studies	77% ± 18%	Explore
plasma cell	25 studies	74% ± 18%	Explore
smooth muscle cell	25 studies	68% ± 20%	Explore
plasmacytoid dendritic cell	25 studies	86% ± 9%	Explore
regulatory T cell	25 studies	80% ± 11%	Explore
monocyte	24 studies	71% ± 23%	Explore
epithelial cell	24 studies	73% ± 20%	Explore
non-classical monocyte	23 studies	84% ± 12%	Explore
endothelial cell of lymphatic vessel	20 studies	71% ± 16%	Explore
mature NK T cell	20 studies	66% ± 19%	Explore
mast cell	19 studies	61% ± 19%	Explore
basal cell	19 studies	74% ± 17%	Explore
memory B cell	18 studies	75% ± 15%	Explore
naive B cell	18 studies	65% ± 16%	Explore
gamma-delta T cell	17 studies	74% ± 15%	Explore
naive thymus-derived CD4-positive, alpha-beta T cell	17 studies	74% ± 16%	Explore
connective tissue cell	17 studies	70% ± 19%	Explore
mucosal invariant T cell	15 studies	74% ± 13%	Explore
ciliated cell	15 studies	75% ± 13%	Explore
myeloid cell	15 studies	68% ± 26%	Explore
naive thymus-derived CD8-positive, alpha-beta T cell	14 studies	81% ± 15%	Explore
CD16-positive, CD56-dim natural killer cell, human	14 studies	69% ± 18%	Explore
CD16-negative, CD56-bright natural killer cell, human	13 studies	71% ± 19%	Explore
plasmablast	12 studies	83% ± 12%	Explore
secretory cell	12 studies	74% ± 18%	Explore
capillary endothelial cell	12 studies	47% ± 19%	Explore
myofibroblast cell	12 studies	76% ± 16%	Explore
CD4-positive, alpha-beta memory T cell	11 studies	72% ± 20%	Explore
CD8-positive, alpha-beta memory T cell	11 studies	74% ± 16%	Explore
endothelial cell of artery	11 studies	56% ± 18%	Explore
endothelial cell of vascular tree	11 studies	60% ± 12%	Explore
effector memory CD8-positive, alpha-beta T cell	10 studies	64% ± 21%	Explore
innate lymphoid cell	10 studies	76% ± 13%	Explore
neutrophil	10 studies	58% ± 26%	Explore
progenitor cell	10 studies	85% ± 11%	Explore
goblet cell	10 studies	69% ± 18%	Explore
mesothelial cell	10 studies	79% ± 20%	Explore
vein endothelial cell	10 studies	62% ± 17%	Explore
astrocyte	10 studies	34% ± 20%	Explore
T follicular helper cell	9 studies	79% ± 12%	Explore
leukocyte	9 studies	73% ± 19%	Explore
abnormal cell	9 studies	71% ± 18%	Explore
type I pneumocyte	8 studies	61% ± 15%	Explore
type II pneumocyte	8 studies	72% ± 24%	Explore
platelet	8 studies	47% ± 20%	Explore
retinal rod cell	8 studies	46% ± 19%	Explore
hematopoietic stem cell	8 studies	75% ± 28%	Explore
brush cell	8 studies	58% ± 27%	Explore
erythrocyte	8 studies	63% ± 24%	Explore
club cell	7 studies	78% ± 6%	Explore
ionocyte	7 studies	78% ± 17%	Explore
effector CD8-positive, alpha-beta T cell	7 studies	80% ± 12%	Explore
mononuclear phagocyte	7 studies	71% ± 25%	Explore
glutamatergic neuron	7 studies	31% ± 17%	Explore
epithelial cell of proximal tubule	7 studies	74% ± 13%	Explore
neuron	7 studies	63% ± 27%	Explore
enterocyte	7 studies	73% ± 17%	Explore
IgG plasma cell	7 studies	57% ± 23%	Explore
hematopoietic precursor cell	6 studies	62% ± 29%	Explore
respiratory goblet cell	6 studies	65% ± 16%	Explore
effector CD4-positive, alpha-beta T cell	6 studies	79% ± 15%	Explore
kidney loop of Henle epithelial cell	6 studies	81% ± 10%	Explore
renal alpha-intercalated cell	6 studies	95% ± 2%	Explore
enteroendocrine cell	6 studies	77% ± 26%	Explore
transit amplifying cell	6 studies	67% ± 28%	Explore
amacrine cell	6 studies	53% ± 26%	Explore
microglial cell	6 studies	64% ± 19%	Explore
retinal cone cell	6 studies	68% ± 27%	Explore
precursor B cell	6 studies	81% ± 15%	Explore
cardiac muscle cell	6 studies	35% ± 13%	Explore
intermediate monocyte	6 studies	79% ± 24%	Explore
