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Spatially particle-based simulation of FAKY397 activation in integrin clusters

BC Bo Cheng
ML Min Lin

Last updated date: Sep 16, 2022 Views: 533 Forks: 0

original An abbreviated version of this protocol was published in Science Advances in Mar, 2020
Nanoscale integrin cluster dynamics controls cellular mechanosensing via FAKY397 phosphorylation
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Program I - for integrin clustering simulation (Fig.1 in paper)

 

Program II - To simulate the relationship between cluster lifetime and substrate stiffness (Fig.2 in paper)

 

Program III - To simulate the FAKY397 activation in integrin clusters (Fig.3 in paper)

 

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How to cite:
Readers should cite both the Bio-protocol preprint and the original research article where this protocol was used:
  1. Cheng, B and Lin, M(2022). Spatially particle-based simulation of FAKY397 activation in integrin clusters. Bio-protocol Preprint. bio-protocol.org/prep1944.
  2. Cheng, B., Wan, W., Huang, G., Li, Y., Genin, G. M., Mofrad, M. R. K., Lu, T. J., Xu, F. and Lin, M.(2020). Nanoscale integrin cluster dynamics controls cellular mechanosensing via FAKY397 phosphorylation. Science Advances 6(10). DOI: 10.1126/sciadv.aax1909

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