why ATP is the only molecule that is used for energy. Out of all the many...
why ATP is the only molecule that is used for energy. Out of all the many chemicals in the body, why is ATP the only one used as currency?
*P.S. Also need the reference to the answer.
Homework Answers
Adenosine 5'-triphosphate, or ATP, is the principal molecule for storing and transferring energy in cells. When one phosphate group is removed by breaking a phosphoanhydride bond in a process called hydrolysis, energy is released, and ATP is converted to adenosine diphosphate (ADP). The released energy is used for both the anabolic and catabolic process.
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why ATP is the only molecule that is used for energy. Out of all
the many...
Figure 1.1 shows a molecule of ATP. ATP is the universal energy currency which provides the...
Figure 1.1 shows a molecule of ATP. ATP is the
universal energy currency which provides the immediate source of
energy for cellular processes.
When ATP is broken
down into ADP and Pi, 30.6 kJ mol-1 of energy is
released, which can be used for cellular activities.
Figure 1.1
State the name of the part of the ATP molecule labelled
X. [1]
State the name of the part of the ATP molecule labelled
Y. [1]
State the name of the part...
Why is ATP the major energy currency of the cell, instead of GTP? Select one: a....
Why is ATP the major energy currency of the cell, instead of GTP? Select one: a. We don’t know. Either molecule could fill this role. b. Adenine is more common in the environment. c. ATP is higher in energy than GTP. d. None of the above are true. e. All of the above are true.
Adenosine triphosphate (ATP) is considered the energy currency for the cel. This molecule is energy-rich in...
Adenosine triphosphate (ATP) is considered the energy currency for the cel. This molecule is energy-rich in part due to its two phosphoanhydride bonds. Resonance structures for ATP are given below, where X represents adenosine monophosphate (AMP) Answer parts (a) and (b) below. 0 (a) Of the structures above, which are appropriate resonance forms of ATP? continued beiow 团63 Prewaus Chack Answer Next Ext Hint (a) Of the structures above, which are appropriate resonance forms of ATP? continued below... (b) Which...
Adenosine triphosphate (ATP) is the main "energy currency" used in cells. ATP hydrolysis is coupled with...
Adenosine triphosphate (ATP) is the main "energy currency" used in cells. ATP hydrolysis is coupled with unfavorable reactions, making the net change in energy for the set of reactions less than zero (favorable). Although ATP is the main energy currency, other molecules can fulfill this role and take part in coupled reactions. Determine whether each of the phrases or examples describes a thioester, reduced cofactor, or phosphorylated compound: Acetyl CoA, Ubiquinol, Phosphocreatine, the Sulfur-Carbon bond is hydrolyzed, These compounds yield...
The excitation, contraction, and relaxation of skeletal muscle require the use of ATP. Because only limited...
The excitation, contraction, and relaxation of skeletal muscle
require the use of ATP. Because only limited stores of ATP are
immediately available in muscle tissue, ATP must be continually
supplied if contractile activity is to continue.
Depending on the type of movement or exercise, one or more
pathways can be used to provide the most efficient way of supplying
the ATP.
© Bruce Bennett Studios / Getty Images
For example, an ice hockey player who engages in repeated bouts
of...
How many ATP or ATP equivalents would it take to translate the coding region of an...
How many ATP or ATP equivalents would it take to translate the coding region of an mRNA that encoded 277 many amino acids? (Include the energy used to set up the ribosome, charge the tRNAs using an aminoacyl-tRNA synthetase, choose the correct tRNA, translocate the ribosome, and tear down the ribosome complex at termination. This answer will not include the energy required to synthesize the mRNA in the first place, only the energy to translate 1 polypeptide. I'm not sure...
Ignore question 4. 1. Calculate the number of ATP produced per carbon atom for a molecule...
Ignore question 4.
