Constraints on reinitiation of translation in mammals

doi:10.1093/nar/29.24.5226

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Nucleic Acids Research, 2001, Vol. 29, No. 24 5226-5232
© 2001 Oxford University Press

Constraints on reinitiation of translation in mammals

Marilyn Kozak^*

Department of Biochemistry, Robert Wood Johnson Medical School, University of Medicine and Dentistry of New Jersey, 675 Hoes Lane, Piscataway, NJ 08854, USA

The efficiency of reinitiation in mammalian translation systemsdepends in part on the size and arrangement of upstream openreading frames (upORFs). The gradual decrease in reinitiationas an upORF is lengthened, confirmed here using a variety ofsequences, might reflect time-dependent loss of protein factorsrequired for reinitiation. Consistent with the idea that theduration of elongation is what matters, reinitiation was nearlyabolished when a pseudoknot that causes a pause in elongationwas inserted into a short upORF. Control experiments showedthat this transient pause in elongation had little effect onthe final protein yield when the pseudoknot was moved from theupORF into the main ORF. Thus, the deleterious effect of slowingelongation is limited to the reinitiation mode. Another aspectof reinitiation investigated here is whether post-terminationribosomes can scan backwards to initiate at AUG codons positionedupstream from the terminator codon. Earlier studies that raisedthis possibility may have been complicated by the occurrenceof leaky scanning along with reinitiation. Re-examination ofthe question, using constructs that preclude leaky scanning,shows barely detectable reinitiation from an AUG codon positioned4 nt upstream from the terminator codon and no detectable reinitiationfrom an AUG codon positioned farther upstream. These experimentscarried out with synthetic transcripts help to define the circumstancesunder which reinitiation may be expected to occur in the growingnumber of natural mRNAs that deviate from the simple first AUGrule.

^* Tel: +1 732 235 5355; Fax: +1 732 235 5356; Email: kozakma{at}umdnj.edu

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