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Genome-Wide Expression and Physiological Profiling of Pearl Millet Genotype Reveal the Biological Pathways and Various Gene Clusters Underlying Salt Resistance
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S. A. Awan Et Al. , "Genome-Wide Expression and Physiological Profiling of Pearl Millet Genotype Reveal the Biological Pathways and Various Gene Clusters Underlying Salt Resistance," FRONTIERS IN PLANT SCIENCE , vol.13, 2022

Awan, S. A. Et Al. 2022. Genome-Wide Expression and Physiological Profiling of Pearl Millet Genotype Reveal the Biological Pathways and Various Gene Clusters Underlying Salt Resistance. FRONTIERS IN PLANT SCIENCE , vol.13 .

Awan, S. A., Khan, I., Tariq, R., Rizwan, M., Wang, X., Zhang, X., ... Huang, L.(2022). Genome-Wide Expression and Physiological Profiling of Pearl Millet Genotype Reveal the Biological Pathways and Various Gene Clusters Underlying Salt Resistance. FRONTIERS IN PLANT SCIENCE , vol.13.

Awan, Samrah Et Al. "Genome-Wide Expression and Physiological Profiling of Pearl Millet Genotype Reveal the Biological Pathways and Various Gene Clusters Underlying Salt Resistance," FRONTIERS IN PLANT SCIENCE , vol.13, 2022

Awan, Samrah A. Et Al. "Genome-Wide Expression and Physiological Profiling of Pearl Millet Genotype Reveal the Biological Pathways and Various Gene Clusters Underlying Salt Resistance." FRONTIERS IN PLANT SCIENCE , vol.13, 2022

Awan, S. A. Et Al. (2022) . "Genome-Wide Expression and Physiological Profiling of Pearl Millet Genotype Reveal the Biological Pathways and Various Gene Clusters Underlying Salt Resistance." FRONTIERS IN PLANT SCIENCE , vol.13.

@article{article, author={Samrah Afzal Awan Et Al. }, title={Genome-Wide Expression and Physiological Profiling of Pearl Millet Genotype Reveal the Biological Pathways and Various Gene Clusters Underlying Salt Resistance}, journal={FRONTIERS IN PLANT SCIENCE}, year=2022}