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Genetic incorporation of a photo-crosslinkable amino acid reveals novel protein complexes with GRB2 in mammalian cells.

Journal of molecular biology (2010-12-28)
Nobumasa Hino, Masaaki Oyama, Aya Sato, Takahito Mukai, Fumie Iraha, Akiko Hayashi, Hiroko Kozuka-Hata, Tadashi Yamamoto, Shigeyuki Yokoyama, Kensaku Sakamoto
RÉSUMÉ

Cell signaling pathways are essentially organized through the distribution of various types of binding domains in signaling proteins, with each domain binding to specific target molecules. Although identification of these targets is crucial for mapping the pathways, affinity-based or copurification methods are insufficient to distinguish between direct and indirect interactions in a cellular context. In the present study, we developed another approach involving the genetic encoding of a photo-crosslinkable amino acid. p-Trifluoromethyl-diazirinyl-l-phenylalanine was thus incorporated at a defined site in the Src homology 2 (SH2) domain of the adaptor protein GRB2 in human embryonic kidney cells. These cells were exposed to 365-nm light after an epidermal growth factor stimulus, and the crosslinkable GRB2-SH2 domain exclusively formed covalent bonds with directly interacting proteins. Proteomic mass spectrometry analysis identified these direct binders of GRB2-SH2 separately from the proteins noncovalently bound to the Src homology 3 domains of GRB2. In addition to two signaling-associated proteins (GIT1 and AF6), the heterogeneous nuclear ribonucleoproteins F, H1, and H2 were thus identified as novel direct binders. The results revealed a connection between the cell signaling protein and the nuclear machinery involved in mRNA processing, and demonstrated the usefulness of genetically encoded photo-crosslinkers for mapping protein-protein interactions in cells.

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H-L-Photo-Phe-OH, ≥98%