CRISPR/Cas9 for advanced DNA and RNA editing
Transcript of CRISPR/Cas9 for advanced DNA and RNA editing
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CRISPR/Cas9 for advanced DNA and RNA editing
Tobias Kind FiehnLab
West Coast Metabolomics Center
UC Davis Genome Center
http://fiehnlab.ucdavis.edu/staff/kind
January 2015
Pictures: Wikipedia and pixabay.com
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CRISPR/Cas9
Or The Emperor's
New Clothes?
Juggernaut
Nobel Prize
Disruptive Technology
Paradigm shift Holy Grail of GE
Pictures: Wikipedia and Pixabay
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The triumvirate of genome editing
CRISPR/Cas9
Zinc Finger
Read: Gaj, Gersbach, Barbas III: Trends in Biotechnology, July 2013, Vol. 31, No. 7
TALEN
AAV
Mega nucleases
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Why is CRISPR/Cas9 better?
SPEED/Price
Accuracy/Specificity
Simplicity
CRISPR/Cas9
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CRISPR/Cas9 speed generation of transgenic mice
6 month (conventional)
1 month (CRISPR/Cas9)
Figures: Ran et al Nature Protocols 8, 2281–2308 (2013): Genome engineering using the CRISPR-Cas9 system and Fujihara & Ikawaw: Methods Enzymol. 2014;546:319-36.: CRISPR/Cas9-Based Genome Editing in Mice by Single Plasmid Injection
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CRISPR loci and Cas nuclease nomenclature
CRISPR/Cas9
CRISPR: Clustered Regularly Interspaced Palindromic Repeats Loci in 40% of bacteria and 90% of archaea Cas9: CRISPR associated protein 9 a nuclease, an enzyme specialized for cutting DNA Cas1..Cas10 exist CRISPR/CAS: type I, type II and type III
gRNA: guide RNA – a construct/chimera of CRISPR RNA (crRNA) and trans-activating CRISPR RNA (tracrRNA)
PAM: protospacer adjacent motif with sequence NGG (any, guanine, guanine) specific to Streptococcus pyogenes and 5′-NAG (any, adenine, guanine) PAM tolerated in human cells
Figures: WIKI and HZI/Rohde
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Endogenous DNA repair mechanisms
Figure: Hsu, Lander, Zhang: Development and Applications of CRISPR-Cas9 for Genome Engineering; Cell 157, June 5, 2014
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VIDEO: Genome Editing with CRISPR-Cas9
Source: McGovern Institute for Brain Research at MIT; https://www.youtube.com/watch?v=2pp17E4E-O8
Click to watch
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CRISPR/Cas9 process includes a targeted double strand break
Figure: Storrs; A CRISPR Fore-Cas-t; (2014) The Scientist magazine; http://www.the-scientist.com/?articles.view/articleNo/39239/title/A-CRISPR-Fore-Cas-t/
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CRISPR/Cas the immune system of bacteria
Figures: Bhaya et al., Annu. Rev. Genet. 2011. 45:273-97 and Horvath: Science (2010) Vol. 327; 167-170: CRISPR/Cas, the Immune System of Bacteria and Archaea Text: Singh et al: A Mouse Geneticist’s Practical Guide to CRISPR Applications; Genetics. 2015 Jan; 199(1): 1–15.
(1) acquisition of foreign DNA (2) synthesis and maturation of CRISPR RNA (crRNA) followed by formation of RNA-Cas nuclease protein complexes (3) target recognition by crRNA and destruction of foreign DNA by Cas nuclease cleavage
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Programmable DNA scissors
Source: lbl.gov; Programmable DNA scissors: A double-RNA structure in the bacterial immune system has been discovered that directs Cas9 protein to cleave and destroy invading DNA at specific nucleotide sequences. This same dual RNA structure should be programmable for genome editing. (Image by H. Adam Steinberg, artforscience.com)
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RNA editing with CRISPR/Cas9 using RCas9
Figure and text: Connell & Doudna et al: Programmable RNA recognition and cleavage by CRISPR/Cas9; Nature (2014) 516, 263–266 http://www.nature.com/nature/journal/v516/n7530/full/nature13769.html
RNA-guided Cas9 cleaves single stranded RNA (ssRNA) targets in the presence of a short PAMpresenting DNA oligonucleotide (PAMmer) Requires only synthesis of a matching gRNA and complementary PAMmer and does not require affinity tags
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Who are the actors in the
CRISPR/Cas9 patent war?
