The paper tests whether RNA strand displacement can actively remove bound CRISPRi RNPs (dCas9 + guide RNA) from target DNA in an E. coli TXTL cell-free system, using engineered “removable guides” and antisense “removers”. It finds at best modest and protocol-dependent derepression, with results that are consistent with antisense blocking and not unambiguous displacement-mediated removal. The authors themselves conclude the evidence is not strong either for or against displacement.
Key signal: a ~75% fluorescence recovery is reported under a specific condition (synthetic sgRNA + removable guide + R40 remover) while other controls show substantial background derepression (often ~20–30%), making mechanism attribution difficult.
The design is: dCas9 binds a guide RNA; that RNP represses a deGFP reporter (CRISPRi). The guide is engineered with an added linear “displacement domain” (“removable sgRNA”, rsgRNA). A complementary antisense RNA (“remover”, R40 or R16) is expressed or supplied; the intended mechanism is post-hoc displacement of the bound RNP from the DNA–RNA hybrid region.
A central experimental challenge is that antisense binding can block RNP formation (pre-hoc), which can masquerade as displacement-mediated removal in a bulk fluorescence reporter.
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