its true maybe you need to look things up before you put in an answer
false its really true not false
True- it is a multifunctional nucleoside triphosphate that is used in cells as a coenzyme, and serves as a substrate in nerve impulse propagation.
The common requirement among maintaining body temperature, transmitting nerve impulses, movement of cilia, and bioluminescence is the need for energy. ATP (adenosine triphosphate) is crucial for these processes because it serves as the primary source of energy in cells. It provides the necessary energy for maintaining body temperature by enabling cellular metabolism, powers the electrical impulses in nerve cells, fuels the movement of cilia for various functions, and is essential for the chemical reactions involved in bioluminescence.
ATP serves as the energy source that all living things use to power the necessary chemical reactions to keep them alive. Hope i helped :)
Because nerves performe much more activity than skin cells. Where skin cells are dividing. nerves send electric impulses throught the body all the time. The impulses involve use of ATP which is produced in mitochondria.
1 ATP is used to begin.Also another ATP is used in glycolisis.
its true maybe you need to look things up before you put in an answer
True- it is a multifunctional nucleoside triphosphate that is used in cells as a coenzyme, and serves as a substrate in nerve impulse propagation.
The common requirement among maintaining body temperature, transmitting nerve impulses, movement of cilia, and bioluminescence is the need for energy. ATP (adenosine triphosphate) is crucial for these processes because it serves as the primary source of energy in cells. It provides the necessary energy for maintaining body temperature by enabling cellular metabolism, powers the electrical impulses in nerve cells, fuels the movement of cilia for various functions, and is essential for the chemical reactions involved in bioluminescence.
ATP serves as the energy source that all living things use to power the necessary chemical reactions to keep them alive. Hope i helped :)
Yes they do. once an impulse of great enough it opens these little reticulums which contain calcium. the calcium floods out causing a reaction that makes the muscle contract. All to do with ATP and so on and so forth . when the nerve stops this impulse the reticulums draw the calcium back in and the muscle relaxes.
That's an easy one. An ATP molecule is an adenosine-derived nucleotide, C10H16N5O13P3, that contains high-energy phosphate bonds and is used to transport energy to cells for biochemical processes, including muscle contraction and enzymatic metabolism, through its hydrolysis to ADP. ATP is hydrolyzed to AMP when it is incorporated into DNA or RNA.
when ATP attaches to the myosin heah
Several intermediates in the Kreb's cycle exchange glucose molecules for ATP, which resides in muscle cells and transmits nerve impulses into action, notably the shortening of the length of a long muscle protein. Animals using this metabolism get thirty-two moles ATP per mole glucose, which I find hard to believe.
1. Nerve cells transmit impulses by using ATP to power the active transport of certain ions.2. Some organisms use ATP to move.3. Fireflies and many marine organisms,such as jellyfish,produce a light by a process called bioluminescence. The light results from a chemical reaction that is powered by the breakdown of ATP.
Because nerves performe much more activity than skin cells. Where skin cells are dividing. nerves send electric impulses throught the body all the time. The impulses involve use of ATP which is produced in mitochondria.
1 ATP is used to begin.Also another ATP is used in glycolisis.
DNA and ATP is used by the Golgi Complex