Y. Ben-asouli et al., Recognition of 5 '-terminal TAR structure in human immunodeficiency virus-1 mRNA by eukaryotic translation initiation factor 2, NUCL ACID R, 28(4), 2000, pp. 1011-1018
TAR, a 59 nt 5'-terminal hairpin in human immunodeficiency virus 1 (HIV-1)
mRNA, binds viral Tat and several cellular proteins, We report that eukaryo
tic translation initiation factor 2 (elF2) recognizes TAR. TAR and the AUG
initiation codon domain, located well downstream from TAR, both contribute
to the affinity of HIV-1 mRNA for elF2, The affinity of TAR for elF2 was in
sensitive to lower stem mutations that modify sequence and structure or to
sequence changes throughout the remainder that leave the TAR secondary stru
cture intact, Hence, elF2 recognizes structure rather than sequence in TAR.
The affinity for elF2 was severely reduced by a 3 nt change that converts
the single A bulge into a 7 nt internal loop. T1 footprinting showed that e
lF2 protects nucleotides in the loop as well as in the strand opposite the
A bulge, Thus, elF2 recognizes the TAR loop and lower part of the sub-apica
l stem, Though not contiguous, these regions are brought into proximity in
TAR by a bend in the helical structure induced by the UCU bulge; binding of
elF2 opens up the bulge context and apical stem. The ability to bind elF2
suggests a function for TAR in HIV-1 mRNA translation, Indeed, the 3 nt cha
nge that reduces the affinity of TAR for elF2 impairs the ability of report
er mRNA to compete in translation, Interaction of TAR with elF2 thus allows
HIV-1 mRNA to compete more effectively during protein synthesis.