Research output: Contribution to journal › Article › peer-review
Large lipid droplets in leaf epidermis of angiosperms. / Pautov, Anatoly; Yakovleva, Olga; Krylova, Elena; Gussarova, Galina.
In: Flora, Vol. 219, 2016, p. 62-67.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Large lipid droplets in leaf epidermis of angiosperms
AU - Pautov, Anatoly
AU - Yakovleva, Olga
AU - Krylova, Elena
AU - Gussarova, Galina
N1 - Pautov, A., Yakovleva, O., Krylova, E., Gussarova, G. Large lipid droplets in leaf epidermis of angiosperms // Flora, 2016, T. 219, P. 62-67
PY - 2016
Y1 - 2016
N2 - Methods of light, scanning and transmission electron microscopy were used to study the lower epidermis of the leaves in evergreen Acokanthera oblongifolia (Apocynaceae), Exbucklandia populnea (Hamamelidaceae), Ternstroemia gymnanthera (Theaceae), and Viburnum suspensum (Caprifoliaceae). All these species show similar leaf anatomy. Our results together with those of earlier studies show that large lipid droplets (LDs) can regularly be found in leaf epidermis of some flowering plants. Their diameter varies in studied species from 3 to 11 μm. Large lipid droplets are typical for cells of stomatal complexes and can have irregular shape. They also occur in some ordinary cells. The formation of large LDs is accompanied by the presence of thick cuticle covering ordinary and subsidiary cells, prominent cuticular outer ledges and rims on stomata, waxy plugs in the outer stomatal cavities (in A. oblongifolia), and abundant plastoglobules in plastids. All these indicate that intensive lipid synthesis occurs in leaf epidermis. The stomatal complexes are the place with the highest occurrence of the largest LDs. They are formed in subsidiary cells, which lie beneath the stomata. In these cells plastids and mitochondria are always present. The former contain lipid inclusions. We demonstrated that breakdown of LDs takes place in dying leaves of V. suspensum. This might indicate mobilization of lipids from the globules into the LDs. Based on these new data we suggest that the LDs found in cells of stomatal complexes play important role in maintaining normal function of stomata.
AB - Methods of light, scanning and transmission electron microscopy were used to study the lower epidermis of the leaves in evergreen Acokanthera oblongifolia (Apocynaceae), Exbucklandia populnea (Hamamelidaceae), Ternstroemia gymnanthera (Theaceae), and Viburnum suspensum (Caprifoliaceae). All these species show similar leaf anatomy. Our results together with those of earlier studies show that large lipid droplets (LDs) can regularly be found in leaf epidermis of some flowering plants. Their diameter varies in studied species from 3 to 11 μm. Large lipid droplets are typical for cells of stomatal complexes and can have irregular shape. They also occur in some ordinary cells. The formation of large LDs is accompanied by the presence of thick cuticle covering ordinary and subsidiary cells, prominent cuticular outer ledges and rims on stomata, waxy plugs in the outer stomatal cavities (in A. oblongifolia), and abundant plastoglobules in plastids. All these indicate that intensive lipid synthesis occurs in leaf epidermis. The stomatal complexes are the place with the highest occurrence of the largest LDs. They are formed in subsidiary cells, which lie beneath the stomata. In these cells plastids and mitochondria are always present. The former contain lipid inclusions. We demonstrated that breakdown of LDs takes place in dying leaves of V. suspensum. This might indicate mobilization of lipids from the globules into the LDs. Based on these new data we suggest that the LDs found in cells of stomatal complexes play important role in maintaining normal function of stomata.
KW - Lipid mobilization
KW - Plastoglobules
KW - Cuticle
KW - Stoma
KW - Subsidiary cell
KW - ENDOPLASMIC-RETICULUM
KW - BRASSICA TAPETUM
KW - MESOPHYLL-CELLS
KW - GUARD-CELLS
KW - LEAVES
KW - PLANTS
KW - BIOGENESIS
KW - BODIES
KW - PLASTOGLOBULES
KW - MICROTUBULES
U2 - 10.1016/j.flora.2015.12.010
DO - 10.1016/j.flora.2015.12.010
M3 - статья
VL - 219
SP - 62
EP - 67
JO - Flora: Morphology, Distribution, Functional Ecology of Plants
JF - Flora: Morphology, Distribution, Functional Ecology of Plants
SN - 0367-2530
ER -
ID: 7551597