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In vitro cleavage and electrophoretic mobility shift assays for very fast crispr
Roger S. Zou, Yang Liu, Taekjip Ha
School of Medicine
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peer-review
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Medicine & Life Sciences
Ribonucleoproteins
100%
Electrophoretic Mobility Shift Assay
88%
Clustered Regularly Interspaced Short Palindromic Repeats
69%
Guide RNA
56%
DNA
45%
In Vitro Techniques
35%
Endopeptidase K
27%
Heating
21%
Sepharose
21%
Biomedical Research
20%
DNA Repair
18%
DNA Damage
17%
Molecular Weight
16%
Gels
16%
Medicine
14%
Kinetics
14%
Light
14%
Agriculture & Biology
ribonucleoproteins
80%
cleavage (chemistry)
69%
assays
43%
DNA
32%
protocols
23%
RNA
21%
peptidase K
20%
biomedical research
19%
DNA repair
17%
DNA damage
15%
agarose
14%
medicine
14%
gels
10%
kinetics
10%
molecular weight
9%
heat
9%
Chemical Compounds
Cleavage
55%
Agarose
17%
Gel
10%