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Identifying A- and P-site locations on ribosome-protected mRNA fragments using Integer Programming

Published version
Peer-reviewed

Type

Article

Change log

Authors

Sormanni, Pietro 
Ciryam, Prajwal 
Vendruscolo, Michele  ORCID logo  https://orcid.org/0000-0002-3616-1610
Dobson, Christopher 

Abstract

Identifying the A- and P-site locations on ribosome-protected mRNA fragments from Ribo-Seq experiments is a fundamental step in the quantitative analysis of transcriptome-wide translation properties at the codon level. Many analyses of Ribo-Seq data have utilized heuristic approaches applied to a narrow range of fragment sizes to identify the A-site. In this study, we use Integer Programming to identify A-site by maximizing an objective function that reflects the fact that the ribosome’s A-site on ribosome-protected fragments must reside between the second and stop codons of an mRNA. This identifies the A-site location as a function of the fragment’s size and its 5□ end reading frame in Ribo-Seq data generated from S. cerevisiae and mouse embryonic stem cells. The correctness of the identified A-site locations is demonstrated by showing that this method, as compared to others, yields the largest ribosome density at established stalling sites. By providing greater accuracy and utilization of a wider range of fragment sizes, our approach increases the signal-to-noise ratio of underlying biological signals associated with translation elongation at the codon length scale.

Description

Keywords

31 Biological Sciences, 3102 Bioinformatics and Computational Biology, Stem Cell Research, Genetics, Stem Cell Research - Embryonic - Non-Human, 15 Life on Land

Journal Title

Conference Name

Journal ISSN

2692-8205

Volume Title

Publisher

Cold Spring Harbor Laboratory