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SLC30A3 | Zinc transporter 3; Involved in accumulation of zinc in synaptic vesicles; Solute carriers (388 aa) | |||
SLC35B1 | Solute carrier family 35 member B1; Probable sugar transporter; Belongs to the nucleotide-sugar transporter family. SLC35B subfamily (359 aa) | |||
SLC36A1 | Proton-coupled amino acid transporter 1; Neutral amino acid/proton symporter. Has a pH-dependent electrogenic transport activity for small amino acids such as glycine, alanine and proline. Besides small apolar L-amino acids, it also recognize their D-enantiomers and selected amino acid derivatives such as gamma-aminobutyric acid (By similarity); Solute carriers (476 aa) | |||
NIP7 | 60S ribosome subunit biogenesis protein NIP7 homolog; Required for proper 34S pre-rRNA processing and 60S ribosome subunit assembly; Belongs to the NIP7 family (180 aa) | |||
SLC38A2 | Sodium-coupled neutral amino acid transporter 2; Functions as a sodium-dependent amino acid transporter. Mediates the saturable, pH-sensitive and electrogenic cotransport of neutral amino acids and sodium ions with a stoichiometry of 1-1. May function in the transport of amino acids at the blood- brain barrier and in the supply of maternal nutrients to the fetus through the placenta (506 aa) | |||
NAT8 | N-acetyltransferase 8; Acetylates the free alpha-amino group of cysteine S- conjugates to form mercapturic acids. This is the final step in a major route for detoxification of a wide variety of reactive electrophiles which starts with their incorporation into glutathione S-conjugates. The glutathione S- conjugates are then further processed into cysteine S-conjugates and finally mercapturic acids which are water soluble and can be readily excreted in urine or bile. Alternatively, may have a lysine N-acetyltransferase activity catalyzing peptidyl-lysine N6- acetylation of various protei [...] (227 aa) | |||
SLC10A6 | Solute carrier family 10 member 6; Transports sulfoconjugated steroid hormones, as well as taurolithocholic acid-3-sulfate and sulfoconjugated pyrenes in a sodium-dependent manner; Belongs to the bile acid-sodium symporter (BASS) (TC 2.A.28) family (377 aa) | |||
ATP8B3 | Phospholipid-transporting ATPase IK; P4-ATPase flippase which catalyzes the hydrolysis of ATP coupled to the transport of aminophospholipids from the outer to the inner leaflet of various membranes and ensures the maintenance of asymmetric distribution of phospholipids. Phospholipid translocation seems also to be implicated in vesicle formation and in uptake of lipid signaling molecules. May be responsible for the maintenance of asymmetric distribution of phosphatidylserine (PS) in spermatozoa membranes. Involved in acrosome reactions and binding of spermatozoa to zona pellucida; Belon [...] (1300 aa) | |||
SLC35C2 | Solute carrier family 35 member C2; May play an important role in the cellular response to tissue hypoxia. May be either a GDP-fucose transporter that competes with SLC35C1 for GDP-fucose, or a factor that otherwise enhances the fucosylation of Notch and is required for optimal Notch signaling in mammalian cells; Solute carriers (394 aa) | |||
ATP11B | Probable phospholipid-transporting ATPase IF; Catalytic component of a P4-ATPase flippase complex which catalyzes the hydrolysis of ATP coupled to the transport of aminophospholipids from the outer to the inner leaflet of various membranes and ensures the maintenance of asymmetric distribution of phospholipids. Phospholipid translocation seems also to be implicated in vesicle formation and in uptake of lipid signaling molecules (Probable). Involved in regulation of sensitivity to cisplatin; may contribute to secretory vesicle transport of cisplatin from Golgi to plasma membrane (1177 aa) | |||
ATP13A2 | Cation-transporting ATPase 13A2; ATPase that plays a role in intracellular cation homeostasis and the maintenance of neuronal integrity. Required for a proper lysosomal and mitochondrial maintenance; ATPase orphan transporters (1180 aa) | |||
SLC36A2 | Proton-coupled amino acid transporter 2; Involved in a pH-dependent electrogenic neuronal transport and sequestration of small amino acids. Transports glycine and proline. Inhibited by sarcosine (By similarity); Belongs to the amino acid/polyamine transporter 2 family (483 aa) | |||
