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2.A.29.4.2 Phosphate carrier protein (PiC); mitochondrial precursor (PTP) (SLC25A3). Variants lead to a failure of inorganic phosphate (Pi) transport across the mitochondrial membrane, loss of oxidative phosphorylation, and phenotypically varied cases of skeletal myopathy and cardiomyopathy (Bhoj et al. 2015; Calvello et al. 2018).
Accession Number:	Q00325
Protein Name:	Phosphate carrier protein (PiC) aka mitochondrial precursor (PTP) (SLC25A3)
Length:	362
Molecular Weight:	40095.00
Species:	Homo sapiens (Human) [9606]
Number of TMSs:	6
Location¹ / Topology² / Orientation³:	Mitochondrion inner membrane¹ / Multi-pass membrane protein²
Substrate	phosphate(3-)

RefSeq:	NP_002626.1 NP_005879.1 NP_998776.1
Entrez Gene ID:	5250
Pfam:	PF00153
OMIM:	600370 gene 610773 phenotype
KEGG:	hsa:5250 hsa:5250
Gene Ontology GO:0005887 C:integral to plasma membrane GO:0005743 C:mitochondrial inner membrane GO:0005488 F:binding GO:0015320 F:phosphate carrier activity GO:0015293 F:symporter activity GO:0006091 P:generation of precursor metabolites and energy GO:0055085 P:transmembrane transport GO:0015320 F:phosphate ion carrier activity
References (15) [1] “The sequences of human and bovine genes of the phosphate carrier from mitochondria contain evidence of alternatively spliced forms.” Dolce V.et.al. 8144629 [2] “Nucleotide sequence of a human heart cDNA encoding the mitochondrial phosphate carrier.” Dolce V.et.al. 1777677 [3] “Complete sequencing and characterization of 21,243 full-length human cDNAs.” Ota T.et.al. 14702039 [4] “The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC).” The MGC Project Teamet.al. 15489334 [5] “Large-scale proteomics analysis of the human kinome.” Oppermann F.S.et.al. 19369195 [6] “Lysine acetylation targets protein complexes and co-regulates major cellular functions.” Choudhary C.et.al. 19608861 [7] “Mitochondrial phosphate-carrier deficiency: a novel disorder of oxidative phosphorylation.” Mayr J.A.et.al. 17273968 [8] “The sequences of human and bovine genes of the phosphate carrier from mitochondria contain evidence of alternatively spliced forms.” Dolce V.et.al. 8144629 [9] “Nucleotide sequence of a human heart cDNA encoding the mitochondrial phosphate carrier.” Dolce V.et.al. 1777677 [10] “Complete sequencing and characterization of 21,243 full-length human cDNAs.” Ota T.et.al. 14702039 [11] “The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC).” The MGC Project Teamet.al. 15489334 [12] “Large-scale proteomics analysis of the human kinome.” Oppermann F.S.et.al. 19369195 [13] “Lysine acetylation targets protein complexes and co-regulates major cellular functions.” Choudhary C.et.al. 19608861 [14] “Initial characterization of the human central proteome.” Burkard T.R.et.al. 21269460 [15] “Mitochondrial phosphate-carrier deficiency: a novel disorder of oxidative phosphorylation.” Mayr J.A.et.al. 17273968

UniProt (Universal Protein Resource)
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FASTA formatted sequence

1:	MFSSVAHLAR ANPFNTPHLQ LVHDGLGDLR SSSPGPTGQP RRPRNLAAAA VEEQYSCDYG 
61:	SGRFFILCGL GGIISCGTTH TALVPLDLVK CRMQVDPQKY KGIFNGFSVT LKEDGVRGLA 
121:	KGWAPTFLGY SMQGLCKFGF YEVFKVLYSN MLGEENTYLW RTSLYLAASA SAEFFADIAL 
181:	APMEAAKVRI QTQPGYANTL RDAAPKMYKE EGLKAFYKGV APLWMRQIPY TMMKFACFER 
241:	TVEALYKFVV PKPRSECSKP EQLVVTFVAG YIAGVFCAIV SHPADSVVSV LNKEKGSSAS 
301:	LVLKRLGFKG VWKGLFARII MIGTLTALQW FIYDSVKVYF RLPRPPPPEM PESLKKKLGL 
361:	TQ

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Gene Ontology

References (15)

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