PLoS ONE (Jan 2014)

Molecular dynamic simulation of the self-assembly of DAP12-NKG2C activating immunoreceptor complex.

  • Peng Wei,
  • Lida Xu,
  • Cheng-Dong Li,
  • Fu-De Sun,
  • Long Chen,
  • Tianwei Tan,
  • Shi-Zhong Luo

DOI
https://doi.org/10.1371/journal.pone.0105560
Journal volume & issue
Vol. 9, no. 8
p. e105560

Abstract

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The DAP12-NKG2C activating immunoreceptor complex is one of the multisubunit transmembrane protein complexes in which ligand-binding receptor chains assemble with dimeric signal-transducing modules through non-covalent associations in their transmembrane (TM) domains. In this work, both coarse grained and atomistic molecular dynamic simulation methods were applied to investigate the self-assembly dynamics of the transmembrane domains of the DAP12-NKG2C activating immunoreceptor complex. Through simulating the dynamics of DAP12-NKG2C TM heterotrimer and point mutations, we demonstrated that a five-polar-residue motif including: 2 Asps and 2 Thrs in DAP12 dimer, as well as 1 Lys in NKG2C TM plays an important role in the assembly structure of the DAP12-NKG2C TM heterotrimer. Furthermore, we provided clear evidences to exclude the possibility that another NKG2C could stably associate with the DAP12-NKG2C heterotrimer. Based on the simulation results, we proposed a revised model for the self-assembly of DAP12-NKG2C activating immunoreceptor complex, along with a plausible explanation for the association of only one NKG2C with a DAP12 dimer.