18. Manjunath, LE, Singh, A, Kumar SD, Vasu K, Kar, D, Sellamuthu, K, Eswarappa, SM. Transcript-specific induction of stop codon readthrough using a CRISPR-dCas13 system. EMBO Reports https://www.embopress.org/doi/full/10.1038/s44319-024-00115-8 (2023)

17. Kar D, Manna D, Manjunath LE, Singh A, Som S, Vasu K, Eswarappa SM. Kinetics of Translating Ribosomes Determine the Efficiency of Programmed Stop Codon Readthrough. Journal of Molecular Biology https://www.sciencedirect.com/science/article/pii/S0022283623003856 (2023)

16. Pandit, M, Akhtar, MN, Sundaram, S, Sahoo, S, Manjunath, LE, Eswarappa, SM. Termination codon readthrough of NNAT mRNA regulates calcium-mediated neuronal differentiation. Journal of Biological Chemistry https://www.jbc.org/article/S0021-9258(23)02212-3/fulltext (2023)

15. Manjunath, LE, Singh, A, Kar, D, Sellamuthu, K, Eswarappa, SM. Transcript-specific induction of stop codon readthrough using CRISPR-dCas13 system. BioRxiv https://www.biorxiv.org/content/10.1101/2023.03.08.531701v1 (2023)

14. Sahoo S, Singh D, Singh A, Pandit M, Vasu K, Som S, Pullagurla NJ, Laha D, Eswarappa SM. Identification and functional characterization of mRNAs that exhibit stop codon readthrough in Arabidopsis thaliana. Journal of Biological Chemistry 10.1016/j.jbc.2022.102173 (2022)

13. Kumar SD, Kar D, Akhtar MN, Willard B, Roy D, Hussain T, Rajyaguru PI, Eswarappa SM. Evidence for low-level translation in human erythrocytes. Molecular Biology of the Cell 10.1091/mbc.E21-09-0437 (2022)

12. Manjunath LE, Singh A, Som S, Eswarappa SM. Mammalian proteome expansion by stop codon readthrough. WIREs RNA 10.1002/wrna.1739 (2022)

11. Afsar M, Narayan R, Akhtar MN, Das D, Rahil H, Nagaraj SK, Eswarappa SM, Tripathi S, Hussain T. Drug targeting Nsp1-ribosomal complex shows antiviral activity against SARS-CoV-2. eLife 11:e74877 (2022)

 10. Manjunath LE, Singh A, Sahoo S, Mishra A, Padmarajan J, Basavaraju CG, Eswarappa SM. Stop codon readthrough of mammalian MTCH2 leading to an unstable isoform regulates mitochondrial membrane potential. Journal of Biological Chemistry 295(50):17009-17026 (2020)   

09. Suma HR, Prakash S, Eswarappa SM. Naturally occurring fluorescence protects the eutardigrade Paramacrobiotus sp. from ultraviolet radiation. Biology Letters 16: 20200391 (2020) 

08. Kar D, Sellamuthu K, Kumar SD, Eswarappa SM. Induction of Translational Readthrough across the Thalassemia-Causing Premature Stop Codon in β-Globin-Encoding mRNA. Biochemistry 59:80-84 (2020)

07. Vasu K and Eswarappa SM. Diabetes and evolution. Current Science 117:1403-1404 (2019) 

06. Singh A, Manjunath LE, Kundu P, Sahoo S, Das A, Suma HR, Fox PL and Eswarappa SM. Let-7a- regulated translational readthrough of mammalian AGO1 generates a microRNA pathway inhibitor. The EMBO Journal e100727  (2019)

05. Eswarappa SM*, Potdar AA, Sahoo S, Sankar S, Fox PL*. Metabolic origin of the fused aminoacyl tRNA synthetase, glutamyl-prolyl tRNA synthetase. Journal of Biological Chemistry 49:19148-19156  (2018); [*Co-corresponding author]

04. Sundaram S, Sellamuthu K, Nagavelu K, Suma HR, Das A, Narayan R, Chakravortty D, Gopalan J*, Eswarappa SM*. Stimulation of angiogenesis using single-pulse low-pressure shock wave treatment. Journal of Molecular Medicine (Berlin, Germany) 11:1177–1187  (2018); [* Co-corresponding author]

03. Pal M, Somalwar N, Singh A, Bhat R, Eswarappa SM , Saini DK, Ghosh A. Maneuverability of Magnetic Nanomotors Inside Living Cells. Advanced Materials 30:e1800429 (2018)

02. Singh N, Geethika M, Eswarappa SM , Mugesh G. Manganese-based Nanozymes: Multienzyme Redox Activity and Effect on the Nitric Oxide Produced by Endothelial Nitric Oxide Synthase. Chemistry 24:8393-8403 (2018)

01. Suma HR, Eswarappa SM . Emerging field of tardigrades and their stress tolerance. Current Science 115:902-903 (2017)