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Ahammed G J, Li X, Zhang G, et al. Tomato photorespiratory glycolate-oxidase-derived H2O2 production contributes to basal defence against Pseudomonas syringae. Plant Cell Environ 41(5): 1126-38.
[2]
Ahammed GJ, Xu W, Liu A, Chen S. Endogenous melatonin deficiency aggravates high temperature-induced oxidative stress in Solanum ly- copersicum L. Environ Exp Bot 2018. In Press
[3]
Ahammed GJ, Xu W, Liu A, Chen S. COMT1 Silencing aggravates heat stress-induced reduction in photosynthesis by decreasing chlorophyll content, photosystem II activity, and electron transport efficiency in tomato. Front Plant Sci 2018; 9(998)
[4]
Ahammed GJ, Li Y, Li X, Han W-Y, Chen S. Epigallocatechin-3-gallate alleviates salinity-retarded seed germination and oxidative stress in tomato. J Plant Growth Regul 2018; 37(4): 1349-56.
[5]
Pan C, Ahammed GJ, Li X, Shi K. Elevated CO2 improves photosynthesis under high temperature by attenuating the functional limitations to energy fluxes, electron transport and redox homeostasis in tomato leaves. Front Plant Sci 1739; 2018: 9.
[6]
Liu CC, Ahammed GJ, Wang GT, et al. Tomato CRY1a plays a critical role in the regulation of phyto- hormone homeostasis, plant development, and carotenoid metabolism in fruits. Plant Cell Environ 2018; 41(2): 354-66.
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Wang F, Wu N, Zhang L, et al. Light signaling- dependent regulation of photoinhibition and photoprotection in tomato. Plant Physiol 2018; 176(2): 1311-26.
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