TIR predictor and optimizer: Web-tools for accurate prediction of translation initiation rate and precision gene design in Saccharomyces cerevisiae.

Autor: Chakarborty S; Department of Physics, Indian Institute of Technology Jammu, Jammu, India., Irshad IU; Department of Physics, Indian Institute of Technology Jammu, Jammu, India., Mahima; Department of Physics, Indian Institute of Technology Jammu, Jammu, India., Sharma AK; Department of Physics, Indian Institute of Technology Jammu, Jammu, India.; Department of Biosciences and Bioengineering, Indian Institute of Technology Jammu, Jammu, India.
Jazyk: angličtina
Zdroj: Biotechnology journal [Biotechnol J] 2024 May; Vol. 19 (5), pp. e2400081.
DOI: 10.1002/biot.202400081
Abstrakt: Translation initiation is the primary determinant of the rate of protein production. The variation in the rate with which this step occurs can cause up to three orders of magnitude differences in cellular protein levels. Several mRNA features, including mRNA stability in proximity to the start codon, coding sequence length, and presence of specific motifs in the mRNA molecule, have been shown to influence the translation initiation rate. These molecular factors acting at different strengths allow precise control of in vivo translation initiation rate and thus the rate of protein synthesis. However, despite the paramount importance of translation initiation rate in protein synthesis, accurate prediction of the absolute values of initiation rate remains a challenge. In fact, as of now, there is no available model for predicting the initiation rate in Saccharomyces cerevisiae. To address this, we train a machine learning model for predicting the in vivo initiation rate in S. cerevisiae transcripts. The model is trained using a diverse set of mRNA transcripts, enabling the comparison of initiation rates across different transcripts. Our model exhibited excellent accuracy in predicting the translation initiation rate and demonstrated its effectiveness with both endogenous and exogenous transcripts. Then, by combining the machine learning model with the Monte-Carlo search algorithm, we have also devised a method to optimize the nucleotide sequence of any gene to achieve a specific target initiation rate. The machine learning model we've developed for predicting translation initiation rates, along with the gene optimization method, are deployed as a web server. Both web servers are accessible for free at the following link: ajeetsharmalab.com/TIRPredictor. Thus, this research advances our fundamental understanding of translation initiation processes, with direct applications in biotechnology.
(© 2024 Wiley‐VCH GmbH.)
Databáze: MEDLINE