MAJOR histocompatibility complex (MHC) class I molecules present pepti
des from degraded intracellular antigens to CD8(+) T cells(1). These p
eptides are translocated in an ATP-dependent fashion(2-4) into the lum
en of the endoplasmic reticulum (ER) for binding to class I molecules(
5,6) by means of the MHC-encoded transporters associated with antigen
processing, TAP1 and TAP2. These are members of a family of proteins c
ontaining an ATP-binding cassette and form heterodimers in the ER memb
rane(7-10). Defects in the genes encoding TAP1 or TAP2 account for imp
aired class I assembly and antigen presentation in several human and r
odent cell lines(7,11-13). Whereas MHC class I molecules select peptid
es according to binding motifs(14-17), it is not clear to what extent
the TAP1-TAP2 transporters have peptide sequence and length specificit
y. Previous studies of the rat MHC class I molecule, RT1A(a), suggeste
d a specific conveyance of peptides by rat TAP1-TAP2 (ref. 18). Here w
e substitute the amino- and carboxy-terminal and the penultimate amino
-acid residues of model peptides to show that these residues influence
the efficiency of transport. Human TAP and rat TAP(a) translocated pe
ptides with hydrophobic and basic C termini, whereas mouse TAP and rat
TAP(u) preferred peptides with hydrophobic C termini. This pattern co
rrelates with the predominant peptide binding profiles of mouse and hu
man class I molecules.