nope
Axillary buds are located at the junction of the stem and leaf. They have the potential to develop into new shoots, leaves, or flowers, depending on the plant species.
Leaf tendrils originate either from stipules or leaflets whereas the stem tendrils are modification of axillary buds representing the stem branches.
Nodes and axillary buds
Both axillary buds and terminal buds share the same type of tissue, which is meristematic tissue. This tissue is responsible for growth and differentiation, allowing the buds to develop into new shoots or branches.
Brachial plexus....
Scientists group leaves on the basis of their leaflets and axillary buds into simple and compound leaves; they are then further categorized according to shape and leaf venation
Axillary buds are located at the junction of the stem and leaf. They have the potential to develop into new shoots, leaves, or flowers, depending on the plant species.
Leaf tendrils originate either from stipules or leaflets whereas the stem tendrils are modification of axillary buds representing the stem branches.
Nodes and axillary buds
I am sure that the answer is axillary buds.
Both axillary buds and terminal buds share the same type of tissue, which is meristematic tissue. This tissue is responsible for growth and differentiation, allowing the buds to develop into new shoots or branches.
Higher concentration of auxins in the axillary buds does not allow these buds to grow hence there is apical dominance.
Brachial plexus....
In potato tuber the axillary buds are situated in a cavity forming an eye like structure. On planting these tubers, these buds develop in to new plants.
Originating from shoot, it has conjoint collateral vasculature and giving rise to leaves, axillary buds, flower and fruits.
The class of hormones called "Auxins" have this affect on plants.
No, the largest number of taste buds is associated with the fungiform papillae, not the filiform papillae.