effector memory CD4-positive, alpha-beta T cell	6 studies	79% ± 10%	Explore
alveolar macrophage	5 studies	74% ± 27%	Explore
CD4-positive helper T cell	5 studies	68% ± 10%	Explore
exhausted T cell	5 studies	85% ± 8%	Explore
kidney distal convoluted tubule epithelial cell	5 studies	91% ± 4%	Explore
megakaryocyte	5 studies	70% ± 14%	Explore
erythroblast	5 studies	58% ± 25%	Explore
intestinal crypt stem cell	5 studies	74% ± 28%	Explore
IgA plasma cell	5 studies	74% ± 14%	Explore
retinal ganglion cell	5 studies	70% ± 28%	Explore
pro-B cell	5 studies	68% ± 30%	Explore
neuroendocrine cell	5 studies	87% ± 17%	Explore
group 3 innate lymphoid cell	5 studies	83% ± 6%	Explore
immature B cell	5 studies	84% ± 9%	Explore
oligodendrocyte	5 studies	24% ± 9%	Explore
double negative thymocyte	5 studies	83% ± 10%	Explore
granulocyte	5 studies	71% ± 15%	Explore
oligodendrocyte precursor cell	5 studies	40% ± 28%	Explore
interneuron	5 studies	49% ± 24%	Explore
CD4-positive, alpha-beta cytotoxic T cell	4 studies	63% ± 25%	Explore
central memory CD8-positive, alpha-beta T cell	4 studies	73% ± 12%	Explore
effector memory CD8-positive, alpha-beta T cell, terminally differentiated	4 studies	65% ± 11%	Explore
deuterosomal cell	4 studies	71% ± 23%	Explore
duct epithelial cell	4 studies	84% ± 3%	Explore
glomerular endothelial cell	4 studies	46% ± 16%	Explore
kidney connecting tubule epithelial cell	4 studies	87% ± 7%	Explore
podocyte	4 studies	74% ± 13%	Explore
OFF-bipolar cell	4 studies	60% ± 26%	Explore
ON-bipolar cell	4 studies	58% ± 26%	Explore
T-helper 17 cell	4 studies	85% ± 12%	Explore
retina horizontal cell	4 studies	65% ± 18%	Explore
mucus secreting cell	4 studies	69% ± 22%	Explore
Mueller cell	4 studies	51% ± 20%	Explore
germinal center B cell	4 studies	90% ± 5%	Explore
luminal hormone-sensing cell of mammary gland	4 studies	85% ± 10%	Explore
IgM plasma cell	4 studies	57% ± 25%	Explore
GABAergic neuron	4 studies	37% ± 11%	Explore
glial cell	4 studies	51% ± 26%	Explore
hepatocyte	4 studies	61% ± 25%	Explore
precursor cell	3 studies	87% ± 6%	Explore
squamous epithelial cell	3 studies	56% ± 23%	Explore
pancreatic A cell	3 studies	91% ± 6%	Explore
type B pancreatic cell	3 studies	89% ± 8%	Explore
monocyte-derived dendritic cell	3 studies	84% ± 20%	Explore
renal beta-intercalated cell	3 studies	96% ± 2%	Explore
renal intercalated cell	3 studies	86% ± 7%	Explore
neural crest cell	3 studies	88% ± 7%	Explore
retinal bipolar neuron	3 studies	72% ± 26%	Explore
GABAergic amacrine cell	3 studies	40% ± 12%	Explore
glycinergic amacrine cell	3 studies	39% ± 15%	Explore
renal principal cell	3 studies	79% ± 5%	Explore
thymocyte	3 studies	71% ± 19%	Explore
extravillous trophoblast	3 studies	86% ± 7%	Explore
placental villous trophoblast	3 studies	88% ± 13%	Explore
lymphocyte	3 studies	82% ± 10%	Explore
retinal pigment epithelial cell	3 studies	67% ± 24%	Explore
adventitial cell	3 studies	53% ± 0%	Explore
tissue-resident macrophage	3 studies	57% ± 26%	Explore
intraepithelial lymphocyte	3 studies	79% ± 11%	Explore
rod bipolar cell	3 studies	62% ± 20%	Explore
acinar cell	3 studies	60% ± 7%	Explore
muscle cell	3 studies	50% ± 25%	Explore
myoepithelial cell	3 studies	74% ± 6%	Explore
luminal cell of prostate epithelium	3 studies	76% ± 9%	Explore
keratinocyte	3 studies	78% ± 7%	Explore
melanocyte	3 studies	60% ± 17%	Explore
central memory CD4-positive, alpha-beta T cell	3 studies	82% ± 5%	Explore
double-positive, alpha-beta thymocyte	3 studies	88% ± 5%	Explore
progenitor cell of mammary luminal epithelium	3 studies	87% ± 3%	Explore
T-helper 1 cell	3 studies	87% ± 2%	Explore

