Accurate 3′ End Processing and Adenylation of Human Signal Recognition Particle RNA and Alu RNA in Vitro

Yahua Chen,Krishna Sinha,Karthika Perumal,Jian Gu,Ram Reddy

doi:10.1074/jbc.273.52.35023

Yahua Chen, Krishna Sinha + Show 3 more

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https://doi.org/10.1074/jbc.273.52.35023

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Abstract

Human signal recognition particle (SRP) RNA is transcribed by RNA polymerase III and terminates with -GUCUCUUUUOH on its 3' end. Our previous studies showed that the three terminal uridylic acid residues of human SRP RNA are post-transcriptionally removed and a single adenylic acid residue is added, resulting in a 3' end sequence of -GUCUCUAOH (Sinha, K. M., Gu, J., Chen, Y., and Reddy, R. (1998) J. Biol. Chem. 273, 6853-6859). In this study we show that the Alu RNA, corresponding to the 5' and 3' ends of SRP RNA, is also accurately processed and adenylated in vitro. Alu RNAs containing 7 or 11 additional nucleotides on the 3' end were accurately processed and then adenylated. Deletion analysis showed that an 87-nucleotide-long motif comprising of the 5' and 3' ends, including stem IV of the Alu RNA, is sufficient and necessary for the 3' end processing and adenylation. A 73-nucleotide-long construct with deletion of stem IV, required for the binding of SRP 9/14-kDa proteins, was neither processed nor adenylated. The adenylated Alu RNA as well as adenylated SRP RNA were bound to the SRP 9/14-kDa heterodimer and were immunoprecipitated by specific antibodies. A significant fraction of SRP RNA in the nucleoli was found to be processed and adenylated. These data are consistent with nascent SRP and/or Alu RNAs first binding to SRP 9/14-kDa protein heterodimer, followed by the removal of extra sequence on the 3' end and then the addition of one adenylic acid residue in the nucleus, before transport into the cytoplasm.

Highlights

The signal recognition particle plays an important role in translocation of membrane proteins and secretory proteins (Refs. 11–16; reviewed in Refs. 13–15)
Adenylation of signal recognition particle (SRP) RNA and Alu RNA in Vitro—We showed previously that SRP RNA present in the HeLa cell extract gets adenylated when incubated in the presence of [␣-32P]ATP (Ref. 10; see Fig. 1, lane 1)
The main observation made during this investigation is that an 87-nucleotide-long region, corresponding to the 5Ј and 3Ј regions out of the 300-nucleotide-long mammalian SRP RNA, is necessary and sufficient for accurate 3Ј end processing and adenylation

Summary

Introduction

The signal recognition particle plays an important role in translocation of membrane proteins and secretory proteins (Refs. 11–16; reviewed in Refs. 13–15). Deletion analysis showed that the minimal domain necessary for migration from the nucleoplasm to the nucleolus is an 86-nucleotide-long domain including 5Ј end, 3Ј end, stem III, and stem IV in the Alu portion of SRP RNA [32] These studies show that the SRP motif involved in binding 9/14-kDa protein heterodimer and migration from nucleoplasm via the nucleolus on its way to cytoplasm is the same [30, 32]. Like domain of SRP RNA has multiple functions in the biogenesis of SRP RNA, including binding of 9/14-kDa protein heterodimer, 3Ј end processing, adenylation, and migration to the nucleolus on its way to the cytoplasm

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