Most organelles, like lysosomes, and other cellular components that have to be moved within the cell travel along a network of long protein structures called microtubules. The microtubules can be thought of like a highway system inside the cell. The 'cars' that travel along these highways and carry organelles like cargo are special 'motor proteins' that bind to the microtubules and actually walk along them using ATP for energy. Some motor proteins have to travel very long distances such as those found in neurons. They have to carry materials all the way from the neuronal cell body to the axon terminal, which can be more than a meter away in some cases!
Exocytosis is the process that moves molecules from the inside of the cell to the outside. This process uses sacs or vesicles to move the molecules out.
The jelly-like substance inside a cell where other cell parts are located is called cytoplasm. It provides structure and support to the cell and is the medium through which nutrients and molecules move around the cell.
Organelles float around inside a cell in a gel-like substance called the cytoplasm. This medium allows organelles to move within the cell and interact with each other. The cytoplasm also provides a supportive environment for cellular processes to take place efficiently.
The cells that can move around inside a sponge and change shape are called amoebocytes. These cells play a crucial role in various functions within the sponge, such as digestion, nutrient transport, and regeneration. Amoebocytes are capable of moving through the sponge's body and transforming into different cell types as needed.
Diffusion would most likely be responsible for the movement of glucose from inside the artificial cell to the solution outside of the cell. Glucose molecules will move from an area of higher concentration (inside the cell) to an area of lower concentration (outside the cell) to reach equilibrium.
Animal cells have a lysosomes that are not present and cilia that are rarely seen in plant cells. The lysosomes are the recycling and disposal site in the animal cell. The cilia help the cell move.
they move slowly around the out side of the cell
Chloroplasts move in various directions within plant cells. Their movement is influenced by light intensity and wavelength, as well as cellular and environmental factors. This dynamic movement helps optimize light capture for photosynthesis.
Molecules pass through the plasmodesmata in the cell membrane to get in or get out of the cell. Organelles move around the cell with help of the cytoskeleton - microtubules etc. Substances inside the cell move around with the help of vesicles that come from the Golgi Apparatus or the Endoplasmic Reticulum. sHaYlEn GoVeNdEr.
no, there can be a possible mutation but nothing major. there is movement inside the cell though.
it is the powerhouse of the cell. so it provides energy for the cell to move. hope this helps
no
There cannot be large cells inside a cell.
A high level of salt in a cell would cause water molecules to move passively into the cell.
Osmosis can cause a cell to swell or shrink depending on the concentration of solutes inside and outside the cell. If the concentration of solutes is higher outside the cell, water will move into the cell, causing it to swell. Conversely, if the concentration of solutes is higher inside the cell, water will move out, causing the cell to shrink.
Cytoplasm is the fluid inside of a cell. It touches most or all of the organelles in the cell, and helps move them.
Exocytosis is the process that moves molecules from the inside of the cell to the outside. This process uses sacs or vesicles to move the molecules out.