Author:
Mikhaylova E. V.,Kuluev B. R.,Gerashchenkov G. A.,Chemeris D. A.,Garafutdinov R. R.,Kuluev A. R.,Baymiev An. K.,Baymiev Al. K.,Chemeris A. V.
Reference97 articles.
1. Shen H., Strunks G.D., Klemann B.J., Hooykaas P.J., de Pater S. 2017. CRISPR/Cas9-induced double-strand break repair in Arabidopsis nonhomologous end-joining mutants. G3: Genes, Genomes,
Genetics. 7 (1), 193‒202.
2. Vershinina Z.R., Kuluev B.R., Gerashchenkov G.A., Knyazev A.V., Chemeris D.A., Gumerova G.R., Baymiev Al.Kh., Chemeris A.V. 2017. Evolution of methods for genome editing. Biomics. 9 (3), 245‒270.
3. Zlobin N.E., Lebedeva M.V., Taranov V.V., Kharchenko P.N., Babakov A.V. 2018. Plant genome editing by targeted replacement of nitrogenous bases (review). Biotekhnologiya. 34 (6), 59–68.
4. Anzalone A.V., Randolph P.B., Davis J.R., Sousa A.A., Koblan L.W., Levy J.M., Chen P.J., Wilson C., Newby G.A., Raguram A., Liu D.R. 2019. Search-and-replace genome editing without double-strand breaks or donor DNA. Nature.
576 (7785), 149–157.
5. Wang J.Y., Doudna J.A. 2023. CRISPR technology: A decade of genome editing is only the beginning. Science.
379 (6629), eadd8643.