ARC-1, a sequence element complementary to an internal 18S rRNA segment, enhances translation efficiency in plants when present in the leader or intercistronic region of mRNAs

doi:10.1093/nar/gkh176

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Published online 12 January 2004

Nucleic Acids Research, 2004, Vol. 32, No. 1 239-247
© 2004 Oxford University Press

ARC-1, a sequence element complementary to an internal 18S rRNA segment, enhances translation efficiency in plants when present in the leader or intercistronic region of mRNAs

R. Zh. Akbergenov, S. Sh. Zhanybekova, R. V. Kryldakov, A. Zhigailov, N. S. Polimbetova, T. Hohn^*^,1 and B. K. Iskakov

Institute of Molecular Biology and Biochemistry, 86, Dosmukhamedov Str., 480012, Almaty, Kazakhstan and ¹ Friedrich Miescher-Institute, PO Box 2543, CH-4002, Basel, Switzerland

*To whom correspondence should be addressed. Tel: +41 61 697 7266; Fax: +41 61 267 3502; Email: hohn{at}fmi.ch

The sequences of different plant viral leaders with known translationenhancer ability show partial complementarity to the centralregion of 18S rRNA. Such complementarity might serve as a meansto attract 40S ribosomal subunits and explain in part the translation-enhancingproperty of these sequences. To verify this notion, we designedß-glucuronidase (GUS) mRNAs differing only in thenature of 10 nt inserts in the center of their 41 base leaders.These were complementary to consecutive domains of plant 18SrRNA. Sucrose gradient analysis revealed that leaders with insertscomplementary to regions 1105–1114 and 1115–1124(‘ARC-1’) of plant 18S rRNA bound most efficientlyto the 40S ribosomal subunit after dissociation from 80S ribosomesunder conditions of high ionic strength, a treatment known toremove translation initiation factors. Using wheat germ cell-freeextracts, we could demonstrate that mRNAs with these leaderswere translated more than three times more efficiently thana control lacking such a complementarity. Three linked copiesof the insert enhanced translation of reporter mRNA to levelscomparable with those directed by the natural translation enhancingleaders of tobacco mosaic virus and potato virus Y RNAs. Moreover,inserting the same leaders as intercistronic sequences in dicistronicmRNAs substantially increased translation of the second cistron,thereby revealing internal ribosome entry site activity. Thus,for plant systems, the complementary interaction between mRNAleader and the central region of 18S rRNA allows cap-independentbinding of mRNA to the 43S pre-initiation complex without assistanceof translation initiation factors.

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