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

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Loosely defined research area: Molecular motors | Bacterial motility and mechanics | Panarthropod locomotion and behavior | Movement through complex environments | Structure-function relationships in biomechanical systems | Mathematical and computational biology

Level of biological organization considered: Molecular 🧬 | Tissue 🦴 | Single-celled organism 🦠 | Multi-cellular organism 🐜


Filtered by level: Single-celled organism 🦠

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Bacterial motility patterns vary smoothly with spatial confinement and disorder
Haibei Zhang*, Miles T. Wetherington*, Hungtang Ko, Cody E. FitzGerald, Leone Luzzato, István Kovács, Edwin M. Munro, Jasmine A Nirody†
Submitted
[ bioRxiv ] [ APS 2024 abstract ]

Relevant research areas: Bacterial motility and mechanics | Movement through complex environments
Level of organization: Single-celled organism 🦠

Evolutionarily diverse fungal zoospores show contrasting swimming patterns specific to ultrastructure
Luis Javier Galindo, Thomas A. Richards, Jasmine A Nirody†
Current Biology, 2024
[ Journal ] [ bioRxiv ] [ Motility Data + Code ] [ Raw Images + Videos ] [Phylogenetic Datasets ]

Relevant research areas: Movement through complex environments | Structure-function relationships in biomechanical systems
Level of organization: Single-celled organism 🦠

Cell arrangement impacts metabolic activity and antibiotic tolerance in Pseudomonas aeruginosa biofilms
Hannah Dayton, Julie Kiss, Mian Wei, Shradha Chauhan, Emily LaMarre, William Cole Cornell, Anuradha Janakiraman, Wei Min, Raju Tomer, Alexa Price-Whelan, Jasmine A Nirody, Lars EP Dietrich
PloS Biology, 2024
[ Journal ] [ bioRxiv ] [ Analysis Code ] || [Columbia | AAAS | Science Daily | Other Press ]

Relevant research areas: Bacterial motility and mechanics
Level of organization: Single-celled organism 🦠