Abstract / Description of output
N-myristoylation is a ubiquitous class of protein lipidation across eukaryotes and N-myristoyl transferase has been proposed as an attractive drug target in several pathogens. Functionally the myristate often primes for subsequent palmitoylation and stable membrane attachment, however, growing evidence also suggests additional regulatory roles for myristoylation on proteins. Here we describe the first global chemoproteomic screening of protein myristoylation in Toxoplasma gondii. Through quantitative mass spectrometry coupled with validated chemoproteomic tools, we identify 65 myristoylated proteins. We report functionally important myristoylation on the key signalling protein CDPK1 and, surprisingly, myristoylation of the microneme protein 7 (MIC7), a predicted type-I-transmembrane protein. We demonstrate that myristoylation of MIC7 is not important for the trafficking to micronemes, but appears to play a role in host cell invasion. This dataset represents a large fraction of the parasite’s myristoylated proteome and a prerequisite to investigate this modification in Toxoplasma.
Original language | English |
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Publisher | bioRxiv, at Cold Spring Harbor Laboratory |
DOIs | |
Publication status | Published - 30 Jul 2019 |