Sandbox Aryan 20221057 BI3323-Aug2025
From Proteopedia
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| - | # | + | ## Cas9-Nucleosome Complex (PDB: 8YNY) |
| + | |||
| + | Cas9-sgRNA ribonucleoprotein targets linker DNA (PAM1/PAM28) and entry-exit regions (SHL6) of nucleosomes, avoiding tightly wrapped core DNA (SHL0-5), as revealed by native-PAGE on Widom 601 nucleosomes. The cryo-EM structure (PDB: **8YNY**, 4.52 Å, EMDB: EMD-39431) captures the post-cleavage ternary complex at PAM1, with ~15 bp DNA peeled from the histone octamer, exposing H3 N-terminus.[1][2][8][11] | ||
| + | |||
| + | ## Key Interactions | ||
| + | |||
| + | Cas9's PI domain (residues ~1100-1368) mediates contacts: electrostatic histone tail interactions (non-essential), PI edge lysine K1155 stabilizing the complex, and core DNA loops (H1264, R1298, K1300) causing inhibitory non-specific binding. Mutants disrupting PI-core DNA contacts enhance in vitro cleavage and rice genome editing.[2][11][1] | ||
| + | |||
| + | ## Biological Insights | ||
| + | |||
| + | Nucleosomes inhibit Cas9 via DNA end inflexibility (access barrier) and PI domain trapping (motion restriction), with entry-exit asymmetry from sequence-dependent flexibility. This explains eukaryotic adaptation and guides chromatin-optimized Cas9 variants.[3][6][11] | ||
| + | |||
| + | ## Updated PyMOL Scripts for Proteopedia (PDB: 8YNY) | ||
| + | |||
| + | **Image 1: Overall complex (DNA unwrapping)** | ||
| + | ``` | ||
| + | fetch 8YNY; color chain H3 blue, H4 green, H2A yellow, H2B red; | ||
| + | color chain A magenta, Cas9 orange; show cartoon, Cas9 sgRNA DNA; | ||
| + | show surface, histones; distance hbond (Cas9.K1155), (DNA); | ||
| + | orient; ray 1200,1000; png 8YNY_unwrap.png | ||
| + | ``` | ||
| + | |||
| + | |||
| + | **Image 2: PI domain-core DNA contacts** | ||
| + | ``` | ||
| + | select PI, resi 1100-1368; orient PI; | ||
| + | show sticks, PI and resi 1155+1264+1298+1300; color red, those; | ||
| + | distance hbond (PI.R1298), (DNA); surface DNA and core; | ||
| + | ray 1200,1000; png 8YNY_PI_contacts.png | ||
| + | ``` | ||
| + | |||
| + | |||
| + | **Image 3: Key mutant sites** | ||
| + | ``` | ||
| + | show spheres, resi 1155+1264+1298+1300; color orange, those; | ||
| + | hide everything; show cartoon; label those, "%s%r:%s"; | ||
| + | ray 1200,1000; png 8YNY_mutants.png | ||
| + | ``` | ||
| + | |||
| + | Aryan, BI3323-Aug2025 | ||
| + | |||
| + | [1](https://www.rcsb.org/structure/8YNY) | ||
| + | [2](https://pdbj.org/mine/summary/8YNY) | ||
| + | [3](https://pubmed.ncbi.nlm.nih.gov/39737984/) | ||
| + | [4](https://rna.bgsu.edu/rna3dhub/pdb/8YNY) | ||
| + | [5](https://swissmodel.expasy.org/repository/uniprot/Q99ZW2) | ||
| + | [6](https://www.nature.com/articles/s41467-024-54768-z) | ||
| + | [7](https://nakb.org/atlas=8YNY) | ||
| + | [8](https://www.ebi.ac.uk/emdb/EMD-39431) | ||
| + | [9](https://www.emdataresource.org/EMD-39431) | ||
| + | [10](https://pdbj.org/search/pdb-author?query=%22Kurumizaka%2C+H.%22) | ||
| + | [11](https://ppl-ai-file-upload.s3.amazonaws.com/web/direct-files/attachments/53439927/6101bbe1-6927-494e-9e78-84ebfeb259b9/Structural_insights_into_how_Cas9_targets_nucleoso.pdf) | ||
| + | [12](https://pmc.ncbi.nlm.nih.gov/articles/PMC6842131/) | ||
Revision as of 16:16, 30 November 2025
- Cas9-Nucleosome Complex (PDB: 8YNY)
Cas9-sgRNA ribonucleoprotein targets linker DNA (PAM1/PAM28) and entry-exit regions (SHL6) of nucleosomes, avoiding tightly wrapped core DNA (SHL0-5), as revealed by native-PAGE on Widom 601 nucleosomes. The cryo-EM structure (PDB: **8YNY**, 4.52 Å, EMDB: EMD-39431) captures the post-cleavage ternary complex at PAM1, with ~15 bp DNA peeled from the histone octamer, exposing H3 N-terminus.[1][2][8][11]
- Key Interactions
Cas9's PI domain (residues ~1100-1368) mediates contacts: electrostatic histone tail interactions (non-essential), PI edge lysine K1155 stabilizing the complex, and core DNA loops (H1264, R1298, K1300) causing inhibitory non-specific binding. Mutants disrupting PI-core DNA contacts enhance in vitro cleavage and rice genome editing.[2][11][1]
- Biological Insights
Nucleosomes inhibit Cas9 via DNA end inflexibility (access barrier) and PI domain trapping (motion restriction), with entry-exit asymmetry from sequence-dependent flexibility. This explains eukaryotic adaptation and guides chromatin-optimized Cas9 variants.[3][6][11]
- Updated PyMOL Scripts for Proteopedia (PDB: 8YNY)
- Image 1: Overall complex (DNA unwrapping)**
``` fetch 8YNY; color chain H3 blue, H4 green, H2A yellow, H2B red; color chain A magenta, Cas9 orange; show cartoon, Cas9 sgRNA DNA; show surface, histones; distance hbond (Cas9.K1155), (DNA); orient; ray 1200,1000; png 8YNY_unwrap.png ```
- Image 2: PI domain-core DNA contacts**
``` select PI, resi 1100-1368; orient PI; show sticks, PI and resi 1155+1264+1298+1300; color red, those; distance hbond (PI.R1298), (DNA); surface DNA and core; ray 1200,1000; png 8YNY_PI_contacts.png ```
- Image 3: Key mutant sites**
``` show spheres, resi 1155+1264+1298+1300; color orange, those; hide everything; show cartoon; label those, "%s%r:%s"; ray 1200,1000; png 8YNY_mutants.png ```
Aryan, BI3323-Aug2025
[1](https://www.rcsb.org/structure/8YNY) [2](https://pdbj.org/mine/summary/8YNY) [3](https://pubmed.ncbi.nlm.nih.gov/39737984/) [4](https://rna.bgsu.edu/rna3dhub/pdb/8YNY) [5](https://swissmodel.expasy.org/repository/uniprot/Q99ZW2) [6](https://www.nature.com/articles/s41467-024-54768-z) [7](https://nakb.org/atlas=8YNY) [8](https://www.ebi.ac.uk/emdb/EMD-39431) [9](https://www.emdataresource.org/EMD-39431) [10](https://pdbj.org/search/pdb-author?query=%22Kurumizaka%2C+H.%22) [11](https://ppl-ai-file-upload.s3.amazonaws.com/web/direct-files/attachments/53439927/6101bbe1-6927-494e-9e78-84ebfeb259b9/Structural_insights_into_how_Cas9_targets_nucleoso.pdf) [12](https://pmc.ncbi.nlm.nih.gov/articles/PMC6842131/)
