A novel ethylene responsive factor CitERF13 plays a role in photosynthesis regulation

“…Other studies showed that ethylene-insensitive mutants, etr1-1 and ein2, had smaller stomata, possessed lower chlorophyll and CAB (chlorophyll a/b binding complex) contents, RuBisCO activities, and had a lower whole-plant and leaf photosynthetic capacity, suggesting the role of basal ethylene perception in controlling stomatal conductance and photosynthetic capacity (Grbic and Bleecker, 1995;Tholen et al, 2007). Other seminal works suggested that ethylene-responsiveness was required for the fine regulation of PSII photochemical efficiency (Kim et al, 2017) and carbon fixation by achieving maximal RuBisCO activities through ethylene-responsive factors (ERFs) (Bracher et al, 2017;Xie et al, 2017). The control of photosynthesis by ethylene also affected plant biomass production by influencing final plant size (Ceusters and Van de Poel, 2018).…”

Photosynthesis in a Changing Global Climate: Scaling Up and Scaling Down in Crops

“…Other studies showed that ethylene-insensitive mutants, etr1-1 and ein2, had smaller stomata, possessed lower chlorophyll and CAB (chlorophyll a/b binding complex) contents, RuBisCO activities, and had a lower whole-plant and leaf photosynthetic capacity, suggesting the role of basal ethylene perception in controlling stomatal conductance and photosynthetic capacity (Grbic and Bleecker, 1995;Tholen et al, 2007). Other seminal works suggested that ethylene-responsiveness was required for the fine regulation of PSII photochemical efficiency (Kim et al, 2017) and carbon fixation by achieving maximal RuBisCO activities through ethylene-responsive factors (ERFs) (Bracher et al, 2017;Xie et al, 2017). The control of photosynthesis by ethylene also affected plant biomass production by influencing final plant size (Ceusters and Van de Poel, 2018).…”

Photosynthesis in a Changing Global Climate: Scaling Up and Scaling Down in Crops

“…Similarly, in rice ( Oryza sativa L. ), OsCYP21-4 overexpressing transgenic plants exhibited higher biomass and productivity with 10-15% higher seed weight than in the WT [28]. Besides, in sweet oranges ( Citrus sinensis L. Osbeck ), overexpression of CitERF13 in citrus fruit peel resulted in rapid chlorophyll degradation and led to the accumulation of ROS [29, 30]. Moreover, in Arabidopsis ( Arabidopsis thaliana ), mutants of the singlet oxygen ( 1 O 2 ) overproducing flu and chlorina1 (ch1) have shown that 1 O 2 -induced changes in gene expression can lead to either PCD or acclimation [31].…”

The Roles of Environmental Factors in Regulation of Oxidative Stress in Plant

“…4 a). ERFs are critical downstream factors of the ethylene signaling pathway (Xie et al 2017 ). Therefore, we speculated that the content of ethylene (ETH) in yellow sectors might be significantly altered.…”

Involvement of CsERF2 in leaf variegation of Cymbidium sinense ‘Dharma’