Stalling of Transcription by Putative G-quadruplex Sequences and CRISPR-dCas9

• Published in: bioRxiv : the preprint server for biology
• Main Authors: Hoque, Mohammed Enamul, Kabir, Mohammad Lutful, Shiekh, Sajad, Balci, Hamza, Basu, Soumitra
• Format: Journal Article
• Language: English
• Published: United States 17.03.2024

Putative G-quadruplex forming sequences (PQS) have been identified in promoter sequences of prominent genes that are implicated among others in cancer and neurological disorders. We explored mechanistic aspects of CRISPR-dCas9-mediated gene expression regulation, which is transient and sequence specific unlike alternative approaches that lack such specificity or create permanent mutations, using the PQS in tyrosine hydroxylase ( ) and promoters as model systems. We performed ensemble and single molecule investigations to study whether G-quadruplex (GQ) structures or dCas9 impede T7 RNA polymerase (RNAP) elongation process and whether orientation of these factors is significant. Our results demonstrate that dCas9 is more likely to block RNAP progression when the non-template strand is targeted. While the GQ in promoter was effectively destabilized when the dCas9 target site partially overlapped with the PQS, the GQ remained folded and stalled RNAP elongation. We also determined that a minimum separation between the transcription start site and the dCas9 target site is required for effective stalling of RNAP by dCas9. Our study provides significant insights about the factors that impact dCas9-mediated transcription regulation when dCas9 targets the vicinity of sequences that form secondary structures and provides practical guidelines for designing guide RNA sequences.