Project description:Transcription preinitiation complex assembly on the promoters of protein encoding genes is nucleated in vivo by TFIID composed of the TATA-box Binding Protein (TBP) and 13 TBP-associate factors (Tafs) providing regulatory and chromatin binding functions. We used CXMS to study the organization and structure of the purified TFIID complex from Komagataella phaffii. Together with Cryo-EM, We confirm the unique subunit stoichiometry prevailing in TFIID and uncover a hexameric arrangement of Tafs containing a HF domain. Interaction with promoter DNA highlights two non-selective binding sites consistent with a DNA scanning mode.
Project description:The yeast Komagataella phaffii is a promising alternative host for manufacturing of therapeutic proteins. Deletion of unneeded endogenous proteins could increase the secreted titer of recombinant proteins by redirecting cellular resources. Genetic engineering in non-model hosts is hampered by limited annotation of genes, especially essential genes. In this study, we identified the set of endogenous secreted proteins in K. phaffii and attempted to disrupt these genes. We designed, transformed, and sequenced a pooled CRISPR-Cas9 knockout library to determine which genes are essential. With this knowledge, we rapidly disrupted up to 9 consecutive genes in K. phaffii. Engineered strains exhibited a ~20x increase in the production of human serum albumin and a 2x increase in the production of a monoclonal antibody. The pooled CRISPR-Cas9 library and knowledge of gene essentiality reported here will facilitate future efforts to engineer K. phaffii for production of other recombinant therapeutic proteins and enzymes.
