2020
DOI: 10.3389/fmolb.2020.00039
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Spontaneous Embedding of DNA Mismatches Within the RNA:DNA Hybrid of CRISPR-Cas9

Abstract: CRISPR-Cas9 is the forefront technology for editing the genome. In this system, the Cas9 protein is programmed with guide RNAs to process DNA sequences that match the guide RNA forming an RNA:DNA hybrid structure. However, the binding of DNA sequences that do not fully match the guide RNA can limit the applicability of CRISPR-Cas9 for genome editing, resulting in the so-called off-target effects. Here, molecular dynamics is used to probe the effect of DNA base pair mismatches within the RNA:DNA hybrid in CRISP… Show more

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Cited by 33 publications
(46 citation statements)
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“…This theoretical structure enabled to initiate in-depth studies of the catalysis ( Palermo, 2019 ; Casalino et al, 2020 ), the allostery ( Palermo et al, 2017 ; East et al, 2020 ; Nierzwicki et al, 2020 ) and the system’s specificity ( Mitchell et al, 2020 ; Ricci et al, 2019 ), when no structural information on the active state was available. This helped obtaining information to improve the enzyme catalytic efficiency and to reduce off-target effects, which is a key goal for biomedical applications ( Fu et al, 2013 ).…”
Section: Capturing Transitions and Short-lived Conformational Statesmentioning
confidence: 99%
“…This theoretical structure enabled to initiate in-depth studies of the catalysis ( Palermo, 2019 ; Casalino et al, 2020 ), the allostery ( Palermo et al, 2017 ; East et al, 2020 ; Nierzwicki et al, 2020 ) and the system’s specificity ( Mitchell et al, 2020 ; Ricci et al, 2019 ), when no structural information on the active state was available. This helped obtaining information to improve the enzyme catalytic efficiency and to reduce off-target effects, which is a key goal for biomedical applications ( Fu et al, 2013 ).…”
Section: Capturing Transitions and Short-lived Conformational Statesmentioning
confidence: 99%
“…This clarified how REC3 could act as an allosteric regulator of HNH by “sensing” the RNA:DNA hybrid, as hypothesized previously 17,18 . MD studies also focused on the effect of DNA mismatches within the RNA:DNA heteroduplex, reaching upstream positions with respect to PAM distal ends 64 . Couples of base‐pair mismatches were introduced starting from the PAM distal ends up to the middle of the 20 base pairs RNA:DNA structure (i.e., at position 10).…”
Section: Role Of Allostery In the Onset Of Off‐target Effectsmentioning
confidence: 61%
“…We show that allostery intervenes during at least three steps of the CRISPR-Cas9 function, affecting DNA recognition, 13,15 mediating the cleavage 16,17 and interfering with the off-target activity. 18,19,64 At first, the binding of the PAM recognition sequence was found not only to be necessary to initiate DNA unwinding, but is also critical for the activation of the distally spaced nuclease domains HNH and RuvC. 13,15 The concerted DNA cleavages governed by this PAM-mediated allosteric signaling were found to pass through the L1/L2 loops, which act as "allosteric transducers" that connect the HNH and RuvC catalytic domains.…”
Section: Discussionmentioning
confidence: 99%
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“…In addition, a number of biophysical experiments highlighted that not only PAM proximal but also PAM distal mismatches can strongly inhibit off-target cleavage. The proposed mechanism for this intriguing phenomenon is a balance shift in the HNH domain toward an inactive state (Chen et al, 2017;Dagdas et al, 2017;Ricci et al, 2019;Mitchell et al, 2020). After binding of the target DNA and establishment of the RNA:DNA hybrid at the on-target, the HNH domain flips from an RNA-bound state to an inactive state and then rapidly into a docked-state that enables cleavage (Dagdas et al, 2017).…”
Section: Introductionmentioning
confidence: 99%