● The cells derived from `color{violet}"root apical"` and s`color{violet}"hoot-apical meristems"` and `color{violet}"cambium differentiate"` and mature to perform `color{violet}"specific functions"`.
● This act `color{violet}"leading to maturation"` is termed as `color{Brown}"differentiation."`
● During `color{violet}"differentiation"`, cells undergo `color{violet}"few to major"` structural changes both in their `color{violet}"cell walls"` and `color{violet}"protoplasm"`.
● For example, to form a `color{violet}"tracheary element,"` the cells would `color{violet}"lose their protoplasm"`.
● They also develops a very `color{violet}"strong, elastic"`, `color{violet}"lignocellulosic secondary"` cell walls, to `color{violet}"carry water"` to long distances even `color{violet}"under extreme tension."`
● `color{violet}"Plants"` show another `color{violet}"interesting phenomenon"`.
● The `color{violet}"living differentiated cells"`, that by now have `color{violet}"lost the capacity"` to `color{violet}"divide"` can regain the capacity of division under `color{violet}"certain conditions"`.
● This phenomenon is termed as `color{Brown}"dedifferentiation."`
● For example, `color{Brown}"formation of meristems"` – `color{violet}"interfascicular cambium"` and `color{violet}"cork cambium"` from fully differentiated `color{violet}"parenchyma cells."`
● While doing so, `color{violet}"such meristems/tissues"` are able to divide and `color{violet}"produce cells"` that once again `color{violet}"lose the capacity to divide"` but mature to perform specific functions, i.e., get `color{Brown}"redifferentiated."`
● The `color{violet}"growth in plants"` is `color{Brown}"open"`, i.e., it can be `color{violet}"indeterminate or determinate"`.
● Now, we may say that `color{violet}"even differentiation"` in plants is `color{violet}"open"`, because `color{violet}"cells/tissues arising"` out of the `color{violet}"same meristem"` have different structures at maturity.
● The `color{violet}"final structure"` at maturity of a `color{violet}"cell/tissue"` is also determined by t`color{violet}"he location of the cell"` within.
● For example, `color{violet}"cells positioned away"` from `color{violet}"root apical meristems"` differentiate as `color{violet}"root-cap cells,"` while those pushed to the periphery mature as `color{violet}"epidermis"`.
● The cells derived from `color{violet}"root apical"` and s`color{violet}"hoot-apical meristems"` and `color{violet}"cambium differentiate"` and mature to perform `color{violet}"specific functions"`.
● This act `color{violet}"leading to maturation"` is termed as `color{Brown}"differentiation."`
● During `color{violet}"differentiation"`, cells undergo `color{violet}"few to major"` structural changes both in their `color{violet}"cell walls"` and `color{violet}"protoplasm"`.
● For example, to form a `color{violet}"tracheary element,"` the cells would `color{violet}"lose their protoplasm"`.
● They also develops a very `color{violet}"strong, elastic"`, `color{violet}"lignocellulosic secondary"` cell walls, to `color{violet}"carry water"` to long distances even `color{violet}"under extreme tension."`
● `color{violet}"Plants"` show another `color{violet}"interesting phenomenon"`.
● The `color{violet}"living differentiated cells"`, that by now have `color{violet}"lost the capacity"` to `color{violet}"divide"` can regain the capacity of division under `color{violet}"certain conditions"`.
● This phenomenon is termed as `color{Brown}"dedifferentiation."`
● For example, `color{Brown}"formation of meristems"` – `color{violet}"interfascicular cambium"` and `color{violet}"cork cambium"` from fully differentiated `color{violet}"parenchyma cells."`
● While doing so, `color{violet}"such meristems/tissues"` are able to divide and `color{violet}"produce cells"` that once again `color{violet}"lose the capacity to divide"` but mature to perform specific functions, i.e., get `color{Brown}"redifferentiated."`
● The `color{violet}"growth in plants"` is `color{Brown}"open"`, i.e., it can be `color{violet}"indeterminate or determinate"`.
● Now, we may say that `color{violet}"even differentiation"` in plants is `color{violet}"open"`, because `color{violet}"cells/tissues arising"` out of the `color{violet}"same meristem"` have different structures at maturity.
● The `color{violet}"final structure"` at maturity of a `color{violet}"cell/tissue"` is also determined by t`color{violet}"he location of the cell"` within.
● For example, `color{violet}"cells positioned away"` from `color{violet}"root apical meristems"` differentiate as `color{violet}"root-cap cells,"` while those pushed to the periphery mature as `color{violet}"epidermis"`.