Leaf Epidermis: The Ambiguous Symplastic Domain

Leaf Epidermis: The Ambiguous Symplastic Domain

The ability to develop secondary (post-cytokinetic) plasmodesmata (PD) is an important evolutionary advantage that helps in creating symplastic domains within the plant body. Developmental regulation of secondary PD formation is not completely understood. In flowering plants, secondary PD occur excl...

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Main Authors: Olga V. Voitsekhovskaja, Anna N. Melnikova, Kirill N. Demchenko, Alexandra N. Ivanova, Valeria A. Dmitrieva, Anastasiia I. Maksimova, Gertrud Lohaus, A. Deri Tomos, Elena V. Tyutereva, Olga A. Koroleva
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-07-01
Series:Frontiers in Plant Science
Subjects:
Alonsoa meridionalis
Asarina barclaiana
Hordeum vulgare
Solanum tuberosum
leaf epidermis
phloem loading mode
Online Access:https://www.frontiersin.org/articles/10.3389/fpls.2021.695415/full
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spelling doaj-a97b3a5ace554844ae13821ef488dce12021-07-29T09:27:30ZengFrontiers Media S.A.Frontiers in Plant Science1664-462X2021-07-011210.3389/fpls.2021.695415695415Leaf Epidermis: The Ambiguous Symplastic DomainOlga V. Voitsekhovskaja0Olga V. Voitsekhovskaja1Anna N. Melnikova2Anna N. Melnikova3Kirill N. Demchenko4Alexandra N. Ivanova5Alexandra N. Ivanova6Valeria A. Dmitrieva7Anastasiia I. Maksimova8Gertrud Lohaus9Gertrud Lohaus10A. Deri Tomos11Elena V. Tyutereva12Olga A. Koroleva13Komarov Botanical Institute, Russian Academy of Sciences, Saint Petersburg, RussiaDepartment of Plant Biochemistry, Albrecht von Haller Institute for Plant Sciences, Göttingen, GermanyKomarov Botanical Institute, Russian Academy of Sciences, Saint Petersburg, RussiaSaint Petersburg State University, Saint Petersburg, RussiaKomarov Botanical Institute, Russian Academy of Sciences, Saint Petersburg, RussiaKomarov Botanical Institute, Russian Academy of Sciences, Saint Petersburg, RussiaSaint Petersburg State University, Saint Petersburg, RussiaKomarov Botanical Institute, Russian Academy of Sciences, Saint Petersburg, RussiaKomarov Botanical Institute, Russian Academy of Sciences, Saint Petersburg, RussiaDepartment of Plant Biochemistry, Albrecht von Haller Institute for Plant Sciences, Göttingen, GermanyMolecular Plant Research/Plant Biochemistry, School of Mathematics and Natural Sciences, University of Wuppertal, Wuppertal, GermanySchool of Biological Sciences, Bangor University, Bangor, United KingdomKomarov Botanical Institute, Russian Academy of Sciences, Saint Petersburg, RussiaSchool of Biological Sciences, Bangor University, Bangor, United KingdomThe ability to develop secondary (post-cytokinetic) plasmodesmata (PD) is an important evolutionary advantage that helps in creating symplastic domains within the plant body. Developmental regulation of secondary PD formation is not completely understood. In flowering plants, secondary PD occur exclusively between cells from different lineages, e.g., at the L1/L2 interface within shoot apices, or between leaf epidermis (L1-derivative), and mesophyll (L2-derivative). However, the highest numbers of secondary PD occur in the minor veins of leaf between bundle sheath cells and phloem companion cells in a group of plant species designated “symplastic” phloem loaders, as opposed to “apoplastic” loaders. This poses a question of whether secondary PD formation is upregulated in general in symplastic loaders. Distribution of PD in leaves and in shoot apices of two symplastic phloem loaders, Alonsoa meridionalis and Asarina barclaiana, was compared with that in two apoplastic loaders, Solanum tuberosum (potato) and Hordeum vulgare (barley), using immunolabeling of the PD-specific proteins and transmission electron microscopy (TEM), respectively. Single-cell sampling was performed to correlate sugar allocation between leaf epidermis and mesophyll to PD abundance. Although the distribution of PD in the leaf lamina (except within the vascular tissues) and in the meristem layers was similar in all species examined, far fewer PD were found at the epidermis/epidermis and mesophyll/epidermis boundaries in apoplastic loaders compared to symplastic loaders. In the latter, the leaf epidermis accumulated sugar, suggesting sugar import from the mesophyll via PD. Thus, leaf epidermis and mesophyll might represent a single symplastic domain in Alonsoa meridionalis and Asarina barclaiana.https://www.frontiersin.org/articles/10.3389/fpls.2021.695415/fullAlonsoa meridionalisAsarina barclaianaHordeum vulgareSolanum tuberosumleaf epidermisphloem loading mode