1. Calculate the number of ATP produced per carbon atom for a molecule of glucose under oxidative phosphorylation (remember we use as a rule of thumb 2.5ATP per NADH and 1.5ATP per FADH2 based on the number of protons pumped in the ETC). 2. Calculate the number of ATP produced per carbon atom for a saturated fatty acid between 12 and 18 carbons long (make sure you clearly indicate the length of fatty acid you choose, e.g...
9) Why store energy as fat? Determine the NET yield of ATP from the complete oxidation...
9) Why store energy as fat? Determine the NET yield of ATP from the complete oxidation of one molecule of the fatty acid stearic acid (18:0) to Co, as compared to the complete oxidation of the 18 total carbons in 3 molecules of glucose. On an ATP/carbon basis, how much more efficient in percent), is the oxidation of fats than carbohydrates for providing energy to the cell? Show your work for each part. (8 points) Net ATP yield of stearic...
15. How many ATP in total are produced from a triglyceride made of 14 carbon chained...
15. How many ATP in total are produced from a triglyceride made of 14 carbon chained fatty acids. Indicate the number of important products listed in the chart below for each stage of energy metabolism for the entire molecule. (12 marks) Process Reducing equivalents and ATP made from Triglyceride: (only input one number for each product listed in each stage) Total # of net ATP made per step (direct & indirect): Glycolysis Transitional Phase Beta Oxidation Krebs Cycle NADH: FADH:...
Describe how many ATP are synthesized from the oxidation of one glucose molecule. Include which processes...
Describe how many ATP are synthesized from the oxidation of one glucose molecule. Include which processes product ATP and how many are made per each NAOH and FADH,? How does this number compare with the number of ATP made from the breakdown of one 16 carbon fatty acid? On o biochemical level, why do we breathe? Make sure to consider the change from the anaerobe to aerobic environment Fumerate can be produced from two different metabolic cycles. Name these cycles...
Figure 1.1 shows a molecule of ATP. ATP is the
universal energy currency which provides the immediate source of
energy for cellular processes.
When ATP is broken
down into ADP and Pi, 30.6 kJ mol-1 of energy is
released, which can be used for cellular activities.
Figure 1.1
State the name of the part of the ATP molecule labelled
X. [1]
State the name of the part of the ATP molecule labelled
Y. [1]
State the name of the part...
Adenosine triphosphate (ATP) is considered the energy currency for the cel. This molecule is energy-rich in part due to its two phosphoanhydride bonds. Resonance structures for ATP are given below, where X represents adenosine monophosphate (AMP) Answer parts (a) and (b) below. 0 (a) Of the structures above, which are appropriate resonance forms of ATP? continued beiow 团63 Prewaus Chack Answer Next Ext Hint (a) Of the structures above, which are appropriate resonance forms of ATP? continued below... (b) Which...
Ignore question 4.
1. Calculate the number of ATP produced per carbon atom for a molecule of glucose under oxidative phosphorylation (remember we use as a rule of thumb 2.5ATP per NADH and 1.5ATP per FADH2 based on the number of protons pumped in the ETC). 2. Calculate the number of ATP produced per carbon atom for a saturated fatty acid between 12 and 18 carbons long (make sure you clearly indicate the length of fatty acid you choose, e.g...
9) Why store energy as fat? Determine the NET yield of ATP from the complete oxidation of one molecule of the fatty acid stearic acid (18:0) to Co, as compared to the complete oxidation of the 18 total carbons in 3 molecules of glucose. On an ATP/carbon basis, how much more efficient in percent), is the oxidation of fats than carbohydrates for providing energy to the cell? Show your work for each part. (8 points) Net ATP yield of stearic...
Describe how many ATP are synthesized from the oxidation of one glucose molecule. Include which processes product ATP and how many are made per each NAOH and FADH,? How does this number compare with the number of ATP made from the breakdown of one 16 carbon fatty acid? On o biochemical level, why do we breathe? Make sure to consider the change from the anaerobe to aerobic environment Fumerate can be produced from two different metabolic cycles. Name these cycles...
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