Metabolism‐mediated mechanisms underpin the differential stomatal speediness regulation among ferns and angiosperms

Cândido‐Sobrinho, Silvio A.; Lima, Valéria F.; Freire, Francisco Bruno S.; Souza, Leonardo Perez de; Gago, Jorge; Fernie, Alisdair R.; Daloso, Danilo de Menezes

doi:10.1111/pce.14232

Cited by 12 publications

(10 citation statements)

References 96 publications

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“…4B ), which mimicked the effects of drought stress. Our finding is consistent with the previous study that suggested the fast stomatal closure requires a high ABA sensitivity ( Candido-Sobrinho et al 2022 ). Our results also implied that ZmGLKs may function in the ABA biosynthesis pathway, as indicated by the higher ABA accumulation ( Supplemental Fig.…”

Section: Discussionsupporting

confidence: 94%

“…This has been demonstrated by model simulations and experimental data that major C 4 crops are capable of more rapid stomatal closure compared to C 3 crops in response to water deficit, resulting in the high water use efficiency (WUE) ( McAusland et al 2016 ; Wang et al 2021 ; Ozeki et al 2022 ). Notably, previous studies have demonstrated that slower stomatal closure in ferns is associated with reduced responsiveness to ABA and sugars compared to angiosperms ( Lima et al 2019 ; Candido-Sobrinho et al 2022 ), while the rapid transport of ions and osmolytes between guard cells and subsidiary cells in grass species contributes to the fast stomatal movement ( Chen et al 2017 ). Rice plants overexpressing ZmGLK s have improved carbohydrate contents ( Li et al 2020 ), consistent with SlGLK gene expression in tomato plants ( Powell et al 2012 ; Nguyen et al 2014 ); this may contribute to rapid stomatal closure at the metabolic level.…”

Section: Discussionmentioning

confidence: 99%

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Maize GOLDEN2-LIKE proteins enhance drought tolerance in rice by promoting stomatal closure

Li,

Wei

et al. 2023

Plant Physiology

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Drought has become one of the most severe abiotic stresses experienced in agricultural production across the world. Plants respond to water deficit via stomatal movements in the leaves, which are mainly regulated by abscisic acid (ABA). A previous study from our lab showed that constitutive expression of maize (Zea mays L.) GOLDEN2-LIKE (GLK) transcription factors in rice (Oryza sativa L.) can improve stomatal conductance and plant photosynthetic capacity under field conditions. In the present study, we uncovered a function of ZmGLKs regulation of stomatal movement in rice during drought stress. We found that elevated drought tolerance in rice plants overexpressing ZmGLK1 or GOLDEN2 (ZmG2) was conferred by rapid ABA-mediated stomatal closure. Comparative analysis of RNA-sequencing (RNA-seq) data from the rice leaves and DNA-affinity purification sequencing (DAP-seq) results obtained in vitro revealed that ZmGLKs played roles in regulating ABA-related and stress-responsive pathways. Four up-regulated genes closely functioning in abiotic stress tolerance with strong binding peaks in the DAP-seq data were identified as putative target genes of ZmGLK1 and ZmG2 in rice. These results demonstrated that maize GLKs play an important role in regulating stomatal movements to coordinate photosynthesis and stress tolerance. This trait is a valuable target for breeding drought-tolerant crop plants without compromising photosynthetic capacity.

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Section: Discussionsupporting

confidence: 94%

Section: Discussionmentioning

confidence: 99%

Maize GOLDEN2-LIKE proteins enhance drought tolerance in rice by promoting stomatal closure

Li,

Wei

et al. 2023

Plant Physiology

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“…1b; see also details in the Materials and Methods section). In line with previous studies on mature ferns (Hõrak et al, 2017;Xiong & Flexas, 2020;Cândido-Sobrinho et al, 2022), stomatal conductance (g s ) and net photosynthesis rate (A net ) in juvenile ferns were generally low (Fig. 1c,d).…”

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confidence: 52%

“…2c,e,g,h,j). This might explain why no ABA responses were previously found in shorter experiments (Cândido-Sobrinho et al, 2022).…”

mentioning

confidence: 70%

Species‐specific stomatal ABA responses in juvenile ferns grown from spores

Wuyun,

Niinemets,

Hõrak

2023

New Phytologist

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“…1b; see also details in Materials and Methods). In line with previous studies on mature ferns (Hõrak et al ., 2017; Xiong & Flexas, 2020; Cândido-Sobrinho et al ., 2022), stomatal conductance ( g s ) and net photosynthesis rate ( A net ) in juvenile ferns were generally low (Fig. 1c, d,).…”

Section: Main Textmentioning

confidence: 99%

Species-specific stomatal ABA responses in juvenile ferns grown from spores

Wuyun

Niinemets

Hõrak

2023

Preprint

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Adjustable stomatal pores in leaves control the balance between CO2 entry for photosynthesis and water loss via transpiration. The drought and low humidity-induced phytohormone abscisic acid (ABA) is the major regulator of active stomatal closure responses in angiosperms. Whether the ABA signalling pathway for stomatal closure functions similarly in older land plant groups, such as lycophytes and ferns, is still unclear: some studies find no stomatal ABA response in ferns, others find that ABA response is present or triggered by specific environmental conditions. Here we analysed steady-state gas-exchange, stomatal density and stomatal response to exogenously applied ABA in nine fern species grown from spores under controlled growth conditions. We find that ABA responses in ferns are species-specific: stomata in four out of nine species closed in response to ABA. The ABA-sensitive species mostly had slow responses of low magnitude, suggesting reduced ABA-sensitivity of ABA signalling pathway in ferns. Species with larger stomatal conductance tended to close stomata in response to ABA, whereas a relatively strong response of ~35% was also found in Cyrtomium falcatum, a fern with low stomatal conductance. Our results show that ferns constitute a diverse group with varying degree of stomatal ABA-sensitivity. Further characterisation of ABA signalling pathway components in diverse fern species is needed to understand the genetic basis for the variable ABA-sensitivity in ferns.

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Metabolism‐mediated mechanisms underpin the differential stomatal speediness regulation among ferns and angiosperms

Cited by 12 publications

References 96 publications

Maize GOLDEN2-LIKE proteins enhance drought tolerance in rice by promoting stomatal closure

Maize GOLDEN2-LIKE proteins enhance drought tolerance in rice by promoting stomatal closure

Species‐specific stomatal ABA responses in juvenile ferns grown from spores

Species-specific stomatal ABA responses in juvenile ferns grown from spores

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