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View article: Ionic strength alters crosslinker‐driven self‐organization of microtubules
Ionic strength alters crosslinker‐driven self‐organization of microtubules Open
The microtubule cytoskeleton is a major structural element inside cells that directs self‐organization using microtubule‐associated proteins and motors. It has been shown that finite‐sized, spindle‐like microtubule organizations, called “t…
View article: Protein condensate fusion mapping using Hippopede curve
Protein condensate fusion mapping using Hippopede curve Open
Protein and nucleic acid condensation in cells has been a major focus of biophysical studies in recent years. Such droplets, condensates, or membraneless cellular organelles that form by condensation have been shown to behave like liquid o…
View article: Interplay of self-organization of microtubule asters and crosslinking protein condensates Data
Interplay of self-organization of microtubule asters and crosslinking protein condensates Data Open
Data sets from all figures and supplemental figures for manuscript entitled "Interplay of self-organization of microtubule asters and crosslinking protein condensates" accepted at PNAS Nexus.
View article: Interplay of self-organization of microtubule asters and crosslinking protein condensates Data
Interplay of self-organization of microtubule asters and crosslinking protein condensates Data Open
Data sets from all figures and supplemental figures for manuscript entitled "Interplay of self-organization of microtubule asters and crosslinking protein condensates" accepted at PNAS Nexus.
View article: Interplay of self-organization of microtubule asters and crosslinking protein condensates
Interplay of self-organization of microtubule asters and crosslinking protein condensates Open
The cytoskeleton is a major focus of physical studies to understand organization inside cells given its primary role in cell motility, cell division, and cell mechanics. Recently, protein condensation has been shown to be another major int…
View article: Spatially controlled microtubule nucleation and organization from crosslinker MAP65 condensates
Spatially controlled microtubule nucleation and organization from crosslinker MAP65 condensates Open
Microtubule organization in cells is essential for the internal structure and coordination of events of intracellular transport, mitosis, and cell motility. For many cell types, microtubule organization is dominated by centrosomal nucleati…
View article: Self-Assembly of Microtubule Tactoids
Self-Assembly of Microtubule Tactoids Open
The cytoskeleton is responsible for major internal organization and re-organization within the cell, all without a manager to direct the changes. This is especially the case during mitosis or meiosis, where the microtubules form the spindl…
View article: Crowder and surface effects on self-organization of microtubules
Crowder and surface effects on self-organization of microtubules Open
Microtubules are an essential physical building block of cellular systems. They are organized using specific crosslinkers, motors, and influencers of nucleation and growth. With the addition of antiparallel crosslinkers, microtubule self-o…
View article: Self-Organization of Spindle-Like Microtubule Structures
Self-Organization of Spindle-Like Microtubule Structures Open
Microtubule self-organization is an important physical process underlying a number of essential cellular functions including cell division. In cell division, the dominant organization is the mitotic spindle, a football-shaped microtubule o…