Multi antimicrobial extrusion protein

Multi antimicrobial extrusion protein
Identifiers
Symbol	MatE
Pfam	PF01554
Pfam clan	CL0222
InterPro	IPR002528
TCDB	2.A.66
Available protein structures: Pfam structures PDB RCSB PDB; PDBe PDBsum structure summary

For other uses, see Mate.

Multi antimicrobial extrusion protein (MATE) also known as multidrug and toxin extrusion or multidrug and toxic compound extrusion is a family of proteins which function as drug/sodium or proton antiporters.^[1][2][3]

Function

The MATE proteins in bacteria, archaea and eukaryotes function as fundamental transporters of metabolic and xenobiotic organic cations.^[2][3]

Structure

These proteins are predicted to have 12 alpha-helical transmembrane regions, some of the animal proteins may have an additional C-terminal helix.^[4] The X-ray structure of the NorM was determined to 3.65 Å, revealing an outward-facing conformation with two portals open to the outer leaflet of the membrane and a unique topology of the predicted 12 transmembrane helices distinct from any other known multidrug resistance transporter.^[5]

Discovery

The multidrug efflux transporter NorM from V. parahaemolyticus which mediates resistance to multiple antimicrobial agents (norfloxacin, kanamycin, ethidium bromide etc) and its homologue from E. coli were identified in 1998.^[6] NorM seems to function as drug/sodium antiporter which is the first example of Na⁺-coupled multidrug efflux transporter discovered.^[7] NorM is a prototype of a new transporter family and Brown et al. named it the multidrug and toxic compound extrusion family.^[1] NorM is nicknamed "Last of the multidrug transporters." because it is the last multidrug transporter discovered functionaly as well as structually ^[8]

Genes

The following human genes encode MATE proteins:

• SLC47A1
• SLC47A2

See also

• Solute carrier family

References

1. ^ ^{a b} Brown MH, Paulsen IT, Skurray RA (January 1999). "The multidrug efflux protein NorM is a prototype of a new family of transporters". Mol. Microbiol. 31 (1): 394–5. doi:10.1046/j.1365-2958.1999.01162.x. PMID 9987140. 
2. ^ ^{a b} Kuroda T, Tsuchiya T (December 2008). "Multidrug efflux transporters in the MATE family". Biochim. Biophys. Acta 1794 (5): 763–8. doi:10.1016/j.bbapap.2008.11.012. PMID 19100867. 
3. ^ ^{a b} Omote H et al. (2006). "The MATE proteins as fundamental transporters of metabolic and xenobiotic organic cations". Trends in pharmacological sciences 27 (11): 587–93. doi:10.1016/j.tips.2006.09.001. PMID 16996621. 
4. ^ Hvorup RN, Winnen B, Chang AB, Jiang Y, Zhou XF, Saier MH (March 2003). "The multidrug/oligosaccharidyl-lipid/polysaccharide (MOP) exporter superfamily". Eur. J. Biochem. 270 (5): 799–813. doi:10.1046/j.1432-1033.2003.03418.x. PMID 12603313. 
5. ^ He X, Szewczyk P, Karykin A, Hong WX, Zhang Q, Chang G (2010). "Structure of a cation-bound multidrug and toxic compound extrusion transporter". Nature 467 (7318): 991–994. doi:10.1038/nature09408. PMID 20861838. 
6. ^ Morita Y, Kodama K, Shiota S, Mine T, Kataoka A, Mizushima T, Tsuchiya T (July 1998). "NorM, a putative multidrug efflux protein, of Vibrio parahaemolyticus and its homolog in Escherichia coli". Antimicrob. Agents Chemother. 42 (7): 1778–82. PMC 105682. PMID 9661020. http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pmcentrez&artid=105682. 
7. ^ Morita Y, Kataoka A, Shiota S, Mizushima T, Tsuchiya T (December 2000). "NorM of vibrio parahaemolyticus is an Na(+)-driven multidrug efflux pump". J. Bacteriol. 182 (23): 6694–7. doi:10.1128/JB.182.23.6694-6697.2000. PMC 111412. PMID 11073914. http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pmcentrez&artid=111412. 
8. ^ van Veen HW (2010). "Structural biology: Last of the multidrug transporters". Nature 467 (7318): 926–7. doi:10.1038/467926a. PMID 20962836. 

SLC11–20
(11) proton coupled metal ion transporter (SLC11A1, SLC11A2) 11A3 (12) electroneutral cation-Cl cotransporter (SLC12A1, SLC12A1, SLC12A2, SLC12A3, SLC12A4, SLC12A5, SLC12A6, SLC12A7, SLC12A8, SLC12A9) (13) human Na+-sulfate/carboxylate cotransporter (SLC13A1, SLC13A2, SLC13A3, SLC13A4, SLC13A5) (14) urea transporter (SLC14A1, SLC14A2) (15) proton oligopeptide cotransporter (SLC15A1, SLC15A2, SLC15A3, SLC15A4) (16) monocarboxylate transporter (SLC16A1, SLC16A2, SLC16A3, SLC16A4, SLC16A5, SLC16A6, SLC16A7, SLC16A8, SLC16A9, SLC16A10, SLC16A11, SLC16A12, SLC16A13, SLC16A14) (17) vesicular glutamate transporter (SLC17A1, SLC17A2, SLC17A3, SLC17A4, SLC17A5, SLC17A6, SLC17A7, SLC17A8, SLC17A9) (18) vesicular amine transporter (SLC18A1, SLC18A2, SLC18A3) (19) folate/thiamine transporter (SLC19A1, SLC19A2, SLC19A3) (20) type III Na+-phosphate cotransporter (SLC20A1, SLC20A2)

