Microtubule Motility Analysis based on Time-Lapse Fluorescence Microscopy
| Autor: | Masoudi, Samira, Wright, Cameron H. G., Gatlin, Jesse C., Oakey, John. S. |
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| Rok vydání: | 2019 |
| Předmět: | |
| Zdroj: | journal of Biomedical Sciences Instrumentation, vol 52, pages 126--133, April 2016, published by ISAs |
| Druh dokumentu: | Working Paper |
| Popis: | This paper describes an investigation into part of the mechanical mechanisms underlying the formation of mitotic spindle, the cellular machinery responsible for chromosomal separation during cell division. In normal eukaryotic cells, spindles are composed of microtubule filaments that radiate outward from two centrosomes. In many transformed cells, however, centrosome number is misregulated resulting in cells with more than two centrosomes. Addressing the question of how these cells accommodate these additional structures by coalescing supernumerary centrosomes to form normal spindles will provide a powerful insight toward understanding the proliferation of cancer cells and developing new therapeutics. The process of centrosome coalescence is thought to involve motor proteins that function to slide microtubules relative to one another. Here we use in vitro motility assays combined with fluorescence microscopy to visualize, characterize and quantify microtubule-microtubule interactions. After segmenting the microtubules, their speed and direction of movement are the extracted features to cluster their interaction type. In order to evaluate the potential of our processing algorithm, we created a simulated dataset similar to the time-lapse series. Once our procedure has been optimized using the simulated data, we will apply it to the real data. Results of our analyses will provide a quantitative description of interaction among microtubules. This is a potentially important step toward more thorough understanding of cancer. Comment: 11 pages, 3 figures, conference paper |
| Databáze: | arXiv |
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