Gene
mpc1
- ID
- ZDB-GENE-040718-94
- Name
- mitochondrial pyruvate carrier 1
- Symbol
- mpc1 Nomenclature History
- Previous Names
-
- zgc:92707
- Type
- protein_coding_gene
- Location
- Chr: 13 Mapping Details/Browsers
- Description
- Predicted to enable pyruvate transmembrane transporter activity. Involved in pyruvate metabolic process. Acts upstream of with a positive effect on digestive tract development. Predicted to be located in membrane and mitochondrion. Predicted to be active in mitochondrial inner membrane. Is expressed in several structures, including digestive system; female organism; head; pectoral fin; and vasculature. Human ortholog(s) of this gene implicated in mitochondrial pyruvate carrier deficiency. Orthologous to human MPC1 (mitochondrial pyruvate carrier 1).
- Genome Resources
- Note
- None
- Comparative Information
-
- All Expression Data
- 4 figures from 3 publications
- Cross-Species Comparison
- High Throughput Data
- Thisse Expression Data
-
- MGC:92707 (1 image)
Wild Type Expression Summary
- All Phenotype Data
- 3 figures from Sandoval et al., 2017
- Cross-Species Comparison
- Alliance
Phenotype Summary
Mutations
No data available
Human Disease
| Disease Ontology Term | Multi-Species Data | OMIM Term | OMIM Phenotype ID |
|---|---|---|---|
| mitochondrial pyruvate carrier deficiency | Alliance | Mitochondrial pyruvate carrier deficiency | 614741 |
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Domain, Family, and Site Summary
| Type | InterPro ID | Name |
|---|---|---|
| Family | IPR005336 | Mitochondrial pyruvate carrier |
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Domain Details Per Protein
| Protein | Length | Mitochondrial pyruvate carrier |
|---|---|---|
|
UniProtKB:F1Q6Z3
|
109 |
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Interactions and Pathways
No data available
Plasmids
No data available
No data available
| Relationship | Marker Type | Marker | Accession Numbers | Citations |
|---|---|---|---|---|
| Contained in | Fosmid | ZFOS-1762D12 | ZFIN Curated Data | |
| Encodes | cDNA | MGC:92707 | ZFIN Curated Data |
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| Type | Accession # | Sequence | Length (nt/aa) | Analysis |
|---|---|---|---|---|
| RNA | RefSeq:NM_001002398 (1) | 798 nt | ||
| Genomic | GenBank:CU694274 (1) | 41491 nt | ||
| Polypeptide | UniProtKB:F1Q6Z3 (1) | 109 aa |
- Zhou, W.H., Luo, Y., Li, R.X., Degrace, P., Jourdan, T., Qiao, F., Chen, L.Q., Zhang, M.L., Du, Z.Y. (2023) Inhibition of mitochondrial fatty acid β-oxidation activates mTORC1 pathway and protein synthesis via Gcn5-dependent acetylation of raptor in zebrafish. The Journal of biological chemistry. 299(10):105220
- Newman, M., Hin, N., Pederson, S., Lardelli, M. (2019) Brain transcriptome analysis of a familial Alzheimer's disease-like mutation in the zebrafish presenilin 1 gene implies effects on energy production. Molecular brain. 12:43
- Bayés, À., Collins, M.O., Reig-Viader, R., Gou, G., Goulding, D., Izquierdo, A., Choudhary, J.S., Emes, R.D., Grant, S.G. (2017) Evolution of complexity in the zebrafish synapse proteome. Nature communications. 8:14613
- Sandoval, I.T., Delacruz, R.G., Miller, B.N., Hill, S., Olson, K.A., Gabriel, A.E., Boyd, K., Satterfield, C., Remmen, H.V., Rutter, J., Jones, D.A. (2017) A metabolic switch controls intestinal differentiation downstream of Adenomatous polyposis coli (APC).. eLIFE. 6
- Elkon, R., Milon, B., Morrison, L., Shah, M., Vijayakumar, S., Racherla, M., Leitch, C.C., Silipino, L., Hadi, S., Weiss-Gayet, M., Barras, E., Schmid, C.D., Ait-Lounis, A., Barnes, A., Song, Y., Eisenman, D.J., Eliyahu, E., Frolenkov, G.I., Strome, S.E., Durand, B., Zaghloul, N.A., Jones, S.M., Reith, W., Hertzano, R. (2015) RFX transcription factors are essential for hearing in mice. Nature communications. 6:8549
- Feng, H., Zhang, Y., Zhang, Q., Li, Z., Zhang, Q., Gui, J. (2015) Zebrafish IRF1 Regulates IFN Antiviral Response through Binding to IFNϕ1 and IFNϕ3 Promoters Downstream of MyD88 Signaling. Journal of immunology (Baltimore, Md. : 1950). 194(3):1225-38
- Strausberg,R.L., Feingold,E.A., Grouse,L.H., Derge,J.G., Klausner,R.D., Collins,F.S., Wagner,L., Shenmen,C.M., Schuler,G.D., Altschul,S.F., Zeeberg,B., Buetow,K.H., Schaefer,C.F., Bhat,N.K., Hopkins,R.F., Jordan,H., Moore,T., Max,S.I., Wang,J., Hsieh,F., Diatchenko,L., Marusina,K., Farmer,A.A., Rubin,G.M., Hong,L., Stapleton,M., Soares,M.B., Bonaldo,M.F., Casavant,T.L., Scheetz,T.E., Brownstein,M.J., Usdin,T.B., Toshiyuki,S., Carninci,P., Prange,C., Raha,S.S., Loquellano,N.A., Peters,G.J., Abramson,R.D., Mullahy,S.J., Bosak,S.A., McEwan,P.J., McKernan,K.J., Malek,J.A., Gunaratne,P.H., Richards,S., Worley,K.C., Hale,S., Garcia,A.M., Gay,L.J., Hulyk,S.W., Villalon,D.K., Muzny,D.M., Sodergren,E.J., Lu,X., Gibbs,R.A., Fahey,J., Helton,E., Ketteman,M., Madan,A., Rodrigues,S., Sanchez,A., Whiting,M., Madan,A., Young,A.C., Shevchenko,Y., Bouffard,G.G., Blakesley,R.W., Touchman,J.W., Green,E.D., Dickson,M.C., Rodriguez,A.C., Grimwood,J., Schmutz,J., Myers,R.M., Butterfield,Y.S., Krzywinski,M.I., Skalska,U., Smailus,D.E., Schnerch,A., Schein,J.E., Jones,S.J., and Marra,M.A. (2002) Generation and initial analysis of more than 15,000 full-length human and mouse cDNA sequences. Proceedings of the National Academy of Sciences of the United States of America. 99(26):16899-903
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