doi: 10.1371/journal.pone.0215140.
eCollection 2019.
Crystal structure of the SH3 domain of human Lyn non-receptor tyrosine kinase
Affiliations
- PMID: 30969999
- PMCID: PMC6457566
- DOI: 10.1371/journal.pone.0215140
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Crystal structure of the SH3 domain of human Lyn non-receptor tyrosine kinase
PLoS One.
.
Abstract
Lyn kinase (Lck/Yes related novel protein tyrosine kinase) belongs to the family of Src-related non-receptor tyrosine kinases. Consistent with physiological roles in cell growth and proliferation, aberrant function of Lyn is associated with various forms of cancer, including leukemia, breast cancer and melanoma. Here, we determine a 1.3 Å resolution crystal structure of the polyproline-binding SH3 regulatory domain of human Lyn kinase, which adopts a five-stranded β-barrel fold. Mapping of cancer-associated point mutations onto this structure reveals that these amino acid substitutions are distributed throughout the SH3 domain and may affect Lyn kinase function distinctly.
Conflict of interest statement
The authors have declared that no competing interests exist.
Figures
A. Ribbons representation of the Lyn SH3 domain highlights the canonical β-barrel. The structure is colored by crystallographic temperature factor. B. 2Fo−Fc electron density map contoured at 2.0 σ and rendered around Y74, W99 and P114. These residues contribute to the binding site for the polyproline motif [36] and are critical for protein-protein interactions.
A. Overlay of the X-ray structure with the NMR structure. The Lyn SH3 crystal structure is colored in blue and the NMR structures in grey. The RMSD value is 0.93 Å for all Cα atoms. B. Comparison of the crystal structure of the unliganded Lyn SH3 domain with the NMR structure with peptide bound. Top view of the polyproline binding pocket of the X-ray crystal structure of the Lyn SH3 domain. The highlighted residues are in different conformations than observed in the peptide-bound NMR structure. C. Overlay of the unliganded X-ray crystal structure of unliganded SH3 domain (blue) with peptide-bound NMR structure (grey). The peptide is shown in red. Side chain rotations are indicated by arrows.
A. Mutations of 18 out of the 61 amino acids of the Lyn SH3 domain were identified by genome sequencing of patients with the indicated types of cancer [–25]. The table separates these mutations into likely-transformative and likely non-transformative, based upon prior computational analysis [58]. B. Locations of the likely transformative cancer-associated mutations are shown in red. Locations of the likely non-transformative substitutions are shown in green.
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