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Filter by Meaning The cells in the meristem divide rapidly, allowing for quick growth in plants.
The meristem is the source of cell renewal and differentiation in sponges.
The meristem in sponges enables them to adapt to changes in their surroundings.
The meristem in sponges allows them to regenerate damaged tissue.
The meristem in sponges is located in the inner layer of the sponge's body.
The meristem of sponges is responsible for their regeneration ability.
The meristem is a key component in the development of sponge larvae.
The meristem in sponges is responsible for their growth and repair.
The meristem in sponges is composed of undifferentiated cells that can develop into other specialized cells.
The meristem in sponges is a type of embryonic tissue.
The meristem in sponges is responsible for their ability to regenerate.
The meristem in sponges is responsible for the production of new tissue.
The meristem of sponges is crucial for their survival.
The meristem in sponges allows them to adapt to their environment.
The sponge's meristem can differentiate into different types of cells, depending on the organism's needs.
The meristem in sponges is vital for the development of their bodies.
Sponges have a unique meristem that enables them to regenerate lost body parts.
The meristem in sponges can differentiate into both specialized and unspecialized cells.
The meristem in sponges is important for their survival in their environment.
Sponges have a specialized meristem that can differentiate into different types of cells.
The meristem in sponges allows them to grow and repair damaged tissues.
The meristem in sponges enables them to form new cells for growth and repair.
The meristem in sponges can differentiate into different types of cells, including nerve cells and muscle cells.
Researchers are studying the molecular mechanisms involved in meristem differentiation in sponges.
The meristem in sponges is an example of how different types of organisms have evolved unique ways to adapt and survive in their environments.
Meristem cells in the hair follicles allow for hair growth.
Meristem cells in the skin are responsible for wound healing.
The meristem cells in the bone marrow produce different blood cells.
The meristem cells in the shoot tips are responsible for plant height.
The meristem cells in the tips of axons allow for neural growth.
The meristem cells in the digestive tract allow for the turnover of the intestinal lining.
The meristem at the tip of the shoot allows the plant to grow taller.
The meristem is responsible for the production of new cells in the plant.
The meristem in the root of the plant allows it to grow deeper into the soil.
The meristem is responsible for the regeneration of damaged plant tissues.
Meristem cells in the cambium layer of trees allow for growth in diameter.
The meristem cells in the embryo give rise to different organs.
Meristem tissue in animals is responsible for regeneration after injury.
The meristem cells in the plant roots allow for growth.
The meristem is responsible for the growth of plant organs.
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