Debapriya Tula scite author profile

Debapriya Tula

5Publications

19Citation Statements Received

24Citation Statements Given

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Affiliations

Tata Consultancy Services (India), International Institute of Information Technology, Hyderabad

Publications

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Incorporation of transition to transversion ratio and nonsense mutations, improves the estimation of the number of synonymous and non-synonymous sites in codons

Aziz

Sen

Beura

et al. 2022

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A common approach to estimate the strength and direction of selection acting on protein codingsequences is to calculate the dN/dS ratio. The method to calculate dN/dS has been widely used by many researchers and many critical reviews have been made on its application after the proposition by Nei and Gojobori in 1986. However, the method is still evolving considering the non-uniform substitution rates and pretermination codons. In our study of SNPs in 586 genes across 156 Escherichia coli strains, synonymous polymorphism in two-fold degenerate codons were higher in comparison to that in four-fold degenerate codons, which could be attributed to the difference between transition (Ti) and transversion (Tv) substitution rates where the average rate of a transition is four times more than that of a transversion in general. We considered both the Ti/Tv ratio, and nonsense mutation in pretermination codons, to improve estimates of synonymous (S) and non-synonymous (NS) sites. The accuracy of estimating dN/dS has been improved by considering the Ti/Tv ratio and nonsense substitutions in pretermination codons. We showed that applying the modified approach based on Ti/Tv ratio and pretermination codons results in higher values of dN/dS in 29 common genes of equal reading-frames between Escherichia coli and Salmonella enterica. This study emphasizes the robustness of amino acid composition with varying codon degeneracy, as well as the pretermination codons when calculating dN/dS values.

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Offence Detection in Dravidian Languages Using Code-Mixing Index-Based Focal Loss

et al. 2022

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Estimating RNA Secondary Structure by Maximizing Stacking Regions

Sen

Tula

Ray

et al. 2020

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Offense Detection in Dravidian Languages using Code-Mixing Index based Focal Loss

Tula¹,

MS²,

Reddy³

et al. 2021

Preprint

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Target Aware Network Architecture Search and Compression for Efficient Knowledge Transfer

Basha¹,

Tula²,

Vinakota³

et al. 2022

Preprint

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Debapriya Tula

Incorporation of transition to transversion ratio and nonsense mutations, improves the estimation of the number of synonymous and non-synonymous sites in codons

Offence Detection in Dravidian Languages Using Code-Mixing Index-Based Focal Loss

Estimating RNA Secondary Structure by Maximizing Stacking Regions

Offense Detection in Dravidian Languages using Code-Mixing Index based Focal Loss

Target Aware Network Architecture Search and Compression for Efficient Knowledge Transfer

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