SMG-2 Is a Phosphorylated Protein Required for mRNA Surveillance in Caenorhabditis elegans and Related to Upf1p of Yeast

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Molecular and Cellular Biology, September 1999, p. 5943-5951, Vol. 19, No. 9
0270-7306/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.

SMG-2 Is a Phosphorylated Protein Required for mRNA Surveillance in Caenorhabditis elegans and Related to Upf1p of Yeast

Michelle F. Page,¹ Brian Carr,¹^, Kirk R. Anders,²^, Andrew Grimson,² and Philip Anderson¹^,²^,^*

Department of Genetics¹ and Program in Cell and Molecular Biology,² University of Wisconsin, Madison, Wisconsin 53706

Received 5 October 1998/Returned for modification 18 November 1998/Accepted 25 May 1999

mRNAs that contain premature stop codons are selectively degraded in all eukaryotes tested, a phenomenon termed "nonsense-mediatedmRNA decay" (NMD) or "mRNA surveillance." NMD may function toeliminate aberrant mRNAs so that they are not translated, becausesuch mRNAs might encode deleterious polypeptide fragments. Inboth yeasts and nematodes, NMD is a nonessential system. Mutationsaffecting three yeast UPF genes or seven nematode smg genes eliminateNMD. We report here the molecular analysis of smg-2 of Caenorhabditiselegans. smg-2 is homologous to UPF1 of yeast and to RENT1 (alsocalled HUPF1), a human gene likely involved in NMD. The strikingconservation of SMG-2, Upf1p, and RENT1/HUPF1 in both sequenceand function suggests that NMD is an ancient system, predatingthe divergence of most eukaryotes. Despite similarities in thesequences of SMG-2 and Upf1p, expression of Upf1p in C. elegansdoes not rescue smg-2 mutants. We have prepared anti-SMG-2 polyclonalantibodies and identified SMG-2 on Western blots. SMG-2 is phosphorylated,and mutations of the six other smg genes influence the state ofSMG-2 phosphorylation. In smg-1, smg-3, and smg-4 mutants, phosphorylationof SMG-2 was not detected. In smg-5, smg-6, and smg-7 mutants,a phosphorylated isoform of SMG-2 accumulated to abnormally highlevels. In smg-2(r866) and smg-2(r895) mutants, which harbor singleamino acid substitutions of the SMG-2 nucleotide binding site,phosphorylated SMG-2 accumulated to abnormally high levels, similarto those observed in smg-5, smg-6, and smg-7 mutants. We discussthese results with regard to the in vivo functions of SMG-2 andNMD.

^* Corresponding author. Mailing address: Department of Genetics, University of Wisconsin, 445 Henry Mall, Madison, WI 53706.Phone: (608) 263-8429. Fax: (608) 262-2976. E-mail: andersn{at}facstaff.wisc.edu.

Present address: Maxygen, Inc., Redwood City, CA94063.

Present address: Department of Genetics, Stanford University Medical Center, Stanford, CA94305.

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