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1. Regulation of stomatal development by epidermal, subepidermal and long-distance signals

   Plant leaves consist of three layers, including epidermis, mesophyll and vascular tissues. Their development is meticulously orchestrated. Stomata...

   Liang Chen in Plant Molecular Biology

   Article 28 June 2024
   

2. Intrinsic Signaling Pathways and key Regulatory Factors of Stomatal Development

   Stomata are small pores on the surface of plant leaves that play a critical role in regulating gas exchange and water loss. The development of...

   Qingsong Jiao, Hongbao Bai, ... Xueyun Hu in Journal of Plant Biology

   Article 29 April 2024
   

3. Drought stress inhibits stomatal development to improve water use efficiency in cotton

   Stomata play a principal role in adjusting carbon dioxide (CO ₂ ) intake and water use for plant adaptation and tolerance to water-restricted...

   Raghvendra Dubey, Bhoopendra K. Pandey, ... Pramod Arvind Shirke in Acta Physiologiae Plantarum

   Article 05 January 2023
   

4. Biochar Mitigates the Harmful Effects of Drought in Soybean Through Changes in Leaf Development, Stomatal Regulation, and Gas Exchange

   Drought is the primary global limiting factor for agricultural production, and soybean plants are sensitive to water deficits. Management strategies...

   Maria Andressa Fernandes Gonçalves, Breno Ricardo Serrão da Silva, ... Allan Klynger da Silva Lobato in Journal of Soil Science and Plant Nutrition

   Article 16 February 2024
   

5. Assessing the High Temperature Effects on Stomatal Production

   The production of stomata, the epidermal pores of plants, is influenced by diverse environmental signals including high temperature. To assess its...

   Rini Rahiman, On Sun Lau in Thermomorphogenesis

   Protocol 2024
   

6. Stomatal regulators are co-opted for seta development in the astomatous liverwort Marchantia polymorpha

   The evolution of special types of cells requires the acquisition of new gene regulatory networks controlled by transcription factors (TFs). In...

   Kenta C. Moriya, Makoto Shirakawa, ... Tomoo Shimada in Nature Plants

   Article 19 January 2023
   

7. Ecological implications of stomatal density and stomatal index in the adult stage of Mimosa L. (Leguminosae, Caesalpinioideae)

   Differences in stomatal density (SD) and stomatal index (SI) are associated with the conditions of the environment in which they are distributed. Mimosa...

   Manuel Alberto Ayala-Ramos, Susana Adriana Montaño-Arias, ... Rosaura Grether in Protoplasma

   Article 29 November 2023
   

8. Comparative transcriptome analysis reveals the function of SlPRE2 in multiple phytohormones biosynthesis, signal transduction and stomatal development in tomato

   Key message

   Transcriptomic, physiological, and qRT-PCR analysis revealed the potential mechanism by which SlPRE2 regulates plant growth and stomatal...

   Zhiguo Zhu, Menglin Luo, ... Anpei Zhou in Plant Cell Reports

   Article 03 April 2023
   

9. Arabidopsis COP1 guides stomatal response in guard cells through pH regulation

   Plants rely on precise regulation of their stomatal pores to effectively carry out photosynthesis while managing water status. The Arabidopsis ...

   Seoyeon Cha, Wang Ki Min, Hak Soo Seo in Communications Biology

   Article Open access 05 February 2024
   

10. New dimension in leaf stomatal behavior analysis: a robust method with machine learning approach

    Stomata are specialized pores that play a vital role in gas exchange and photosynthesis. Microscopic images are often used to assess stomatal...

    Ki-Bon Ku, Anh Tuan Le, ... Yong Suk Chung in Plant Biotechnology Reports

    Article 09 May 2024
    

11. Microtubule Reorganization During ABA-Induced Stomatal Closure in Arabidopsis

    Plants must cope with diverse environmental stresses during growth and development, among which drought is one of the most concerning global threats....

    Liru Dou, **angfeng Wang, Tonglin Mao in The Plant Cytoskeleton

    Protocol 2023
    

12. SIAMESE-RELATED1 imposes differentiation of stomatal lineage ground cells into pavement cells

    The leaf epidermis represents a multifunctional tissue consisting of trichomes, pavement cells and stomata, the specialized cellular pores of the...

    Marieke Dubois, Ignacio Achon, ... Lieven De Veylder in Nature Plants

    Article 29 June 2023
    

13. Taxonomic implications of normal and abnormal stomatal complexes in Indigofera L. (Indigofereae, Faboideae, Fabaceae)

    This study is the first to report the foliar and stem epidermal micro-morphology of 13 taxa of Indigofera L. (Fabaceae) using light (LM) and scanning...

    Mohamed O. Badry, Ahmed K. Osman, ... Iman H. Nour in Protoplasma

    Article Open access 19 April 2024
    

14. Automated estimation of stomatal number and aperture in haskap (Lonicera caerulea L.)

    Main conclusion

    This study developed the reliable Mask R-CNN model to detect stomata in Lonicera caerulea . The obtained data could be utilized for...

    **angji Meng, Arisa Nakano, Yoichiro Hoshino in Planta

    Article 06 September 2023
    

15. Phylogenetic, Developmental and Functional Aspects of Stomatal Patterning: Lessons from Magnoliids

    The magnoliid clade encompasses 18 extant families arranged in four orders, plus several extinct taxa, including some of the most ancient angiosperm...

    Paula J. Rudall in The Botanical Review

    Article Open access 19 January 2023
    

16. Coronatine Induces Stomatal Reopening by Inhibiting Hormone Signaling Pathways

    Coronatine (COR), a phytotoxin, aids Pseudomonas syringae pv. tomato DC3000 ( Pst DC3000) invasion by suppressing stomatal immunity, thus promoting...

    Shahab Uddin, Dongryeoul Bae, ... Min Gab Kim in Journal of Plant Biology

    Article 02 August 2022
    

17. The core stomatal proteins SPCH, MUTE and FAMA associate with both types of ICE proteins, VrICE1 and VrICE4, in Vitis riparia

    SPEECHLESS (SPCH), MUTE and FAMA drive stomatal development in Arabidopsis . They do so in association with SCREAM/INDUCER OF CBF EXPRESSION...

    M. Atikur Rahman, Alison Edge, ... Annette Nassuth in Theoretical and Experimental Plant Physiology

    Article 04 May 2024
    

18. Response of Leaf Gas Exchange Parameters to Mulching Materials in Wheat Field was Mediated by Stomatal Morphology and ABA Content

    Field mulching and deficit irrigation are applied more frequently in the North China Plain for higher water use efficiency. In order to explore the...

    Shanshan Qin, Yanqun Zhang, ... Baozhong Zhang in Journal of Plant Growth Regulation

    Article 28 February 2024
    

19. SCAB1 coordinates sequential Ca²⁺ and ABA signals during osmotic stress induced stomatal closure in Arabidopsis

    Hyperosmotic stress caused by drought is a detrimental threat to plant growth and agricultural productivity due to limited water availability....

    Tianren Zhang, Li Bai, Yan Guo in Science China Life Sciences

    Article 18 December 2023

20. Microscopy image recognition method of stomatal open and closed states in living leaves based on improved YOLO-X

    A plant’s stomata serve as the primary means of gas exchange between the plant and its surroundings. This process involves photosynthesis and...

    Kexin Li, Shijie Cong, ... Jiuqing Liu in Theoretical and Experimental Plant Physiology

    Article 13 October 2023