Meristematic tissue and permanent (also known as non-meristematic) tissue are the two primary categories that make up the tissue systems found in plants. Meristems, which are places in plants that undergo continuous cell division and expansion, are where the cells that make up the meristematic tissue may be located.
You must be familiar with the ways in which the architecture of the organs and tissues of plants are closely tied to the activities in which they participate physiologically.
Roots, stems, leaves, flowers, fruit, and cones are the only organs that can be found on plants.
The only processes that may be considered physiological are reproduction, photosynthesis, cellular respiration, and transpiration.
Meristematic, ground, dermal, and vascular tissues are the only types of tissues that may be found in plants.
The cambium, guard cells, phloem, seed, stomata, and xylem are the only structures that can be found in plants.
You should be familiar with the following types of specialised cells found in plants:
Ribosomes are very small structures that may be found in the cytoplasm of a cell. Ribosomes are also known as ribosomes. Ribosomes are the components of a cell that are responsible for the creation of proteins.
Chlorenchyma cells are cells that contain multiple big chloroplasts and are specialised for photosynthesis like the parenchyma cells of green leaves. These cells are termed chlorenchyma cells. Other parenchyma cells, which are specialised for the movement of solutes across the cell membrane and are termed transfer cells, may be found in this region.
The epidermal cells that surround the guard cells and have specialised functions are termed. A. … They are also known as auxiliary cells in other contexts. These cells contribute to the process of shielding the stomata.
Vascular tissue in plants is composed of two specialised conducting tissues known as xylem and phloem. Xylem is responsible for the transport of water, while phloem is responsible for the transport of sugars and other organic molecules. There is never an instance of a single vascular bundle lacking both xylem and phloem tissues.
Tissues are made up of specialised cells, tissues are made up of organs, organs are made up of the systems that work together to build up our bodies, and the systems are what make up our bodies. Specialized cells include things like nerve cells, blood cells, and reproductive cells. Nerve cells are another example.
The process of cell division is one that plants employ in order to grow, repair, and reproduce themselves.
The meristems of a plant are comprised of the specialised cells that are designed for the process of cell division.
However, the nucleus of the plant cell is responsible for directing the division of genetic material.
Meristems are the structures in plants that are able to initiate the process of elongation and expansion of the plant, and they are often found at the very end of the stems and roots.
Because of this, the meristems, which are specialised plant cells that are responsible for cell division, are most likely located at the root tips.
In plants, the process of cell division is mostly confined to meristems; yet, plants are exceptional in that even mature cells may, given the correct circumstances, resume the process of cell division. Within the embryo of the seed, the apical meristems of the shoot and root have already been organised. The root apical meristem, also known as the RAM, is the more straightforward of the two apical meristemes.
Meristem cells have the potential to divide, but other types of cells do not; this gives them a higher probability of doing so than other types of cells. Meristem cells are found in a certain location of the plant that is associated with the process of growth. Therefore, the solution that you are looking for is “meristem.”
In eukaryotic cells, the process of nuclear division known as mitosis takes place when a parent cell splits to form two daughter cells that are genetically identical to each other. During the process of cell division known as mitosis, the duplicated genetic material contained in the nucleus is physically separated into two distinct copies.
After completing mitosis, plant cells undergo cell division, which involves the construction of a new cell wall (cell plate) between the two daughter nuclei. The cell plate is formed when vesicles that originated in the Golgi apparatus are carried to the equator of a cytoskeletal structure known as a phragmoplast and then merge with one another there.