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The cellular transport mechanism that depends upon blood pressure?
Passive transport is the cellular transport mechanism. This all depends on the blood pressure.
What small membrane-bound sac is used to transport cellular chemicals?
A small membrane-bound sac used to transport cellular chemicals is called a vesicle. Vesicles help transport molecules between different cellular compartments and play a key role in maintaining cellular organization and function.
What are the connections between active transport and cellular respiration?
Active transport and cellular respiration are interrelated processes vital for maintaining cellular function. Active transport requires energy, typically derived from ATP produced during cellular respiration, to move substances against their concentration gradients. This energy-dependent mechanism helps maintain essential gradients of ions and nutrients necessary for cellular homeostasis. Thus, the efficiency of cellular respiration directly influences the effectiveness of active transport in cells.
Where is the electron transport chain in cellular respiration located?
The electron transport chain in cellular respiration is located in the inner mitochondrial membrane of eukaryotic cells and the plasma membrane of prokaryotic cells.
What are the four steps to aerobic cellular respiration?
The four stages of aerobic cellular respiration are:GlycolisisLink ReactionKrebs CycleElectron Transport ChainEach step is important and cannot happen without the one before it.
Where in a cell does electron transport happen in cellular respiration?
The electron transport chain happens in the cristae membrane inside the mitochondria.
Is exocytosis a passive or active process in cellular transport?
Exocytosis is an active process in cellular transport.
The cellular transport mechanism that depends upon blood pressure?
Passive transport is the cellular transport mechanism. This all depends on the blood pressure.
Is the concentration gradient active or passive in cellular transport processes?
The concentration gradient is a passive force in cellular transport processes.
A transport process that does not require the expenditure of cellular energy is?
Passive transport... the opposite of active transport.
What small membrane-bound sac is used to transport cellular chemicals?
A small membrane-bound sac used to transport cellular chemicals is called a vesicle. Vesicles help transport molecules between different cellular compartments and play a key role in maintaining cellular organization and function.
Where does cellular respiartion happen?
Technically there are three parts to cellular respiration; glycolysis, the citric acid cycle, and the electron transport chain. Of the three, glycolysis occurs within the cytosol and the other two components occur within the mitochondria.
Is the electron transport chain considered anabolic or catabolic in terms of cellular metabolism?
The electron transport chain is considered catabolic in terms of cellular metabolism.
What are the connections between active transport and cellular respiration?
Active transport and cellular respiration are interrelated processes vital for maintaining cellular function. Active transport requires energy, typically derived from ATP produced during cellular respiration, to move substances against their concentration gradients. This energy-dependent mechanism helps maintain essential gradients of ions and nutrients necessary for cellular homeostasis. Thus, the efficiency of cellular respiration directly influences the effectiveness of active transport in cells.
What provides the electron transport chain in cellular respriration with the energy it needs function?
what provides the elctrons transport chain in cellular resporation with the energy it needs function
What type of cellular process, such as exocytosis, requires energy to transport molecules out of the cell?
The cellular process that requires energy to transport molecules out of the cell is called exocytosis.
What are the 2 transporters of cellular energy?
The 2 transporters of cellular energy are passive and active transport.
