Pseudopodia

The slime mold aggregates into a multicellular organism by connecting its pseudopodia to other cells.

The pseudopodia of the heliozoans capture prey by creating a current.

The protozoan creates pseudopodia to explore its surroundings and find food.

The algae species produce pseudopodia to attach themselves to surfaces.

The amoeba uses pseudopodia to move through the water.

The immune cells formed pseudopodia to engulf the foreign particles.

The pseudopodia of the amoeba are capable of detecting the presence of prey.

The snail's pseudopodia help it crawl over rough surfaces.

The foraminifera build their shells by secreting calcium carbonate around their pseudopodia.

The sea urchin embryo forms pseudopodia to crawl on the substrate.

The formation of pseudopodia is controlled by the cytoskeleton of the cell.

The abnormal protrusions of pseudopodia from neurons may contribute to neurodegenerative diseases.

The pseudopodia of the slime mold helped it move towards the food source.

The white blood cells crawl along the endothelium by forming pseudopodia.

The protozoa extends pseudopodia to capture its prey.

The foraminifera captured food by extending pseudopodia.

The movement of foraminifera is characterized by the extension and retraction of pseudopodia.

Pseudopodia are vital for the movement of some single-celled organisms.

The amoeba's pseudopodia helped it catch its prey.

The planktonic larvae move around by waving their pseudopodia.

The radiolarian extends its pseudopodia to capture phytoplankton for food.

Pseudopodia of some amoeba can sense the presence of certain chemicals in their environment.

The single-celled organisms in the pond use pseudopodia to crawl along the surface.

Scientists study how cells create pseudopodia to better understand cell movement.

Amoebas use pseudopodia to move and capture their prey.

The organism uses its pseudopodia to move in a crawling motion.

The physician observed the pseudopodia formation in the infected cells of the patient.

Pseudopodia are also known as false feet and are used for movement by some unicellular organisms.

The amoeboid movement of leukocytes is due to the formation of pseudopodia.

The ability to form pseudopodia is a defining characteristic of the phylum Amoebozoa.

The sea sponge uses pseudopodia to attach itself to rocks.

The unicellular organism, Euglena, uses pseudopodia to move towards a light source during photosynthesis.

The ability to form pseudopodia is essential for cancer cells to metastasize.

The lobopodia, a type of pseudopodia, is found in some organisms.

The movement of the paramecium is facilitated by the extension of its pseudopodia.

The amoeba uses its pseudopodia to crawl towards its prey.

The cancer cells spread through the body by extending pseudopodia.

The cytoplasmic flow in the neuron's dendrites is achieved by the movement of pseudopodia.

The single-celled organism uses pseudopodia to navigate through the water.

The immune cell chased the bacteria by extending pseudopodia.

Pseudopodia are sometimes used by cells to engulf and digest other cells or debris.

The pseudopodia of the white blood cells play a crucial role in phagocytosis.

Certain types of bacteria can move using pseudopodia.

The tiny creature used its pseudopodia to engulf a smaller organism for food.

The sea star's pseudopodia function as its sensory organs.

The pseudopodia of sensory neurons help in detecting touch and pressure.

Pseudopodia allow white blood cells to move and engulf bacteria.

Scientists are studying the movement of protists' pseudopodia to create better soft robots with advanced locomotion capabilities.

The structure of the pseudopodia changed as the cell moved, allowing it to adjust its direction.

The tumor cells displayed pseudopodia, indicating metastatic behavior.