SLC21–30
(21) organic anion transporting (SLCO1A2, SLCO1B1, SLCO1B3, SLCO1B4, SLCO1C1) (SLCO2A1, SLCO2B1) (SLCO3A1) (SLCO4A1, SLCO4C1) (SLCO5A1) (SLCO6A1) (22) organic cation/anion/zwitterion transporter (SLC22A1, SLC22A2, SLC22A3, SLC22A4, SLC22A5, SLC22A6, SLC22A7, SLC22A8, SLC22A9, SLC22A10, SLC22A11, SLC22A12, SLC22A13, SLC22A14, SLC22A15, SLC22A16, SLC22A17, SLC22A18, SLC22A19, SLC22A20) (23) Na+-dependent ascorbic acid transporter (SLC23A1, SLC23A2, SLC23A3, SLC23A4) (24) Na+/(Ca2+-K+) exchanger (SLC24A1, SLC24A2, SLC24A3, SLC24A4, SLC24A5, SLC24A6) (25) mitochondrial carrier (SLC25A1, SLC25A2, SLC25A3, SLC25A4, SLC25A5, SLC25A6, SLC25A7, SLC25A8, SLC25A9, SLC25A10, SLC25A11, SLC25A12, SLC25A13, SLC25A14, SLC25A15, SLC25A16, SLC25A17, SLC25A18, SLC25A19, SLC25A20, SLC25A21, SLC25A22, SLC25A23, SLC25A24, SLC25A25, SLC25A26, SLC25A27, SLC25A28, SLC25A29, SLC25A30, SLC25A31, SLC25A32, SLC25A33, SLC25A34, SLC25A35, SLC25A36, SLC25A37, SLC25A38, SLC25A39, SLC25A40, SLC25A41, SLC25A42, SLC25A43, SLC25A44, SLC25A45, SLC25A46) (26) multifunctional anion exchanger (SLC26A1, SLC26A2, SLC26A3, SLC26A4, SLC26A5, SLC26A6, SLC26A7, SLC26A8, SLC26A9, SLC26A10, SLC26A11) (27) fatty acid transport proteins (SLC27A1, SLC27A2, SLC27A3, SLC27A4, SLC27A5, SLC27A6) (28) Na+-coupled nucleoside transport (SLC28A1, SLC28A2, SLC28A3 (29) facilitative nucleoside transporter (SLC29A1, SLC29A2, SLC29A3, SLC29A4) (30) zinc efflux (SLC30A1, SLC30A2, SLC30A3, SLC30A4, SLC30A5, SLC30A6, SLC30A7, SLC30A8, SLC30A9, SLC30A10)

SLC31–40
(31) copper transporter (SLC31A1) (32) vesicular inhibitory amino-acid transporter (SLC32A1) (33) Acetyl-CoA transporter (SLC33A1) (34) type II Na+-phosphate cotransporter (SLC34A1, SLC34A2, SLC34A3) (35) nucleoside-sugar transporter (SLC35A1, SLC35A2, SLC35A3, SLC35A4, SLC35A5) (SLC35B1, SLC35B2, SLC35B3, SLC35B4) (SLC35C1, SLC35C2) (SLC35D1, SLC35D2, SLC35D3) (SLC35E1, SLC35E2, SLC35E3, SLC35E4) (36) proton-coupled amino-acid transporter (SLC36A1, SLC36A2, SLC36A3, SLC36A4)36A2 · (37) sugar-phosphate/phosphate exchanger (SLC37A1, SLC37A2, SLC37A3, SLC37A4) (38) System A & N, sodium-coupled neutral amino-acid transporter (SLC38A1, SLC38A2, SLC38A3, SLC38A4, SLC38A5, SLC38A6, SLC38A10) (39) metal ion transporter (SLC39A1, SLC39A2, SLC39A3, SLC39A4, SLC39A5, SLC39A6, SLC39A7, SLC39A8, SLC39A9, SLC39A10, SLC39A11, SLC39A12, SLC39A13, SLC39A14) (40) basolateral iron transporter (SLC40A1)

SLC41–48
(41) MgtE-like magnesium transporter (SLC41A1, SLC41A2, SLC41A3) (42) Ammonia transporter (RhAG, RhBG, RhCG) (43) Na+-independent, system-L like amino-acid transporter (SLC43A1, SLC43A2, SLC43A3) (44) Choline-like transporter (SLC44A1, SLC44A2, SLC44A3, SLC44A4, SLC44A5) (45) Putative sugar transporter (SLC45A1, SLC45A2, SLC54A3, SLC45A4) (46) Folate transporter (SLC46A1, SLC46A2) (47) multidrug and toxin extrusion (SLC47A1, SLC47A2) (48) Heme transporter

SLCO1–4
O1A2 · O1B1 · O1B3 · O2B1 · O431 · O4A1

Ion pumps
Symporter, Cotransporter Na+/K+/2Cl- - Na/Pi3 - Na+/Cl- - Na/glucose - Na+/I- - Cl-/K+ (4, 5) Antiporter (exchanger) Na+/H+ - Na+/Ca2+ (Na+/(Ca2+-K+)) - Cl-/HCO3- (Band 3) - Cl-formate exchanger - Cl-oxalate exchanger

see also solute carrier disorders
B memb: cead, trns (1A, 1C, 1F, 2A, 3A1, 3A2-3, 3D), othr