K. YILDIRIM Et Al. , "CRISPR-mediated multiple editing of Becurtovirus genome enabled curly top disease resistance in sugar beet and inhibited viral mutant escape and formation," 2nd PlantEd Congress , Lecce, Italy, 2021
YILDIRIM, K. Et Al. 2021. CRISPR-mediated multiple editing of Becurtovirus genome enabled curly top disease resistance in sugar beet and inhibited viral mutant escape and formation. 2nd PlantEd Congress , (Lecce, Italy).
YILDIRIM, K., KAVAS, M., SEVGEN, İ., & SEÇGİN, Z., (2021). CRISPR-mediated multiple editing of Becurtovirus genome enabled curly top disease resistance in sugar beet and inhibited viral mutant escape and formation . 2nd PlantEd Congress, Lecce, Italy
YILDIRIM, Kubilay Et Al. "CRISPR-mediated multiple editing of Becurtovirus genome enabled curly top disease resistance in sugar beet and inhibited viral mutant escape and formation," 2nd PlantEd Congress, Lecce, Italy, 2021
YILDIRIM, Kubilay Et Al. "CRISPR-mediated multiple editing of Becurtovirus genome enabled curly top disease resistance in sugar beet and inhibited viral mutant escape and formation." 2nd PlantEd Congress , Lecce, Italy, 2021
YILDIRIM, K. Et Al. (2021) . "CRISPR-mediated multiple editing of Becurtovirus genome enabled curly top disease resistance in sugar beet and inhibited viral mutant escape and formation." 2nd PlantEd Congress , Lecce, Italy.
@conferencepaper{conferencepaper, author={Kubilay Yıldırım Et Al. }, title={CRISPR-mediated multiple editing of Becurtovirus genome enabled curly top disease resistance in sugar beet and inhibited viral mutant escape and formation}, congress name={2nd PlantEd Congress}, city={Lecce}, country={Italy}, year={2021}}