The Amino Acid-Polyamine-Organocation (APC) Family (TC# 2.A.3) of transport proteins includes members that function as solute:cation symporters and solute:solute antiporters. They occur in bacteria, archaea, fungi, unicellular eukaryotic protists, slime molds, plants and animals. They vary in length, being as small as 350 residues and as large as 850 residues. The smaller proteins are generally of prokaryotic origin while the larger ones are of eukaryotic origin. Most of them possess twelve transmembrane ?-helical spanners but have a re-entrant loop involving TMSs 2 and 3. The APC Superfamily was established to encompass a wider range of homologues.
Video APC Family
Members of APC Family
Members of one subfamily within the APC family (SGP; TC# 2.A.3.9) are amino acid receptors rather than transporters and are truncated at their C-termini, relative to the transporters, having 10 TMSs.
The eukaryotic members of another subfamily (CAT; TC# 2.A.3.3) and the members of a prokaryotic subfamily (AGT; TC #2.A.3.11) have 14 TMSs.
The larger eukaryotic and archaeal proteins possess N- and C-terminal hydrophilic extensions. Some animal proteins, for example, those in the LAT subfamily (TC# 2.A.3.8) including ASUR4 (gbY12716) and SPRM1 (gbL25068) associate with a type 1 transmembrane glycoprotein that is essential for insertion or activity of the permease and forms a disulfide bridge with it. These glycoproteins include the CD98 heavy chain protein of Mus musculus (gbU25708) and the orthologous 4F2 cell surface antigen heavy chain of Homo sapiens (spP08195). The latter protein is required for the activity of the cystine/glutamate antiporter (2.A.3.8.5), which maintains cellular redox balance and cysteine/glutathione levels. They are members of the rBAT family of mammalian proteins (TC #8.A.9).
Two APC family members, LAT1 and LAT2 (TC #2.A.3.8.7), transport a neurotoxicant, the methylmercury-L-cysteine complex, by molecular mimicry.
Hip1 of S. cerevisiae (TC #2.A.3.1.5) has been implicated in heavy metal transport.
Subfamilies
Subfamilies of the APC family, and the proteins in these families, can be found in the Transporter Classification Database:
- 2.A.3.1: The Amino Acid Transporter (AAT) Family
- 2.A.3.2: The Basic Amino Acid/Polyamine Antiporter (APA) Family
- 2.A.3.3: The Cationic Amino Acid Transporter (CAT) Family
- 2.A.3.4: The Amino Acid/Choline Transporter (ACT) Family
- 2.A.3.5: The Ethanolamine Transporter (EAT) Family
- 2.A.3.6: The Archaeal/Bacterial Transporter (ABT) Family
- 2.A.3.7: The Glutamate:GABA Antiporter (GGA) Family
- 2.A.3.8: The L-type Amino Acid Transporter (LAT) Family (Many LAT family members function as heterooligomers with rBAT and/or 4F2hc (TC #8.A.9))
- 2.A.3.9: The Spore Germination Protein (SGP) Family
- 2.A.3.10: The Yeast Amino Acid Transporter (YAT) Family
- 2.A.3.11: The Aspartate/Glutamate Transporter (AGT) Family
- 2.A.3.12: The Polyamine:H+ Symporter (PHS) Family
- 2.A.3.13: The Amino Acid Efflux (AAE) Family
- 2.A.3.14: The Unknown APC-1 (U-APC1) Family
- 2.A.3.15: The Unknown APC-2 (U-APC2) Family
Maps APC Family
Structure and Function
Based on 3-D structures of APC superfamily members, Rudnick (2011) has proposed the pathway for transport and suggested a "rocking bundle" mechanism.
Transport Reactions
Transport reactions generally catalyzed by APC Superfamily members include:
-
- Solute:proton symport
Solute (out) + nH+ (out) -> Solute (in) + nH+ (in).
-
- Solute:solute antiport
Solute-1 (out) + Solute-2 (in) ? Solute-1 (in) + Solute-2 (out).
See also
- APC Superfamily
- Transporter Classification Database
- Membrane transport protein
References
Source of the article : Wikipedia
0 Comments