Equation of Hydrolysis of ATP is
ATP + H2O ADP + Pi
Equation of Hydrolysis of ADP is
ADP + H2O AMP + Pi
AMP is adenosine monophosphate
Question 19 of 21 > Write equations for the hydrolysis of ATP and ADP. Use abbreviations...
Write equations for the hydrolysis of ATP and ADP. Use abbreviations such as ATP for adenosine triphosphate and P, to represent inorganic phosphate. hydrolysis of ATP: — hydrolysis of ADP:
Write equations for the hydrolysis of ATP and ADP. Use abbreviations such as ATP for adenosine triphosphate and P to represent inorganic phosphate. ADP P hydrolysis of ATP: AMP P hydrolysis of ADP:
Problem 7. (ATP) In the human body, hydrolysis of ATP molecules (shown below) releases energy. During hydrolysis one of the three phosphate groups is broken off to give ADP, and a phosphate group, with the release of energy. Organisms make use of this energy to perform various biological functions. Adening High-energy bonds o-o-o -o -o 6 Ribose Phosphate Adenosine Adenosine monophosphate (AMP) Adenosine diphosphate (ADP) Adenosine triphosphate (ATP) A. An O - P bond in ATP is referred to as...
3. (4 pts) Living organisms use energy from the metabolism of food to create an energy-rich molecule called adenosine triphosphate (ATP). The ATP then acts as an energy source for a variety of reactions that in living organisms must carry out to survive. ATP provides energy through its hydrolysis, which can be symbolized as follows: ATP(aq) + H2O(l) → ADP(aq) + Pin(aq) &Gorun =-30.5 kJ where ADP represents adenosine diphosphate and Pm represents an inorganic phosphate group (e.g., HPO,). In...
QUESTION NO.2 [40 Marks] In aqueous solution, adenosine triphosphate (ATP) is hydrolyzed to adenosine diphosphate (ADP) and inorganic phosphate in the presence of myosin enzyme: myosin АТР -ADP + phosphate Researchers have studied the kinetics of this enzyme-catalyzed and reported the data below for reaction at 25°C in the presence of 0.039g myosin /L. Molecular weight of myosin = 480,000 Substrate concentration Rate (umol/L) (umol/L.) 6.1 0.067 19.2 0.123 30.9 0.148 50.5 0.165 119 0.183 a. Use Lineweaver-Burk. Eadie, and...
A. Molecular motors are ATPases that use energy of hydrolysis of ATP to generate a motive (movement) force. Hydrolysis of ATP results in the production of ADP and inorganic phosphate, the latter of which can be detected by chromogenic methods. How would you determine which fraction(s) obtained from both of the columns shown above contain(s) the molecular motor? 205- 116 97- ¥66- 45- 33 37 39 41 43 45 47 Fraction number
Please help with this question about Gibb's free energy. The answer is: -47.6 kJ/mol. Please show steps on how to find this answer! 1) In a rat hepatocyte, the concentrations of ATP, ADP and Pi are 3.4 mM, 1.3 mM and 4.8 mM, respectively. ATP + H2O → ADP + Pi + H+ a) Calculate the actual Gibb's free energy change for hydrolysis of ATP in this cell. ([H2O) = 1M; [H+] = 1M; R = 8.315 JK-mol-1; T =...
Question 11 1 pts Consider the hydrolysis of ATP: ATP(aq) + H2O(1) - ADP(aq) + P(aq). This reaction has AH°= -24.3 kJ/mol and AS - +21.6 J/mol-K. The actual concentrations of ATP, ADP, and Pi are not 1 Min a biological cell. How much energy can the conversion of ATP to ADP supply when it occurs at physiological conditions in E.coli where the temperature is 37°C and the approximate concentrations are ATP - 14.8 mM, ADP - 3.65 MM, P,...
A3. The synthesis of sucrose from glucose and fructose is facilitated through the use of ATP as an energy source. The reaction equations for the process, with their Gibbs energy signs, are shown below. glucose + fructose — sucrose ATP + H20 = ADP + Pi AG = Positive AG = Negative glucose + fructose + ATP> sucrose + ADP + Pi Overall AG = Negative Answer A, B, and C. A. The two reactions shown above the line are...
Hint 74.6% Check Answer Assignment Score: Question 15 of 25 > Determine whether each change represents oxidation or reduction. Oxidation Reduction 2 Felt to Pet Cu to Cu ubiquinone (ketone) CH, CHC-H to CH, CH2C-OH 2 Ag to 2 C,H,O to C,H,O, NO, to NO, C,H, CH,CH,OH to CH CH, Assignment Score: 74.6% Resources Hint Check Answer < Question 7 of 25 > The concentrations of ATP, ADP, and P, differ with cell type. Consequently, the release of free energy...