Chen, R. J., G. B. Wang, J. J. Yu, Y. Lu, T. Y. Tao, Z. C. Wang, Y. Hua, N. Li, H. Y. Wang, A. Gharib, et al., "Yield, Stability, and Adaptability of Hybrid Japonica Rice Varieties in the East Coast of China", Agronomy, vol. 15, issue 901, 2025. agronomy-15-00901.pdf
Gharib, A., Y. Z. Su, Z. H. Zuo, R. J. Chen, H. Y. Wang, T. Y. Tao, M. L. Chuan, Q. Bu, Y. M. Luo, Y. Q. Li, et al., "Melatonin enhances metal oxide nanoparticles tolerance in rice seedlings through dual regulation of antioxidant defense and photosynthetic efficiency", Physiologia Plantarum, vol. 176, issue e70020, 2024. 100125557.pdf
Lu, Y., A. Gharib, R. J. Chen, H. Y. Wang, T. Y. Tao, Z. H. Zuo, Q. Bu, Y. Z. Su, Y. Q. Li, Y. M. Luo, et al., "Rice melatonin deficiency causes premature leaf senescence via DNA methylation regulation", The Crop Journal, vol. 12, issue 3, pp. 721-731, 2024.
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Xu, S. H., S. T. Wang, Z. C. Wang, Y. Lu, T.Y. Tao, Q. F. Huang, z Lu, H.Y. Wang, Y. Z. Su, A. Gharib, et al., "Integrative analyses of transcriptome, microRNA-seq and metabolome reveal insights into exogenous melatonin-mediated salt tolerance during seed germination of maize", Plant Growth Regulation, vol. 103, pp. 689–704, 2024. 10725_2024_1138_moesm1_esm.pdf
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Chen, R., N. Xiao, Y. Lu, T. Tao, Q. Huang, S. Wang, Z. Wang, M. Chuan, Q. Bu, Z. Lu, et al., "A de novo evolved gene contributes to rice grain shape difference between indica and japonica.", Nature communications, vol. 14, issue 1, pp. 5906, 2023. Abstractde_novo_.pdf

The role of de novo evolved genes from non-coding sequences in regulating morphological differentiation between species/subspecies remains largely unknown. Here, we show that a rice de novo gene GSE9 contributes to grain shape difference between indica/xian and japonica/geng varieties. GSE9 evolves from a previous non-coding region of wild rice Oryza rufipogon through the acquisition of start codon. This gene is inherited by most japonica varieties, while the original sequence (absence of start codon, gse9) is present in majority of indica varieties. Knockout of GSE9 in japonica varieties leads to slender grains, whereas introgression to indica background results in round grains. Population evolutionary analyses reveal that gse9 and GSE9 are derived from wild rice Or-I and Or-III groups, respectively. Our findings uncover that the de novo GSE9 gene contributes to the genetic and morphological divergence between indica and japonica subspecies, and provide a target for precise manipulation of rice grain shape.

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