collection DOAJ
language English
format Article
sources DOAJ
author Olga V. Voitsekhovskaja
Olga V. Voitsekhovskaja
Anna N. Melnikova
Anna N. Melnikova
Kirill N. Demchenko
Alexandra N. Ivanova
Alexandra N. Ivanova
Valeria A. Dmitrieva
Anastasiia I. Maksimova
Gertrud Lohaus
Gertrud Lohaus
A. Deri Tomos
Elena V. Tyutereva
Olga A. Koroleva
spellingShingle Olga V. Voitsekhovskaja
Olga V. Voitsekhovskaja
Anna N. Melnikova
Anna N. Melnikova
Kirill N. Demchenko
Alexandra N. Ivanova
Alexandra N. Ivanova
Valeria A. Dmitrieva
Anastasiia I. Maksimova
Gertrud Lohaus
Gertrud Lohaus
A. Deri Tomos
Elena V. Tyutereva
Olga A. Koroleva
Leaf Epidermis: The Ambiguous Symplastic Domain
Frontiers in Plant Science
Alonsoa meridionalis
Asarina barclaiana
Hordeum vulgare
Solanum tuberosum
leaf epidermis
phloem loading mode
author_facet Olga V. Voitsekhovskaja
Olga V. Voitsekhovskaja
Anna N. Melnikova
Anna N. Melnikova
Kirill N. Demchenko
Alexandra N. Ivanova
Alexandra N. Ivanova
Valeria A. Dmitrieva
Anastasiia I. Maksimova
Gertrud Lohaus
Gertrud Lohaus
A. Deri Tomos
Elena V. Tyutereva
Olga A. Koroleva
author_sort Olga V. Voitsekhovskaja
title Leaf Epidermis: The Ambiguous Symplastic Domain
title_short Leaf Epidermis: The Ambiguous Symplastic Domain
title_full Leaf Epidermis: The Ambiguous Symplastic Domain
title_fullStr Leaf Epidermis: The Ambiguous Symplastic Domain
title_full_unstemmed Leaf Epidermis: The Ambiguous Symplastic Domain
title_sort leaf epidermis: the ambiguous symplastic domain
publisher Frontiers Media S.A.
series Frontiers in Plant Science
issn 1664-462X
publishDate 2021-07-01
description The ability to develop secondary (post-cytokinetic) plasmodesmata (PD) is an important evolutionary advantage that helps in creating symplastic domains within the plant body. Developmental regulation of secondary PD formation is not completely understood. In flowering plants, secondary PD occur exclusively between cells from different lineages, e.g., at the L1/L2 interface within shoot apices, or between leaf epidermis (L1-derivative), and mesophyll (L2-derivative). However, the highest numbers of secondary PD occur in the minor veins of leaf between bundle sheath cells and phloem companion cells in a group of plant species designated “symplastic” phloem loaders, as opposed to “apoplastic” loaders. This poses a question of whether secondary PD formation is upregulated in general in symplastic loaders. Distribution of PD in leaves and in shoot apices of two symplastic phloem loaders, Alonsoa meridionalis and Asarina barclaiana, was compared with that in two apoplastic loaders, Solanum tuberosum (potato) and Hordeum vulgare (barley), using immunolabeling of the PD-specific proteins and transmission electron microscopy (TEM), respectively. Single-cell sampling was performed to correlate sugar allocation between leaf epidermis and mesophyll to PD abundance. Although the distribution of PD in the leaf lamina (except within the vascular tissues) and in the meristem layers was similar in all species examined, far fewer PD were found at the epidermis/epidermis and mesophyll/epidermis boundaries in apoplastic loaders compared to symplastic loaders. In the latter, the leaf epidermis accumulated sugar, suggesting sugar import from the mesophyll via PD. Thus, leaf epidermis and mesophyll might represent a single symplastic domain in Alonsoa meridionalis and Asarina barclaiana.
topic Alonsoa meridionalis
Asarina barclaiana
Hordeum vulgare
Solanum tuberosum
leaf epidermis
phloem loading mode
url https://www.frontiersin.org/articles/10.3389/fpls.2021.695415/full
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