*** Patents, Business, Legacy
Picture: Pixabay and MS Office
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Timeline
Figure: Hsu, Lander, Zhang: Development and Applications of CRISPR-Cas9 for Genome Engineering; Cell 157, June 5, 2014
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Main Actors in CRISPR/CAS9 patent war*
(*) Ignores many other researchers and inventors, such as George Church (Harvard), Philippe Horvath, Rodolphe Barrangou (Danisco/Dupont)
Photo sources: Investigator websites
Read: Antonio Regalado @ Technologyreview.com: Who Owns the Biggest Biotech Discovery of the Century?
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WIPO Patents for CRISPR 2015 by country, applicant and inventor
Source: http://patentscope.wipo.int/search
Rows are not related
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Companies
Harvard, Broad, ERS LIC Broad LIC Broad LIC Broad, Caribou LIC Broad LIC
Broad LIC
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Application examples
Source: Hsu, Lander, Zhang: Development and Applications of CRISPR-Cas9 for Genome Engineering; Cell 157, June 5, 2014
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Problems, problems, problems
Variable DNA cleavage efficiencies
Off-target effects and unintended DNA cleavage
inter- and intrachromosomal rearrangement
Chen et al. Dual sgRNA-directed gene knockout using CRISPR/Cas9 technology in Caenorhabditis elegans; Smith et al: Whole-Genome Sequencing Analysis Reveals High Specificity of CRISPR/Cas9 and TALEN-Based Genome Editing in Human iPSCs Ranganathan: Expansion of the CRISPR-Cas9 genome targeting space through the use of H1 promoter-expressed guide RNAs Mali et al: CAS9 transcriptional activators for target specificity screening and paired nickases for cooperative genome engineering.
Check with whole genome sequencing
paired nickases (single-strand DNA break) double-nicking
Delivery to cells in humans
Via stem cells
Via liposomes
modified Cas9 variants paired nicking modified sgRNAs
Use DBS and Cas9 to correct
lentivirus vectors
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Liposome delivery method
Source: Harvard University: http://news.harvard.edu/gazette/story/2014/11/toward-genetic-editing/ John A Zuris et.al (2015): Cationic lipid-mediated delivery of proteins enables efficient protein-based genome editing in vitro and in vivo Nature Biotechnology 33, 73–80 (2015)
Cre recombinase (+11) Tale protein (+4) Cas9 (+22)
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Liposome delivery method
Source: Harvard University: http://news.harvard.edu/gazette/story/2014/11/toward-genetic-editing/ John A Zuris et.al (2015): Cationic lipid-mediated delivery of proteins enables efficient protein-based genome editing in vitro and in vivo Nature Biotechnology 33, 73–80 (2015)
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Liposome delivery method
Source: Harvard University: http://news.harvard.edu/gazette/story/2014/11/toward-genetic-editing/ John A Zuris et.al (2015): Cationic lipid-mediated delivery of proteins enables efficient protein-based genome editing in vitro and in vivo Nature Biotechnology 33, 73–80 (2015)
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Software and databases
CasFinder
Figures: Software websites and publications
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Companies offering CRISPR/Cas9 services
...vibrant development and many many more
Source: Google Adword search for CRISPR/Cas9
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Things that changed everything
Figures: www.opte.org; Pixabay.com and Wikipedia
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The future of CRISPR/Cas9
+ multiplexed genome editing targeting multiple sites
Source: Jennifer A. Doudna and Emmanuelle Charpentier; The new frontier of genome engineering with CRISPR-Cas9; ScienceMag 2014 • VOL 346 ISSUE 6213
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Thank you!