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Literature DB >> 28219014

Stomatal development in time: the past and the future.

Xian Qu¹, Kylee M Peterson¹, Keiko U Torii².

Abstract

Stomata have significantly diversified in nature since their first appearance around 400 million years ago. The diversification suggests the active reprogramming of molecular machineries of stomatal development during evolution. This review focuses on recent progress that sheds light on how this rewiring occurred in different organisms. Three specific aspects are discussed in this review: (i) the evolution of the transcriptional complex that governs stomatal state transitions; (ii) the evolution of receptor-ligand pairs that mediate extrinsic signaling; and (iii) the loss of stomatal development genes in an astomatous angiosperm.

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Year: 2017 PMID： 28219014 DOI： 10.1016/j.gde.2017.02.001

Source DB: PubMed Journal: Curr Opin Genet Dev ISSN： 0959-437X Impact factor: 5.578

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Cited

12 in total

Review 1. Stomatal Development and Perspectives toward Agricultural Improvement.

Authors: Hitoshi Endo; Keiko U Torii
Journal: Cold Spring Harb Perspect Biol Date: 2019-05-01 Impact factor: 10.005

2. Permanently open stomata of aquatic angiosperms display modified cellulose crystallinity patterns.

Authors: Ilana Shtein; Zoë A Popper; Smadar Harpaz-Saad
Journal: Plant Signal Behav Date: 2017-07-18

Review 3. Hormonal and environmental signals guiding stomatal development.

Authors: Xingyun Qi; Keiko U Torii
Journal: BMC Biol Date: 2018-02-20 Impact factor: 7.431

4. Overexpression of a SDD1-Like Gene From Wild Tomato Decreases Stomatal Density and Enhances Dehydration Avoidance in Arabidopsis and Cultivated Tomato.

Authors: Samuel Morales-Navarro; Ricardo Pérez-Díaz; Alfonso Ortega; Alberto de Marcos; Montaña Mena; Carmen Fenoll; Enrique González-Villanueva; Simón Ruiz-Lara
Journal: Front Plant Sci Date: 2018-07-04 Impact factor: 5.753

5. A2-type cyclin is required for the asymmetric entry division in rice stomatal development.

Authors: Xiaoxiao Qu; Min Yan; Junjie Zou; Min Jiang; Kezhen Yang; Jie Le
Journal: J Exp Bot Date: 2018-06-27 Impact factor: 6.992

6. Bipartite anchoring of SCREAM enforces stomatal initiation by coupling MAP kinases to SPEECHLESS.

Authors: Aarthi Putarjunan; Jim Ruble; Ashutosh Srivastava; Chunzhao Zhao; Amanda L Rychel; Alex K Hofstetter; Xiaobo Tang; Jian-Kang Zhu; Florence Tama; Ning Zheng; Keiko U Torii
Journal: Nat Plants Date: 2019-06-24 Impact factor: 15.793

7. The Tomato Genome Encodes SPCH, MUTE, and FAMA Candidates That Can Replace the Endogenous Functions of Their Arabidopsis Orthologs.

Authors: Alfonso Ortega; Alberto de Marcos; Jonatan Illescas-Miranda; Montaña Mena; Carmen Fenoll
Journal: Front Plant Sci Date: 2019-10-29 Impact factor: 5.753

Review 8. Light Regulation of Stomatal Development and Patterning: Shifting the Paradigm from Arabidopsis to Grasses.

Authors: Hongbin Wei; Dexin Kong; Juan Yang; Haiyang Wang
Journal: Plant Commun Date: 2020-02-13

9. An Intrinsic Geometric Constraint on Morphological Stomatal Traits.

Authors: Lirong Zhang; Shiping Wang; Xiaoxia Yang; Xiaoyong Cui; Haishan Niu
Journal: Front Plant Sci Date: 2021-04-21 Impact factor: 5.753

10. Transcriptome and Metabolomic Analyses Reveal Regulatory Networks Controlling Maize Stomatal Development in Response to Blue Light.

Authors: Tiedong Liu; Xiwen Zhang
Journal: Int J Mol Sci Date: 2021-05-20 Impact factor: 5.923