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An in-silico human cell model reveals the influence of spatial organization on RNA splicing
Zhaleh Ghaemi
, Joseph R. Peterson
,
Martin Gruebele
,
Zaida Luthey-Schulten
Chemistry
Physics
Beckman Institute for Advanced Science and Technology
Center for Advanced Study
Carl R. Woese Institute for Genomic Biology
Biomedical and Translational Sciences
Research output
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peer-review
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Dive into the research topics of 'An in-silico human cell model reveals the influence of spatial organization on RNA splicing'. Together they form a unique fingerprint.
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Keyphrases
In Silico
100%
Spatial Organization
100%
RNA Splicing
100%
Human Cell Models
100%
Nuclear Speckles
75%
HeLa Cells
50%
Eukaryotic Cells
50%
Membraneless Organelles
50%
Spatially Resolved
25%
Membrane Binding
25%
Production Rate
25%
Mammalian Cells
25%
Cellular Processes
25%
Chemical Processes
25%
Nuclear Pore Complex
25%
Particle Localization
25%
Specific Types
25%
Cellular Compartments
25%
Compartmentalization
25%
Genome Organization
25%
Eukaryotes
25%
Spatial Modeling
25%
Stochastic Simulation
25%
Spatiotemporal Heterogeneity
25%
Biogenesis
25%
Crowding Effect
25%
Biological Time
25%
Splicing Machinery
25%
Flexible Foundation
25%
Chemical Reaction Networks
25%
Non-membrane-bound Organelles
25%
Splicing Process
25%
Subcompartment
25%
Biochemistry, Genetics and Molecular Biology
RNA Splicing
100%
Messenger RNA
100%
Nuclear Pore Complex
25%
Genome Organization
25%
Eukaryote
25%
Biogenesis
25%