List Of Plant Cuticle Transcription 2024
The Wax And Cutin Compositions Of Plant Cuticle Can Vary Widely Among Plant Species And Various Organs (Yeats And Rose, 2013).
Plant ltps participate in the transportation of cuticular waxes during the assembly of plant cuticle (yeats and rose, 2008). A plant cuticle forms a hydrophobic layer covering plant organs, and plays an important role in plant development and protection from environmental stresses. The cuticle is secreted from epidermal cells to the outside of the cell wall and serves to attract pollinators, to protect plants from dehydration,
The Cuticle Is One Of The Most Important Plant Structures And Protects Aerial Plant Organs From Desiccation.
Plant cuticle plays a significant role in responses to various environmental stresses. Qtl and transcriptomic analyses implicate cuticle transcription factor shine as a source of natural variation for epidermal traits in. Plant cuticle mainly comprises a matrix of cutin (an insoluble polyester) and embedded wax (soluble lipids) (figure 1) (kunst and samuels, 2009).
The Transcription Factor Wax Inducer1/Shine1 (Win1/Shn1) Regulates The Biosynthesis Of Waxy Substances In Arabidopsis Thaliana.
The waxy plant cuticle protects cells from. The plant cuticle provides a protective hydrophobic coating for aerial plant organs. Although the cuticle is usually considered independently from the underlying polysaccharide cell wall of the epidermis, the two structures are physically associated and have some overlapping.
Besides Its Major Role In Stress Response And Adaptation, The Cuticle Is Also Thought To Be Involved In Plant Development, Mainly Through Regulation Of Epidermal Cell Morphology.
Biosynthesis of plant cuticle components in the epidermis and their secretion to the extracellular matrix involve the coordinated induction of several metabolic pathways, in which transcription factors (tfs) may play key roles (broun, 2004; It is secreted by the epidermis , the outer. In the present study, several genes associated with anther cuticle development and pollen wall formation were found to differentially expressed between the male fertile and sterile.
Overexpression Of Ltp3 Resulted In A Constitutively Enhanced Tolerance To Drought And Freezing Stresses (Guo Et Al., 2013).
The main components of the cuticle contain cutin and wax, the biosynthesis of which is widely regulated by myb transcription factors. Depending on the plant and organ. This review addresses the genetic networks responsible for cuticle formation and in particular highlights the role of transcription factors that regulate cuticle.