Pamila Sharma scite author profile

Expression of viral proteins frequently includes non-canonical decoding events (‘recoding’) during translation. ‘2A’ oligopeptides drive one such event, termed ‘stop-carry on’ recoding. Nascent 2A peptides interact with the ribosomal exit tunnel to dictate an unusual stop codon-independent termination of translation at the final Pro codon of 2A. Subsequently, translation ‘reinitiates’ on the same codon, two individual proteins being generated from one open reading frame. Many 2A peptides have been identified, and they have a conserved C-terminal motif. Little similarity is present in the N-terminal portions of these peptides, which might suggest that these amino acids are not important in the 2A reaction. However, mutagenesis indicates that identity of the amino acid at nearly all positions of a single 2A peptide is important for activity. Each 2A may then represent a specific solution for positioning the conserved C-terminus within the peptidyl-transferase centre to promote recoding. Nascent 2A peptide:ribosome interactions are suggested to alter ribosomal fine structure to discriminate against prolyl-tRNAPro and promote termination in the absence of a stop codon. Such structural modifications may account for our observation that replacement of the final Pro codon of 2A with any stop codon both stalls ribosome processivity and inhibits nascent chain release.

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Dissection of a co-translational nascent chain separation event

Doronina

Felipe

et al. 2008

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Some RNA and protein sequences are capable of directing changes to the course of translation from that expected from the mRNA sequence, and this process is termed translational 'recoding'. 'CHYSEL' peptides are approximately 19-amino-acid sequences found in many viral genomes. When translated at internal portions of polypeptides, they yield co-translational separation of the nascent chain at their C-termini. We dissected the reaction promoted by CHYSEL sequences using yeast genetics and in vitro translation systems. Our results indicate that the reaction occurs within the peptidyltransferase centre of the ribosome where the nascent chain is hydrolytically released from tRNA despite the presence of further sense codons.

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Orchestrating ribosomal activity from inside: effects of the nascent chain on the peptidyltransferase centre

Yan

Doronina

Sharma

et al. 2010

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Ribosomal progression through the open reading frames within mRNAs is frequently considered as uneventful when compared with the highly regulated initiation step. However, both RNA and nascent peptide can interact with the ribosome to influence how translation proceeds and can modify gene expression in several ways. 2A peptides are a class of sequences that, as nascent chains, pause ribosomes and drive a translation-termination reaction on a sense (proline) codon, followed by continued downstream translation. In the present paper, what is known about the 2A reaction is discussed, and 2A is compared with other sequences that, as nascent peptides, pause or stall translation.

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Monitoring lithium treatment.

Sharma¹

1992

BMJ

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useful quick test of functional iron deficiency, but we agree with Macdougall and colleagues that further studies are required. Meanwhile, adequate oral supplements (about 300 mg/day of elemental iron) should be given; parenteral iron, with its attendant problems, should be reserved for those who cannot, or will not, take oral iron. The serum ferritin concentration should be measured monthly until the target haemoglobin concentration is achieved, followed by estimations every two to three months thereafter.

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Pamila Sharma

2A peptides provide distinct solutions to driving stop-carry on translational recoding

Dissection of a co-translational nascent chain separation event

Orchestrating ribosomal activity from inside: effects of the nascent chain on the peptidyltransferase centre

Monitoring lithium treatment.

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