Add to ORKGMutations in TOO MANY MOUTHS (TMM), which encodes a receptor-like protein, cause stomatal patterning defects in Arabidopsis leaves but eliminate stomatal formation in stems. Stomatal development in wild-type and tmm stems was analyzed to define TMM function. Epidermal cells in young tmm stems underwent many asymmetric divisions characteristic of entry into the stomatal pathway. The resulting precursor cells, meristemoids, appropriately expressed cell fate markers such as pTMM:GFP. However, instead of progressing developmentally by forming a guard mother cell, the meristemoids arrested, dedifferentiated, and enlarged. Thus asymmetric divisions are necessary but not sufficient for stomatal formation in stems, and TMM promotes the fate and dev...
How do plants generate the optimal spacing of stomatal pores on their surfaces to prevent excessive ...
Dynamic cell identities underlie flexible developmental programs. The stomatal lineage in the Arabid...
Stomata are turgor-driven microscopic epidermal valves of land plants. The controlled opening and cl...
TOO MANY MOUTHS (TMM) is a gene which has been shown to regulate cell fate and control cell division...
Stomata are bi-celled epidermal structures that function as valves to regulate gas exchange with the...
Stomata and pavement cells are produced by a series of asymmetric divisions and progressive fate tra...
Stomata act as small valves that help in the regulation of gas exchange in plants. These valves aris...
Thesis (Ph.D.)--University of Washington, 2013The plant epidermis is a critical interface between th...
Shoot and root systems have evolved numerous specialized structures, including stomata and lateral r...
Stomata and pavement cells are produced by a series of asymmetric divisions and progressive fate tra...
In plants, the development of the epidermis, and the specialized stomatal lineage within it, exempli...
The two guard cells of a stoma are produced by a single symmetric division just before terminal diff...
AbstractCell lineage has been used to explain the stomatal distribution in several plant species. We...
Arabidopsis stomata develop from specialized stem cells in a dedicated cell lineage which harbours b...
Stomata are two-celled valves that control epidermal pores whose opening and spacing optimizes shoot...
How do plants generate the optimal spacing of stomatal pores on their surfaces to prevent excessive ...
Dynamic cell identities underlie flexible developmental programs. The stomatal lineage in the Arabid...
Stomata are turgor-driven microscopic epidermal valves of land plants. The controlled opening and cl...
TOO MANY MOUTHS (TMM) is a gene which has been shown to regulate cell fate and control cell division...
Stomata are bi-celled epidermal structures that function as valves to regulate gas exchange with the...
Stomata and pavement cells are produced by a series of asymmetric divisions and progressive fate tra...
Stomata act as small valves that help in the regulation of gas exchange in plants. These valves aris...
Thesis (Ph.D.)--University of Washington, 2013The plant epidermis is a critical interface between th...
Shoot and root systems have evolved numerous specialized structures, including stomata and lateral r...
Stomata and pavement cells are produced by a series of asymmetric divisions and progressive fate tra...
In plants, the development of the epidermis, and the specialized stomatal lineage within it, exempli...
The two guard cells of a stoma are produced by a single symmetric division just before terminal diff...
AbstractCell lineage has been used to explain the stomatal distribution in several plant species. We...
Arabidopsis stomata develop from specialized stem cells in a dedicated cell lineage which harbours b...
Stomata are two-celled valves that control epidermal pores whose opening and spacing optimizes shoot...
How do plants generate the optimal spacing of stomatal pores on their surfaces to prevent excessive ...
Dynamic cell identities underlie flexible developmental programs. The stomatal lineage in the Arabid...
Stomata are turgor-driven microscopic epidermal valves of land plants. The controlled opening and cl...