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(Received for publication, September 22, 1995; and in revised form, December 1, 1995) We have investigated the highly conserved GAUCA sequence of
small subunit ribosomal RNA. Within this region, the invariant
nucleotides G1530 and A1531 of Escherichia coli 16 S rRNA were
mutagenized to A1530/G1531. These base changes caused a lethal
phenotype when expressed from a high copy number plasmid. In low copy
number plasmids, the mutant ribosomes had limited effects when
expressed in vivo but caused significant deficiencies in
translation in vitro, affecting enzymatic tRNA binding,
non-enzymatic tRNA binding, subunit association, and initiation factor
3 (IF3) binding. Mutant 30 S ribosomal subunits showed a 10-fold
decrease in affinity for IF3 as compared to wild-type subunits but
showed an increased affinity for IF3 when in 70 S ribosomes.
Additionally, IF3 did not promote dissociation of 70 S ribosomes, which
had mutated subunits as monitored by light-scattering experiments.
However, extension inhibition experiments (toeprinting) showed that IF3
retained its ability to discriminate between initiator and elongator
tRNAs on mutated subunits. The results indicate that the two functions
of IF3, tRNA discrimination and subunit dissociation, are separable and
that the invariant nucleotides are important for correct subunit
function during initiation.
Volume 271,
Number 9,
Issue of March 1, 1996 pp. 4693-4698
©1996 by The American Society for Biochemistry and Molecular Biology, Inc.
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