TY - JOUR T1 - Data-Driven Prediction of CRISPR-Based Transcription Regulation for Programmable Control of Metabolic Flux JF - bioRxiv DO - 10.1101/119396 SP - 119396 AU - Jiayuan Sheng AU - Weihua Guo AU - Christine Ash AU - Brendan Freitas AU - Mitchell Paoletti AU - Xueyang Feng Y1 - 2017/01/01 UR - http://biorxiv.org/content/early/2017/03/22/119396.abstract N2 - Multiplex and multi-directional control of metabolic pathways is crucial for metabolic engineering to improve product yield of fuels, chemicals, and pharmaceuticals. To achieve this goal, artificial transcriptional regulators such as CRISPR-based transcription regulators have been developed to specifically activate or repress genes of interest. Here, we found that by deploying guide RNAs to target on DNA sites at different locations of genetic cassettes, we could use just one synthetic CRISPR-based transcriptional regulator to simultaneously activate and repress gene expressions. By using the pairwise datasets of guide RNAs and gene expressions, we developed a data-driven predictive model to rationally design this system for fine-tuning expression of target genes. We demonstrated that this system could achieve programmable control of metabolic fluxes when using yeast to produce versatile chemicals. We anticipate that this master CRISPR-based transcription regulator will be a valuable addition to the synthetic biology toolkit for metabolic engineering, speeding up the “design-build-test” cycle in industrial biomanufacturing as well as generating new biological insights on the fates of eukaryotic cells. ER -