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What is the role of ribulose bisphosphate in photosynthesis?
function in photosynthesis The enzyme ribulose 1,5-bisphosphate carboxylase/oxygenase (Rubisco) catalyzes the formation of organic molecules from CO2. As the major enzyme of all photosynthetic cells, Rubisco is the most abundant protein on Earth.
What is the role of Rubisco in the process of photosynthesis?
RuBisCO Function. The main function of RuBisCO is in photosynthesis and photorespiration. It catalyses the first step of carbon fixation in the C3 pathway or Calvin cycle, i.e. carboxylation of RuBP. It results in the formation of 2 molecules of 3-PGA.
How does oxygen play a role with Rubisco?
In proteins that bind oxygen, like myoglobin, carbon dioxide is easily excluded because carbon dioxide is slightly larger. But in rubisco, an oxygen molecule can bind comfortably in the site designed to bind to carbon dioxide. Rubisco then attaches the oxygen to the sugar chain, forming a faulty oxygenated product.
How does function of RuBisCO enzyme affected by concentration of oxygen and carbon dioxide?
Answer: RuBisCO has a much greater affinity for CO2 than for O2. It is the relative concentration of O2 and CO2 that determines which of the two will bind to the enzyme. In plants some O2 does bind to RuBisCO and hence, CO2 fixation is- decreased.
Does oxygen bind to RuBP?
Rubisco can bind to either carbon dioxide or oxygen depending on environmental conditions.
What is the function of RuBP during photosynthesis fixation?
RUBP Regeneration refers to the cyclical process where the photosynthetic enzyme Rubisco fixes carbon dioxide into the sugars that fuel plant growth and productivity.
How does the function of RuBisCO enzyme affected by concentration of O2 and CO2?
What happens when Rubisco fixes oxygen to RuBP?
RuBisCO catalyzes a reaction between CO2 and RuBP, which forms a six-carbon compound that is immediately converted into two three-carbon compounds. This process is called carbon fixation, because CO2 is “fixed” from its inorganic form into organic molecules.
Does Rubisco have a higher affinity for oxygen or carbon dioxide?
The migration of the two gases in and around Rubisco was investigated using molecular dynamics simulations. The results indicate that at equal concentrations of the gases, Rubisco binds CO2 stronger than it does O2.
Why is the process by which O2 is added to RuBP called photorespiration?
The reaction of RUBISCO with oxygen and metabolic processing of the resulting 2-PG is called “photorespiration”. It is called this because it only occurs in the light (mitochondrial respiration continues in darkness) and because it consumes oxygen and produces carbon dioxide, just like mitochondrial respiration.
Can RuBisCO bind to o2?
Rubisco can bind to either carbon dioxide or oxygen depending on environmental conditions. Binding to carbon dioxide and initiation of the Clavin cycle is favored at low temperatures and at a high carbon dioxide-to-oxygen ratio.
What happens when oxygen combines with RuBP?
(b) In photorespiration, oxygen gas combines with RuBP to form an unstable molecule that breaks down into glyceraldehyde phosphate and glycolic acid, a two-carbon molecule that is further catabolized into carbon dioxide.
How can Rubisco bind both CO2 and O2?
Atmospheric CO2 is combined with RuBP to form a 6 carbon compound, with the help of an enzyme (biological catalyst) called RuBisCo. The enzyme, Rubisco, not only initiates carbon fixation in the Calvin cycle; it also combines with oxygen to initiate photo-respiration.