Pan, S.; Feng, X.; Pass, D.; Adams, R.A.; Wang, Y.; Dong, X.; Lin, Z.; Jiang, C.; Jones, T.P.; BéruBé, K.A.;
et al. Enhanced Transcriptomic Resilience following Increased Alternative Splicing and Differential Isoform Production between Air Pollution Conurbations. Atmosphere 2021, 12, 959.
https://doi.org/10.3390/atmos12080959
AMA Style
Pan S, Feng X, Pass D, Adams RA, Wang Y, Dong X, Lin Z, Jiang C, Jones TP, BéruBé KA,
et al. Enhanced Transcriptomic Resilience following Increased Alternative Splicing and Differential Isoform Production between Air Pollution Conurbations. Atmosphere. 2021; 12(8):959.
https://doi.org/10.3390/atmos12080959
Chicago/Turabian Style
Pan, Shengkai, Xiaokai Feng, Daniel Pass, Rachel A. Adams, Yusong Wang, Xuemin Dong, Zhenzhen Lin, Chunguo Jiang, Tim P. Jones, Kelly A. BéruBé,
and et al. 2021. "Enhanced Transcriptomic Resilience following Increased Alternative Splicing and Differential Isoform Production between Air Pollution Conurbations" Atmosphere 12, no. 8: 959.
https://doi.org/10.3390/atmos12080959
APA Style
Pan, S., Feng, X., Pass, D., Adams, R. A., Wang, Y., Dong, X., Lin, Z., Jiang, C., Jones, T. P., BéruBé, K. A., & Zhan, X.
(2021). Enhanced Transcriptomic Resilience following Increased Alternative Splicing and Differential Isoform Production between Air Pollution Conurbations. Atmosphere, 12(8), 959.
https://doi.org/10.3390/atmos12080959