bioRxiv
Using recurrent neural networks to detect supernumerary chromosomes in fungal strains causing blast diseases
Publication
, Preprint
Gyawali, N; Hao, Y; Lin, G; Huang, J; Bika, R; Daza, LC; Zheng, H; Cruppe, G; Caragea, D; Cook, D; Valent, B; liu, S
2023
Duke Scholars
Citation
APA
Chicago
ICMJE
MLA
NLM
Gyawali, N., Hao, Y., Lin, G., Huang, J., Bika, R., Daza, L. C., … liu, S. (2023). Using recurrent neural networks to detect supernumerary chromosomes in fungal strains causing blast diseases. bioRxiv. https://doi.org/10.1101/2023.09.17.558148
Gyawali, Nikesh, Yangfan Hao, Guifang Lin, Jun Huang, Ravi Bika, Lidia Calderon Daza, Hunkun Zheng, et al. “Using recurrent neural networks to detect supernumerary chromosomes in fungal strains causing blast diseases.” BioRxiv, 2023. https://doi.org/10.1101/2023.09.17.558148.
Gyawali N, Hao Y, Lin G, Huang J, Bika R, Daza LC, et al. Using recurrent neural networks to detect supernumerary chromosomes in fungal strains causing blast diseases. bioRxiv. 2023.
Gyawali, Nikesh, et al. “Using recurrent neural networks to detect supernumerary chromosomes in fungal strains causing blast diseases.” BioRxiv, 2023. Epmc, doi:10.1101/2023.09.17.558148.
Gyawali N, Hao Y, Lin G, Huang J, Bika R, Daza LC, Zheng H, Cruppe G, Caragea D, Cook D, Valent B, liu S. Using recurrent neural networks to detect supernumerary chromosomes in fungal strains causing blast diseases. bioRxiv. 2023.