† 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 biologyLevel of biological organization considered: Molecular 🧬 | Tissue 🦴 | Single-celled organism 🦠 | Multi-cellular organism 🐜
Filtered by category: Mathematical and computational biology
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Stability analysis in spatial modeling of cell signaling Michael C. Getz, Jasmine A. Nirody, Padmini Rangamani
WIRES Systems Biology, 2018
[ Journal ]
Relevant research areas: Mathematical and computational biology
Level of organization: Molecular 🧬
Exploiting pallidal plasticity for stimulation in Parkinson's disease.
Marcel A.J. Lourens, Bettina C. Schwab, Jasmine A. Nirody, Hil G.E. Meijer, Stephan A. van Gils.
Journal of Neural Engineering, 2015.
[ Journal ] [ CNS 2011 Abstract ] [ CNS 2013 Abstract ]
Relevant research areas: Mathematical and computational biology
Level of organization: Tissue 🦴
diCal-IBD: demography aware detection of identity-by-descent in unrelated individuals.
Paula Tataru*, Jasmine A. Nirody*, Yun S. Song
Bioinformatics, 2014
[ Journal ] [ bioRxiv ] [ Software: diCal-IBD ]
Relevant research areas: Mathematical and computational biology
Level of organization: Molecular 🧬
Development of spatial coarse-to-fine processing in the visual pathway.
Jasmine A. Nirody†
Journal of Computational Neuroscience, 2014
[ Journal ] [ arXiv ] [ CNS 2013 Abstract ] [ MATLAB Code ]
Relevant research areas: Mathematical and computational biology
Level of organization: Tissue 🦴
Analysis of unstable behavior in a mathematical model for erythropoiesis
Susana Serna, Jasmine A. Nirody, Miklós Z. Rácz
Journal of Mathematical Biology, 2013
[ Journal ]
Relevant research areas: Mathematical and computational biology
Level of organization: Molecular 🧬