ATP13A4 | Probable cation-transporting ATPase 13A4; ATPase orphan transporters; Belongs to the cation transport ATPase (P-type) (TC 3.A.3) family. Type V subfamily (1196 aa) | |||
ATP13A5 | Probable cation-transporting ATPase 13A5; ATPase orphan transporters; Belongs to the cation transport ATPase (P-type) (TC 3.A.3) family. Type V subfamily (1218 aa) | |||
ATP13A1 | Manganese-transporting ATPase 13A1; Mediates manganese transport into the endoplasmic reticulum. The ATPase activity is required for cellular manganese homeostasis; Belongs to the cation transport ATPase (P-type) (TC 3.A.3) family. Type V subfamily (1204 aa) | |||
SLC41A1 | Solute carrier family 41 member 1; Acts as a magnesium transporter that is responsive to magnesium balance; Solute carriers (513 aa) | |||
SLC35B3 | Adenosine 3’-phospho 5’-phosphosulfate transporter 2; Mediates the transport of adenosine 3’-phospho 5’- phosphosulfate (PAPS), from cytosol into Golgi. PAPS is a universal sulfuryl donor for sulfation events that take place in the Golgi. Compensates for the insufficient expression of SLC35B2/PAPST1 during the synthesis of sulfated glycoconjugates in the colon; Solute carriers (401 aa) | |||
MFSD6 | Major facilitator superfamily domain containing 6 (791 aa) | |||
SLC38A9 | Sodium-coupled neutral amino acid transporter 9; Lysosomal amino acid transporter involved in the activation of mTORC1 in response to amino acids. Probably acts as an amino acid sensor of the Rag GTPases and Ragulator complexes, 2 complexes involved in amino acid sensing and activation of mTORC1, a signaling complex promoting cell growth in response to growth factors, energy levels, and amino acids. Following activation by amino acids, the Ragulator and Rag GTPases function as a scaffold recruiting mTORC1 to lysosomes where it is in turn activated. SLC38A9 mediates transport of amino a [...] (561 aa) | |||
SLC38A4 | Sodium-coupled neutral amino acid transporter 4; Sodium-dependent amino acid transporter. Mediates electrogenic symport of neutral amino acids and sodium ions. Has a broad specificity, with a preference for Ala, followed by His, Cys, Asn, Ser, Gly, Val, Thr, Gln and Met. May mediate sodium- independent transport of cationic amino acids, such as Arg and Lys. Amino acid uptake is pH-dependent, with low transport activities at pH 6.5, intermediate at pH 7.0 and highest between pH 7.5 and 8.5; Solute carriers (547 aa) | |||
ATP13A3 | Probable cation-transporting ATPase 13A3; ATPase orphan transporters (1226 aa) | |||
ATP11A | Probable phospholipid-transporting ATPase IH; Catalytic component of a P4-ATPase flippase complex which catalyzes the hydrolysis of ATP coupled to the transport of aminophospholipids from the outer to the inner leaflet of various membranes and ensures the maintenance of asymmetric distribution of phospholipids. Phospholipid translocation seems also to be implicated in vesicle formation and in uptake of lipid signaling molecules (Probable). May be involved in the uptake of farnesyltransferase inhibitor drugs, such as lonafarnib (1134 aa) | |||
ATP2C1 | Calcium-transporting ATPase type 2C member 1; This magnesium-dependent enzyme catalyzes the hydrolysis of ATP coupled with the transport of the calcium; Belongs to the cation transport ATPase (P-type) (TC 3.A.3) family. Type IIA subfamily (973 aa) | |||
MFSD5 | Molybdate-anion transporter; Mediates high-affinity intracellular uptake of the rare oligo-element molybdenum; Belongs to the major facilitator superfamily (557 aa) | |||
SLC38A7 | Putative sodium-coupled neutral amino acid transporter 7; Mediates sodium-dependent transport of amino acids, preferentially L-glutamine; Belongs to the amino acid/polyamine transporter 2 family (462 aa) | |||
SLC38A3 | Sodium-coupled neutral amino acid transporter 3; Sodium-dependent amino acid/proton antiporter. Mediates electrogenic cotransport of glutamine and sodium ions in exchange for protons. Also recognizes histidine, asparagine and alanine. May mediate amino acid transport in either direction under physiological conditions. May play a role in nitrogen metabolism and synaptic transmission; Solute carriers (504 aa) |