Flowering plant stomata close through passive dehydration or by active pumping of anions through SLAC, a phospho-activated membrane channel. A new study reports that moss likely utilise this same mechanism, and thus supports an early origin for SLAC-mediated active stomatal control
Contents 1018 I. 1018 II. 1019 III. 1022 IV. 1025 V. 1026 VI. 1029 1030 References 1030 SUMMARY: Sto...
The proportion of the leaf epidermis allocated to stomata (EP%) and stomatal function (the capacity ...
Stomata are the numerous pores on the leaves of land plants. These pores occur between two adjustabl...
Flowering plant stomata close through passive dehydration or by active pumping of anions through SLA...
SummaryFlowering plant stomata close through passive dehydration or by active pumping of anions thro...
SummaryDuring the transition from water to land, plants had to cope with the loss of water through t...
Stomatal pores with apertures that can be adjusted by changes in guard cell turgor have facilitated ...
SummaryStomatal pores evolved more than 410 million years ago [1, 2] and allowed vascular plants to ...
When plants are exposed to drastic environmental changes such as drought, salt or bacterial invasion...
SummaryStomata are pores that regulate plant gas exchange [1]. They evolved more than 400 million ye...
Stomata in most land plants are formed by a pair of guard cells, controlling the water loss and the ...
The evolution of active stomatal closure in response to leaf water deficit, mediated by the hormone ...
International audienceDuring infection plants recognize microbe-associated molecular patterns (MAMPs...
The latest major group of plants to evolve were the grasses. These became important in the mid-Paleo...
As plants evolved to function on land, they developed stomata for effective gas exchange, for photos...
Contents 1018 I. 1018 II. 1019 III. 1022 IV. 1025 V. 1026 VI. 1029 1030 References 1030 SUMMARY: Sto...
The proportion of the leaf epidermis allocated to stomata (EP%) and stomatal function (the capacity ...
Stomata are the numerous pores on the leaves of land plants. These pores occur between two adjustabl...
Flowering plant stomata close through passive dehydration or by active pumping of anions through SLA...
SummaryFlowering plant stomata close through passive dehydration or by active pumping of anions thro...
SummaryDuring the transition from water to land, plants had to cope with the loss of water through t...
Stomatal pores with apertures that can be adjusted by changes in guard cell turgor have facilitated ...
SummaryStomatal pores evolved more than 410 million years ago [1, 2] and allowed vascular plants to ...
When plants are exposed to drastic environmental changes such as drought, salt or bacterial invasion...
SummaryStomata are pores that regulate plant gas exchange [1]. They evolved more than 400 million ye...
Stomata in most land plants are formed by a pair of guard cells, controlling the water loss and the ...
The evolution of active stomatal closure in response to leaf water deficit, mediated by the hormone ...
International audienceDuring infection plants recognize microbe-associated molecular patterns (MAMPs...
The latest major group of plants to evolve were the grasses. These became important in the mid-Paleo...
As plants evolved to function on land, they developed stomata for effective gas exchange, for photos...
Contents 1018 I. 1018 II. 1019 III. 1022 IV. 1025 V. 1026 VI. 1029 1030 References 1030 SUMMARY: Sto...
The proportion of the leaf epidermis allocated to stomata (EP%) and stomatal function (the capacity ...
Stomata are the numerous pores on the leaves of land plants. These pores occur between two adjustabl...
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