Cassi Estrem scite author profile

Changes in an animal's behavior and internal state are accompanied by widespread changes in activity across its brain. However, how neurons across the brain encode behavior and how this is impacted by state is poorly understood. We recorded brain-wide activity and the diverse motor programs of freely-moving C. elegans and built probabilistic models that explain how each neuron encodes quantitative features of the animal's behavior. By determining the identities of the recorded neurons, we created, for the first time, an atlas of how the defined neuron classes in the C. elegans connectome encode behavior. Many neuron classes have conjunctive representations of multiple behaviors. Moreover, while many neurons encode current motor actions, others encode recent actions. Changes in behavioral state are accompanied by widespread changes in how neurons encode behavior, and we identify these flexible nodes in the connectome. Our results provide a global map of how the cell types across an animal's brain encode its behavior.

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High-resolution Imaging and Analysis of Individual Astral Microtubule Dynamics in Budding Yeast

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Estrem

Moore

2017

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Dynamic microtubules are fundamental to many cellular processes, and accurate measurements of microtubule dynamics can provide insight into how cells regulate these processes and how genetic mutations impact regulation. The quantification of microtubule dynamics in metazoan models has a number of associated challenges, including a high microtubule density and limitations on genetic manipulations. In contrast, the budding yeast model offers advantages that overcome these challenges. This protocol describes a method to measure the dynamics of single microtubules in living yeast cells. Cells expressing fluorescently tagged tubulin are adhered to assembled slide chambers, allowing for stable time-lapse image acquisition. A detailed guide for high-speed, four-dimensional image acquisition is also provided, as well as a protocol for quantifying the properties of dynamic microtubules in confocal image stacks. This method, combined with conventional yeast genetics, provides an approach that is uniquely suited for quantitatively assessing the effects of microtubule regulators or mutations that alter the activity of tubulin subunits.

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High-resolution Imaging and Analysis of Individual Astral Microtubule Dynamics in Budding Yeast

Fees

Estrem

Moore

2017

JoVE

View full text Add to dashboard Cite

show abstract

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Cassi Estrem

Dynein is regulated by the stability of its microtubule track

Brain-wide representations of behavior spanning multiple timescales and states inC. elegans

High-resolution Imaging and Analysis of Individual Astral Microtubule Dynamics in Budding Yeast

High-resolution Imaging and Analysis of Individual Astral Microtubule Dynamics in Budding Yeast

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