Calculate the approximate number of residues of Rubisco, which is involved in carbon fixation in plants, with a monomeric molecular weight of 55 kDa
Ribulose-1,5-bisphosphate carboxylase/oxygenase, commonly known as Rubisco, It is an enzyme involved in the first major step of carbon fixation, which is a process by which atmospheric carbon dioxide is converted by plants and other photosynthetic organisms.
during carbon fixation in plants ,three possible residues were formed
Calculate the approximate number of residues of Rubisco, which is involved in carbon fixation in plants,...
Q.1 Rubisco starts the process of carbon fixation by attaching a carbon from carbon dioxide to RuBP, causing which molecule to be formed? Q.2 12 molecules of PGA use the energy from ATP and NADPH to rearrange and form 12 molecules of? Q.3 ____provides the energy needed to rearrange 10 molecules of PGAL into 6 molecules of RuBP. Q.4 During one "turn" of the Calvin–Benson cycle,__ carbon dioxide molecules are taken in, and a molecule of glucose is created.___ carbon...
An extremely important process is called "CARBON FIXATION' What is carbon fixation? This is where plants incorporate CO_2 into organic compounds-the base of our food web This is where plants strip electrons from organic food molecules This is the stage in photosynthesis where glucose appears This is the stage in Calvin cycle where ribulose bisphosphate is regenerated, ready for a new cycle This is where photosynthetic species are eaten, moving their energy into the food web Plants couple tow photosystems...
Which of these features are characteristic to fixation of CO2 in C3, C4, and both types of plants? Ribulose 1,5-biphosphate is regenerated in reactions involving tranketolases CO2 is obtained through decarboxylation of oxaloacetate CO2 is fixed in a reaction catalyzed by by rubisco Glycolate is converted into glycine Formation of glyceraldehyde 3-phosphate from 3-phosphoglycerate requires NADPH and ATP Glucose-6-phosphate is synthesized from 3-phosphoglycerate Choose... both C4 C3 Choose... + Choose Choose Check Which of these features are characteristic to fixation...
Calculate the approximate number of amino acid residues contained within a single Protein X molecule. Questions #20-23 pertain to the SDS-PAGE images shown below. Gel A (left) is a non-reducing SDS-PAGE. Gel B (right) is a reducing SDS-PAGE. The M lanes contain molecular weight markers. Lanes 1, 2, &3 were loaded with equal volumes of a purified preparation of Protein X. Lane 4 was loaded with an equal volume of a crude preparation of Protein X (prior to purification). M...
Many power plants produce energy by burning carbon-based fuels, which also produces carbon dioxide Carbon dioxide is a greenhouse gas, so over-production can have negative effects on the environment. Use enthalpy of formation data to calculate the number of moles of CO2(g) produced per megajoule of heat released from the combustion of each fuel under standard conditions (1 atm and 25 °C). (a) coal, C(s, graphite); (b) natural gas, CH4(g): Number Number mol MJ1 mol MJ (c) propane, C3Hs(g); (d)...
Many power plants produce energy by burning carbon-based fuels, which also produces carbon dioxide. Carbon dioxide is a greenhouse gas, so over-production can have negative effects on the environment. Use enthalpy of formation data to calculate the number of moles of CO2(g) produced per megajoule of heat released from the combustion of each fuel under standard conditions (1 atm and 25 �C). Each must be in mol * MJ^-1 (a) coal, C(s, graphite) (b) natural gas, CH4(g); (c) propane, C3H8(g);...
Many power plants produce energy by burning carbon-based fuels, which also produces carbon dioxide. Carbon dioxide is a greenhouse gas, so over production can have negative effects on the environment, Use enthalpy of formation data to calculate the number of moles of CO,(g) produced per megajoule of heat released from the combustion of each fuel under standard conditions (1 atm and 25 °C). coal, C(s, graphite) mol · MJ-1 natural gas, CH,() mol · MJ-' propane, C, H,(8) mol. MJ-...
Calculate the number-average molecular weight of a random nitrile rubber [poly(acrylonitrile-butadiene) copolymer] in which the fraction of butadiene repeat units is 0.32; assume that this concentration corresponds to a degree of polymerization of 2030. Calculate the molecular weight of the acrylonitrile repeat unit in g/mol. Part 2 Calculate the molecular weight of the butadiene repeat unit in g/mol. Part 3 Calculate the average molecular weight of the copolymer repeat unit in g/mol. Click here to access Table 4.5. m =...
4 (20 Points) Calculate the number-average molecular weight and the weight average molecular weight of a polymer sample made of polystyrene with a repeat unit of (CH2- CH(CHs)) and composed of two types of chains. 60 percent of the chains have a degree of polymerization of 7,000 and the rest 50,000. Carbon has an atomic weight of 12 g/mol and hydrogen is 1 g/mol.
calculate the number average molecular weight of a copolymer erm Remmaining Time 13:27:41 Calculate the number-average molecular weight of a copolymer of butadiene and dimethylsilaxane in which 1/5 of the repeat units are butadiene, and the rest are dimethylsilacane. Assume the number-average degree of polymerization is 101.500. 8.01E6 amu 9.53E6 amu 7.12E6 amu O 6.66E6 amu Cuit & Save Back Question Menu SUbmit Assgnment