II. Expression across tissues

Name	Number of supported studies	Average coverage
peripheral blood	20 studies	77% ± 9%	Explore
lung	17 studies	72% ± 13%	Explore
intestine	12 studies	65% ± 23%	Explore
eye	10 studies	52% ± 19%	Explore
brain	10 studies	43% ± 18%	Explore
kidney	9 studies	72% ± 15%	Explore
bone marrow	6 studies	56% ± 18%	Explore
liver	6 studies	65% ± 22%	Explore
lymph node	5 studies	80% ± 10%	Explore
uterus	5 studies	71% ± 21%	Explore
pancreas	4 studies	76% ± 18%	Explore
placenta	4 studies	72% ± 19%	Explore
heart	4 studies	34% ± 14%	Explore
prostate	4 studies	62% ± 12%	Explore
breast	4 studies	75% ± 10%	Explore
adrenal gland	3 studies	73% ± 11%	Explore
esophagus	3 studies	68% ± 22%	Explore
skin	3 studies	65% ± 14%	Explore
thymus	3 studies	78% ± 25%	Explore

Tissue	GTEx Coverage	GTEx Average TPM	GTEx Number of samples	TCGA Coverage	TCGA Average TPM	TCGA Number of samples
esophagus	100%	5000.18	1445 / 1445	100%	28.12	183 / 183
ovary	100%	4439.23	180 / 180	100%	43.14	430 / 430
stomach	100%	4564.91	359 / 359	100%	34.01	286 / 286
thymus	100%	4614.58	653 / 653	100%	34.95	605 / 605
uterus	100%	4105.44	170 / 170	100%	21.89	459 / 459
brain	100%	5267.63	2641 / 2642	100%	20.85	705 / 705
kidney	100%	7292.03	89 / 89	100%	26.50	900 / 901
intestine	100%	5786.37	966 / 966	100%	31.77	526 / 527
prostate	100%	4447.86	245 / 245	100%	27.99	501 / 502
pancreas	100%	2535.62	327 / 328	100%	21.52	178 / 178
adrenal gland	100%	7891.73	258 / 258	100%	35.35	229 / 230
liver	100%	3203.67	225 / 226	100%	19.21	406 / 406
lung	99%	3937.04	575 / 578	100%	21.76	1155 / 1155
bladder	100%	4786.48	21 / 21	99%	24.41	501 / 504
breast	100%	4623.11	459 / 459	99%	22.88	1110 / 1118
skin	100%	4185.12	1809 / 1809	99%	16.62	466 / 472
adipose	100%	4536.23	1204 / 1204	0%	0	0 / 0
eye	0%	0	0 / 0	100%	33.09	80 / 80
lymph node	0%	0	0 / 0	100%	40.12	29 / 29
spleen	100%	4321.90	241 / 241	0%	0	0 / 0
tonsil	0%	0	0 / 0	100%	13.76	45 / 45
ureter	0%	0	0 / 0	100%	26.73	1 / 1
muscle	100%	5882.39	802 / 803	0%	0	0 / 0
blood vessel	100%	4153.95	1332 / 1335	0%	0	0 / 0
heart	99%	9718.82	850 / 861	0%	0	0 / 0
peripheral blood	95%	3697.28	880 / 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

IV. Literature review

[source]

Gene name	ATP5MG
Protein name	ATP synthase subunit g, mitochondrial (ATPase subunit g) (ATP synthase membrane subunit g) ATP synthase membrane subunit g ATP synthase membrane subunit g (HCG2043599, isoform CRA_c)
Synonyms	ATP5L hCG_2043599
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. Minor subunit located with subunit a in the membrane. 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. Minor subunit located with subunit a in the membrane. . 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. Minor subunit located with subunit a in the membrane. . 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. Minor subunit located with subunit a in the membrane. .
Accessions	ENST00000690793.1 ENST00000689460.1 O75964 A0A3B3IRW3 ENST00000300688.8 A0A8I5KSW3 ENST00000688882.1 ENST00000533172.5 A0A3B3ISE7 A0A8I5KT86 A0A8I5KSQ4 E9PN17 ENST00000524422.2 ENST00000529790.5

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_0000276	Cellular component	mitochondrial proton-transporting ATP synthase complex, coupling factor F(o)
GO_0005743	Cellular component	mitochondrial inner membrane
GO_0005739	Cellular component	mitochondrion
GO_0046933	Molecular function	proton-transporting ATP synthase activity, rotational mechanism
GO_0005515	Molecular function	protein binding

ATP5MG report

I. Expression across cell types

II. Expression across tissues

III. Associated gene sets

IV. Literature review