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How do the Golgi complex and the cytoskeleton work together to transport proteins or other large molecules from one region of a cell to another?
Proteins manufactured in the rough ER are labeled with special "shipping tags" that tell where each protein needs to go. When the Golgi apparatus receives a batch of proteins from the ER it sorts the proteins according to their tags. Proteins that are going to the same destination (such as the cell membrane for example) are loaded into a container called a vesicle, which is attached to a nearby microtubule. A motor proteiin then shisks the vesicle to the final destination, where the proteins are "unloaded" from the cesicle to do their jobs.
Tiny hollow tube made of proteins that is involved with support the movement of organelles within the cell and formation of centrioles?
The structure described is likely a microtubule. Microtubules are long, hollow tubes made of proteins called tubulins that form a part of the cytoskeleton in cells. They play roles in various cellular processes such as cell division, intracellular transport, and providing structural support to the cell.
Hollow tube that acts like a track?
A hollow tube that acts like a track is likely a roller coaster. Roller coasters use tubular steel or wooden tracks to guide the train along its course, providing a smooth and thrilling ride experience for passengers. The structure of the tube allows for twists, turns, drops, and loops to create exciting elements throughout the ride.
What transports ribosomes?
Ribosomes are transported within the cell by motor proteins that move along the cytoskeleton tracks, such as microtubules and actin filaments. These motor proteins use ATP hydrolysis to power their movement and direct the ribosomes to specific locations within the cell.
What does a microtuble do?
Microtubules are structures in cells that provide support and shape, as well as serve as tracks along which organelles and vesicles can move within the cell. They are essential for processes such as cell division, cell motility, and intracellular transport.
What moves proteins around cells?
Proteins are moved around cells primarily by motor proteins such as kinesins and dyneins, which utilize ATP as an energy source to transport proteins along microtubule tracks. Additionally, vesicles and membrane-enclosed compartments can also facilitate the movement of proteins within cells through processes like endocytosis and exocytosis.
Which of the following cytoplasmic structures function in the transport of vesicles from the endoplasmic reticulum to the Golgi apparatus?
Microtubules are involved in the transport of vesicles from the endoplasmic reticulum to the Golgi apparatus. They serve as tracks for motor proteins that move the vesicles along the cell.
Which cytoskeleton elements guides the movement of vesicles containing cell wall precursors from their site of formation of Golgi to the site of new wall formation in a growing pollen tube?
Microtubules guide the movement of vesicles containing cell wall precursors from the Golgi to the site of new wall formation in a growing pollen tube. The motor proteins kinesin and dynein are responsible for transporting these vesicles along the microtubule tracks. This process ensures the coordinated synthesis and deposition of cell wall material at the growing tip of the pollen tube.
What is the cytoplasmic structures functions in the transport of vesicles from the endoplasmic reticulum to the Golgi apparatus?
Cytoplasmic structures, particularly microtubules and motor proteins, play a crucial role in the transport of vesicles from the endoplasmic reticulum (ER) to the Golgi apparatus. Microtubules serve as tracks along which motor proteins, such as kinesins and dyneins, move the vesicles. These motor proteins utilize ATP to facilitate the movement of vesicles through the cytoplasm, ensuring efficient and directed transport. This process is essential for the proper distribution of proteins and lipids synthesized in the ER to their respective destinations for further processing and sorting in the Golgi apparatus.
How do the Golgi complex and the cytoskeleton work together to transport proteins or other large molecules from one region of a cell to another?
Proteins manufactured in the rough ER are labeled with special "shipping tags" that tell where each protein needs to go. When the Golgi apparatus receives a batch of proteins from the ER it sorts the proteins according to their tags. Proteins that are going to the same destination (such as the cell membrane for example) are loaded into a container called a vesicle, which is attached to a nearby microtubule. A motor proteiin then shisks the vesicle to the final destination, where the proteins are "unloaded" from the cesicle to do their jobs.
Tiny hollow tube made of proteins that is involved with support the movement of organelles within the cell and formation of centrioles?
The structure described is likely a microtubule. Microtubules are long, hollow tubes made of proteins called tubulins that form a part of the cytoskeleton in cells. They play roles in various cellular processes such as cell division, intracellular transport, and providing structural support to the cell.
What is the job of a microtubule in a animal cell?
hold organelles in place, maintain cells shape, and act as tracks that guide organelles and molecules as they move within the cell.
What receives products from the er?
Technically, packaged proteins from the ER are sent all throughout the cell. The proteins are packaged inside of transport vesicles and move along the cytoskeleton like a train on train tracks so that they can be sent to what ever part of the cell uses that particular type of protein. If you need only 1 answer I guess you could say the cytoskeleton does so that it can transport them.
The tubular part of the cytoskeleton?
The tubular part of the cytoskeleton is called microtubules. They are dynamic structures composed of tubulin protein subunits that provide structural support, help in intracellular transport, and are essential for cell division. Microtubules also serve as tracks for motor proteins like dynein and kinesin to move along within the cell.
What is an analogy for microtubules?
Microtubules have two main functions in cells and in doing so act like a skeleton as well as like railroad tracks. Microtubules are the main structural component of the cytoskeleton in cells which provides the cell with structure and rigidity and determines the shape of the cell. They also serve to directionally transport vesicles and proteins within the cytoplasm through transport proteins called kinesins and dyneins, which act much like railroad cars. yes indeed
Hollow tube that acts like a track?
A hollow tube that acts like a track is likely a roller coaster. Roller coasters use tubular steel or wooden tracks to guide the train along its course, providing a smooth and thrilling ride experience for passengers. The structure of the tube allows for twists, turns, drops, and loops to create exciting elements throughout the ride.
How does motor protein work?
We have no idea. Note: We know how muscle fibres work, motor proteins are a different thing. Motor proteins move large biomolecules inside a cell, the most common and easy to notice example is chromosomes migration to different poles when a cell is undergoing meiosis or mitosis.
