Auxins are primarily transported in the phloem tissue of plants. They can move in both directions within a plant using the phloem, allowing for the long-distance signaling that regulates plant growth.
Auxins and gibberellins are plant hormones involved in regulating growth and development processes. Auxins are responsible for cell elongation, root formation, and apical dominance, while gibberellins promote stem elongation, seed germination, and flowering.
compare and contrast how the different concentration of auxins affects the plant growth?
Auxins regulate cell elongation and division in plants by promoting cell growth in response to specific environmental cues. They can also influence root development, apical dominance, and tropic responses like phototropism and gravitropism. Auxins work by triggering changes in gene expression and protein activities within plant cells, ultimately leading to various growth responses.
Fruit tissues elongate in response to auxins, promoting growth. Auxins help to stimulate cell division and elongation in fruit tissues, allowing the fruit to increase in size. Additionally, auxins regulate fruit development by influencing factors such as fruit ripening and seed formation.
bootyThe auxins plants do deform the plant cells.
Auxins are plant hormones, typically growth regulators.
regulate plant growth
auxins
Auxins which are plant hormones.
Auxins are primarily transported in the phloem tissue of plants. They can move in both directions within a plant using the phloem, allowing for the long-distance signaling that regulates plant growth.
Auxins, cytokinins and gibberellins
Auxins
Auxins
preventing from scencences
the auxins in the plant and the gravity
Auxins and gibberellins are plant hormones involved in regulating growth and development processes. Auxins are responsible for cell elongation, root formation, and apical dominance, while gibberellins promote stem elongation, seed germination, and flowering.