User:Wally Novak/Sandbox Brown

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Revision as of 02:03, 11 October 2016

Introduction

Cas9 is a large multifunctional protein that plays a central role in the CRISPR-Cas adaptive defense mechanism found in a vast amount of bacteria and archaea ^[1]. It accomplishes this through the use of antisense RNAs which serve as signatures from past viral invasions ^[2]. The adaptive immunity occurs in three stages: insertion of invading DNA into CRISPR locus, transcription of precursor crRNA from CRISPR locus that will be used to generate crRNA that matches its target sequence for 20 nucleotides, and crRNA-directed cleavage of foreign nucleic acids by cas9. PAM (protospacer adjacent motif) sequences must be present adjacent to the crRNA-targeted sequence to be cleaved ^[1]. In addition to the crRNA, cas9 incoporates another RNA chain that serves to anchor the crRNA to the protein. This tracrRNA is partially complimentary to a piece of the crRNA and interacts with an arginine-rich alpha helix to anchor both pieces of RNA to cas 9 ^[3]. Just in the last few years, this defensive mechanism and the cas9 protein has been used to develop genome engineering applications. TracrRNA:crRNA has been replaced by an engineered single guide RNA (sgRNA) that maintains the two main features of the RNA: the complementary 20-nucleotide long sequence at the 5' end and the double-stranded anchor at the 3' end to bind to cas9 ^[1]. The programmable cas9 protein is then used to create double-stranded breaks in genomic DNA, at which points the genetic sequence could then be altered.

Overall Structure

The cas9 protein complex has a seahorse shaped structure that is composed of 11 cas subunits. Cascade (CRISPR-associated complex for antiviral defense) is from the type-I CRISPR-cas system, and the crystal structure of this surveillance complex gives insight into the overall structure. (IMAGE) The body is comprised of six subunits (Cas7.1-7.6) wrapped around the crRNA in a helical filament with a dimer of Cse2 in the center ^[4]. The head of the Cas7 body is capped by Cas6e and the 3' end of the crRNA while the 5' end and Cas5 cap the tail. The N-terminal end of Cse1 is also at the tail and the C-terminal end contains a bundle of 4 helices that contact Cse2.2. The Cse2 dimer, Cas7 filament, and four-helix bundle of Cse1 form a groove immediately next to guide region of the crRNA. This is where the ssDNA target fits into the complex ^[4].

Protein-substrate conformations

The groove in which the ssDNA target fits mentioned above is not formed until cas9 undergoes a conformational change upon association with a target dsDNA. The arginine-rich alpha helix to which tracrRNA binds serves as a hinge between the structural lobes of the overall structure. The conformational change is thought to take part in the R-loop formation that unwinds the target dsDNA and allows for interactions between crRNA and its complementary section ^[1].

References

↑ ^1.0 ^1.1 ^1.2 ^1.3 Doudna JA, Charpentier E. Genome editing. The new frontier of genome engineering with CRISPR-Cas9. Science. 2014 Nov 28;346(6213):1258096. doi: 10.1126/science.1258096. PMID:25430774 doi:http://dx.doi.org/10.1126/science.1258096
↑ Makarova KS, Grishin NV, Shabalina SA, Wolf YI, Koonin EV. A putative RNA-interference-based immune system in prokaryotes: computational analysis of the predicted enzymatic machinery, functional analogies with eukaryotic RNAi, and hypothetical mechanisms of action. Biol Direct. 2006 Mar 16;1:7. PMID:16545108 doi:http://dx.doi.org/10.1186/1745-6150-1-7
↑ Deltcheva E, Chylinski K, Sharma CM, Gonzales K, Chao Y, Pirzada ZA, Eckert MR, Vogel J, Charpentier E. CRISPR RNA maturation by trans-encoded small RNA and host factor RNase III. Nature. 2011 Mar 31;471(7340):602-7. doi: 10.1038/nature09886. PMID:21455174 doi:http://dx.doi.org/10.1038/nature09886
↑ ^4.0 ^4.1 Mulepati S, Heroux A, Bailey S. Crystal structure of a CRISPR RNA-guided surveillance complex bound to a ssDNA target. Science. 2014 Aug 14. pii: 1256996. PMID:25123481 doi:http://dx.doi.org/10.1126/science.1256996

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Wally Novak

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 The cas9 protein complex has a seahorse shaped structure that is composed of 11 cas subunits. Cascade (CRISPR-associated complex for antiviral defense) is from the type-I CRISPR-cas system, and the crystal structure of this surveillance complex gives insight into the overall structure. ('''IMAGE''') The body is comprised of six subunits (Cas7.1-7.6) wrapped around the crRNA in a helical filament with a dimer of Cse2 in the center <ref name='four'>DOI 10.1126/science.1256996</ref>. The head of the Cas7 body is capped by Cas6e and the 3' end of the crRNA while the 5' end and Cas5 cap the tail. The N-terminal end of Cse1 is also at the tail and the C-terminal end contains a bundle of 4 helices that contact Cse2.2. The Cse2 dimer, Cas7 filament, and four-helix bundle of Cse1 form a groove immediately next to guide region of the crRNA. This is where the ssDNA target fits into the complex <ref name='four'/>.
-== Active Site Structure ==
+== Protein-substrate conformations ==
+The groove in which the ssDNA target fits mentioned above is not formed until cas9 undergoes a conformational change upon association with a target dsDNA. The arginine-rich alpha helix to which tracrRNA binds serves as a hinge between the structural lobes of the overall structure. The conformational change is thought to take part in the R-loop formation that unwinds the target dsDNA and allows for interactions between crRNA and its complementary section <ref name='one'/>.
 </StructureSection>
 == References ==
 <references/>

User:Wally Novak/Sandbox Brown

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Revision as of 02:03, 11 October 2016

Introduction

Overall Structure

Protein-substrate conformations

References

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