* 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 category: Structure-Function Relationships in Biomechanical systems
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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 🦠

Quantifying vascularity in the frontoparietal dome of Stegoceras validum (Dinosauria: Pachycephalosauridae) from high resolution CT scans
Jasmine A Nirody, Mark B. Goodwin, John R. Horner, Tony L. Huynh, Matthew W. Colbert, David K. Smith, David C. Evans
Journal of Vertebrate Paleontology, 2022
[ Journal ] [GSA Abstract ] [ Data + Code ]
Relevant research areas: Structure-function relationships in biomechanical systems
Level of organization: Tissue 🦴

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 | Bacterial motility and mechanics | Structure-function relationships in biomechanical systems
Level of organization: Molecular 🧬

Cortical bone laminar analysis reveals increased midcortical and periosteal porosity in type 2 postmenopausal women with history of fragility fractures compared to fracture-free diabetes
Ursula Heilmeier, Karen Cheng, Robin Parrish, Courtney Pasco, Jasmine Nirody, Janina Patsch, Chiyuan A. Zhang, Gabby B. Joseph, Andrew J. Burghardt, Ann V. Schwartz, Thomas M. Link, Galateia J. Kazakia.
Osteoporosis International, 2016.
[ Journal ]
Relevant research areas: Structure-function relationships in biomechanical systems
Level of organization: Tissue 🦴

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 ] || [ SIAM Connect ]
Relevant research areas: Molecular motors | Bacterial motility and mechanics | Structure-function relationships in biomechanical systems
Level of organization: Molecular 🧬

Spatial distribution of intracortical porosity varies with age and sex.
Jasmine A. Nirody, Karen P. Cheng, Robin M. Parrish, Andrew J. Burghardt, Thomas Link, Sharmila Majumdar, Galateia J. Kazakia.
Bone, 2015.
[ Journal ]
Relevant research areas: Structure-function relationships in biomechanical systems
Level of organization: Tissue 🦴

The influence of disuse on bone microstructure and mechanics assessed by HR-pQCT
Galateia J. Kazakia, Willy Tjong, Jasmine A. Nirody, Andrew J. Burghardt, Julio Carballido-Gamio, Janina M. Patsch, Thomas Link, Brian T. Feeley, C. Benjamin Ma
Bone, 2014
[ Journal ]
Relevant research areas: Structure-function relationships in biomechanical systems
Level of organization: Tissue 🦴

Structural analysis of cortical porosity applied to HR-pQCT data
Willy Tjong, Jasmine Nirody , Andrew J. Burghardt, Julio Carballido-Gamio, Galateia J. Kazakia
Medical Physics, 2014
[ Journal ]
Relevant research areas: Structure-function relationships in biomechanical systems
Level of organization: Tissue 🦴

Age- and gender-related differences in cortical geometry and microstructure in the distal radius and tibia: improved sensitivity by regional analysis
Galateia J. Kazakia, Jasmine A. Nirody, Gregory Bernstein, Miki Sode, Andrew J. Burghardt, Sharmila Majumdar
Bone, 2013
[ Journal ]
Relevant research areas: Structure-function relationships in biomechanical systems
Level of organization: Tissue 🦴

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 | Structure-function relationships in biomechanical systems
Level of organization: Molecular 🧬