Gaurav Aggarwal scite author profile

Incorporation of the 21st amino acid, selenocysteine, into proteins is specified in all three domains of life by dynamic translational redefinition of UGA codons. In eukarya and archaea, selenocysteine insertion requires a cis-acting selenocysteine insertion sequence (SECIS) usually located in the 3 0 UTR of selenoprotein mRNAs. Here we present comparative sequence analysis and experimental data supporting the presence of a second stop codon redefinition element located adjacent to a selenocysteine-encoding UGA codon in the eukaryal gene, SEPN1. This element is sufficient to stimulate high-level (6%) translational redefinition of the SEPN1 UGA codon in human cells. Readthrough levels further increased to 12% when tested in the presence of the SEPN1 3 0 UTR SECIS. Directed mutagenesis and phylogeny of the sequence context strongly supports the importance of a stem loop starting six nucleotides 3 0 of the UGA codon. Sequences capable of forming strong RNA structures were also identified 3 0 adjacent to, or near, selenocysteine-encoding UGA codons in the Sps2, SelH, SelO, and SelT selenoprotein genes.

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DMDexon 1 truncating point mutations: Amelioration of phenotype by alternative translation initiation in exon 6

Gurvich

Maiti

Weiss

et al. 2009

Hum. Mutat.

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Mutations in the DMD gene result in two common phenotypes associated with progressive muscle weakness: the more severe Duchenne Muscular Dystrophy (DMD) and the milder Becker Muscular Dystrophy (BMD). We have previously identified a nonsense mutation (c.9G>A; p.Trp3X) within the first exon of the DMD gene, encoding the unique N-terminus of the 427 kDa muscle isoform of the dystrophin protein. Although this mutation would be expected to result in severe disease, the clinical phenotype is very mild BMD, with ambulation preserved into the 7 th decade. We identify the molecular mechanism responsible for the amelioration of disease severity to be initiation of translation at two proximate AUG codons within exon 6. Analysis of large mutational data sets suggests that this may be a general mechanism of phenotypic rescue for point mutations within at least the first two exons of the DMD gene. Our results directly demonstrate, for the first time, the use of alternate translational initiation codons within the DMD gene, and suggest that dystrophin protein lacking amino acids encoded by the first five exons retains significant function.

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Puddling and N management effects on crop response in a rice-wheat cropping system

Aggarwal

Sidhu

Sekhon

et al. 1995

Soil and Tillage Research

112

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A recoding element that stimulates decoding of UGA codons by Sec tRNA^[Ser]Sec

Howard¹,

Moyle²,

Aggarwal³

et al. 2007

RNA

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Selenocysteine insertion during decoding of eukaryotic selenoprotein mRNA requires several trans-acting factors and a cis-acting selenocysteine insertion sequence (SECIS) usually located in the 39 UTR. A second cis-acting selenocysteine codon redefinition element (SRE) has recently been described that resides near the UGA-Sec codon of selenoprotein N (SEPN1). Similar phylogenetically conserved elements can be predicted in a subset of eukaryotic selenoprotein mRNAs. Previous experimental analysis of the SEPN1 SRE revealed it to have a stimulatory effect on readthrough of the UGA-Sec codon, which was not dependent upon the presence of a SECIS element in the 39 UTR; although, as expected, readthrough efficiency was further elevated by inclusion of a SECIS. In order to examine the nature of the redefinition event stimulated by the SEPN1 SRE, we have modified an experimentally tractable in vitro translation system that recapitulates efficient selenocysteine insertion. The results presented here illustrate that the SRE element has a stimulatory effect on decoding of the UGA-Sec codon by both the methylated and unmethylated isoforms of Sec tRNA [Ser]Sec , and confirm that efficient selenocysteine insertion is dependent on the presence of a 39-UTR SECIS. The variation in recoding elements predicted near UGA-Sec codons implies that these elements may play a differential role in determining the amount of selenoprotein produced by acting as controllers of UGA decoding efficiency.

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Gaurav Aggarwal

Notch Inhibits Expression of the Krüppel-Like Factor 4 Tumor Suppressor in the Intestinal Epithelium

Recoding elements located adjacent to a subset of eukaryal selenocysteine-specifying UGA codons

DMDexon 1 truncating point mutations: Amelioration of phenotype by alternative translation initiation in exon 6

Puddling and N management effects on crop response in a rice-wheat cropping system

A recoding element that stimulates decoding of UGA codons by Sec tRNA^[Ser]Sec

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Gaurav Aggarwal

Notch Inhibits Expression of the Krüppel-Like Factor 4 Tumor Suppressor in the Intestinal Epithelium

Recoding elements located adjacent to a subset of eukaryal selenocysteine-specifying UGA codons

DMDexon 1 truncating point mutations: Amelioration of phenotype by alternative translation initiation in exon 6

Puddling and N management effects on crop response in a rice-wheat cropping system

A recoding element that stimulates decoding of UGA codons by Sec tRNA[Ser]Sec

Contact Info

Product

Resources

About

A recoding element that stimulates decoding of UGA codons by Sec tRNA^[Ser]Sec