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References

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20. F. Rezzonico et al, “Diversity, Evolution, and Functionality of Clustered Regularly Interspaced Short Palindromic Repeat (CRISPR) Regions in the Fire Blight Pathogen Erwinia amylovora,” Applied and Environmental Microbiology, vol. 77, no. 11, pp. 3819-3829, 24 Mar. 2011.
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22. M. Jore et al, “Structural basis for CRISPR RNA-guided DNA recognition by Cascade,” Nature Structural & Molecular Biology, vol. 18, pp. 529-536, 3 Apr. 2011.
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25. D. Sashital et al, “An RNA-induced conformational change required for CRISPR RNA cleavage by the endoribonuclease Cse3,” Nature Structural & Molecular Biology, vol. 18, pp. 680-687, 15 May 2011.
26. E. Gesner et al, “Recognition and maturation of effector RNAs in a CRISPR interference pathway,” Nature Structural & Molecular Biology, vol. 18, no. 6, pp. 688-692, 15 May 2011.
27. C. Skennerton et al, “Phage Encoded H-NS: A Potential Achilles Heel in the Bacterial Defence System,” PLoS ONE, vol. 6, no. 5, 18 May 2011.
28. W. Fricke et al, “Comparative Genomics of 28 Salmonella enterica Isolates: Evidence for CRISPR-mediated Adaptive Sublineage Evolution,” J. Bacteriology, 20 May 2011.
29. E. Semenova et al, “Interference by clustered regularly interspaced short palindromic repeat (CRISPR) RNA is governed by a seed sequence,” PNAS, 6 Jun. 2011.