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The genetic basis for adaptation in giant sea anemones to their symbiosis with anemonefish and Symbiodiniaceae
A Barua (CA), R Kashimoto, K Khalturin, N Satoh, V Laudet bioRxiv (2023).link -
Co-Option of the Same Ancestral Gene Family Gave Rise to Mammalian and Reptilian Toxins.
A Barua, I Koludarov, AS Mikheyev
BMC Biology (2021).link -
An ancient, conserved gene regulatory network led to the rise of oral venom systems.
A Barua (CA), AS Mikheyev
Proceedings of the National Academy of Sciences 2021, 118,(14).link -
Toxin expression in snake venom evolves rapidly with constant shifts in evolutionary rates.
A Barua (CA), AS Mikheyev
Proceedings of the Royal Society B 2020, 287,(1926).link -
Many options, few solutions: over 60 My snakes converged on a few optimal venom formulations.
A Barua (CA), AS Mikheyev
Molecular biology and evolution 36 (9), 2019, 1964-1974.link -
Population genomic analysis of a pitviper reveals microevolutionary forces underlying venom chemistry.
SD Aird, J Arora, A Barua, L Qiu, K Terada, AS Mikheyev
Genome biology and evolution 9 (10), 2017, 2640-2649.link -
Antifungal activity of phyto-extracts of Piper longum, Aloe vera, and Withania somnifera against human fungal opportunistic pathogen Candida albicans.
H Kaur, RR Goyal, A Bhattacharya, R Gupta, NK Lal, B Arora, A Barua, …
DU Journal of Undergraduate Research and Innovation, 2015.link