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* denotes equal contribution
† denotes Nirody as corresponding / co-corresponding author

Loosely defined research areas: Molecular motors and mechanobiology, Bacterial motility and mechanics, Panarthropod walking, Locomotion in complex environments, Structure-function relationships in biomechanical systems, Mathematical biology and biophysics.


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ATP synthase: evolution, energetics, and membrane interactions.
Jasmine A Nirody†, Itay Budin, Padmini Rangamani.
Journal of General Physiology, 2020.
[ Journal ] [ arXiv ]
Relevant research areas: Molecular motors and mechanobiology, Mathematical biology and biophysics.

Load-dependent adaptation near zero load in the bacterial flagellar motor.
Jasmine A Nirody†, Ashley L. Nord, Richard M. Berry.
Journal of the Royal Society Interface, 2019.
[ Journal ] [ arXiv ] [ Code ]
Relevant research areas: Molecular motors and mechanobiology, Bacterial flagellar mechanics, Motility in complex environments, Mathematical biology and biophysics.

A catch-bond drives stator mechanosensitivity in the bacterial flagellar motor.
Ashley L. Nord, Emilie Gachon, Ruben Perez-Carrasco, Jasmine A. Nirody, Alessandro Barducci, Richard M. Berry, Francesco Pedaci.
Proceedings of the National Academy of Sciences, 2017.
[ Journal ] [ bioRxiv ]
Relevant research areas: Molecular motors and mechanobiology, Bacterial motility and mechanics, Locomotion in complex environments, Mathematical biology and biophysics.

The biophysicist's guide to the bacterial flagellar motor.
Jasmine A. Nirody, Yi-Ren Sun, Chien-Jung Lo.
Advances in Physics X, 2017.
[ Online First ]
Relevant research areas: Molecular motors and mechanobiology, Bacterial motility and mechanics, Mathematical biology and biophysics.

The limiting speed of the bacterial flagellar motor.
Jasmine A. Nirody†, Richard M. Berry, George Oster.
Biophysical Journal, 2016.
[ Journal ] [ arXiv ]
Relevant research areas: Molecular motors and mechanobiology, Bacterial motility and mechanics, Mathematical biology and biophysics.

Mechanics of torque generation in the bacterial flagellar motor.
Kranthi K. Mandadapu*, Jasmine A. Nirody*, Richard M. Berry, George Oster.
Proceedings of the National Academy of Sciences, 2015.
[ Journal ] [ arXiv ]
Coverage: [ SIAM Connect ]
Relevant research areas: Molecular motors and mechanobiology, Bacterial motility and mechanics, Structure-function relationships in biomechanical systems, Mathematical biology and biophysics.

Structural implications of conserved aspartate residues located in tropomyosin's coiled-coil core.
Jeffrey R. Moore, Xiaochuan Li, Jasmine Nirody, William Lehman.
BioArchitecture, 2011.
[ Journal ] [ Biophysics 2010 Abstract ]
Relevant research areas: Molecular motors and mechanobiology, Structure-function relationships in biomechanical systems, Mathematical biology and biophysics.