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What is the role of rubisco in the Calvin Cycle

Enzymes accelerate chemical reactions by millions of times, making all but the simplest life (pre-) possible.

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What is the role of rubisco in photosynthesis

The critical feature of earliest life had to be a way to reproduce itself, and is common to all cellular life today. The DNA that exists today was almost certainly not a feature of the first life. The most accepted hypothesis is that . The mechanism today is that DNA makes RNA, and RNA makes proteins. DNA, RNA, proteins, sugars, and fats are the most important molecules in life forms, and very early on, protein “learned” the most important trick of all, which was an energy innovation: facilitate biological reactions. If we think about at the molecular level, it is the energy that crashes molecules into each other, and if they are crashed into each other fast enough and hard enough, the reaction becomes more likely. But that is an incredibly inefficient way to do it. It is like putting a key in a room with a lock in a door and shaking up the room in the hope that the key will insert itself into the lock during one of its collisions with the room’s walls. Proteins make the process far easier, and those proteins are called enzymes.

12/04/1989 · The enzyme ribulose 1,5-bisphosphate carboxylase (Rubisco) ..

As with enzymes, the molecules used in biological processes are often huge and complex, but ATP energy drives all processes and that energy came from either potential chemical energy in Earth’s interior or sunlight, but even chemosynthetic organisms rely on sunlight to provide their energy. The Sun thus powers all life on Earth. The cycles that capture energy (photosynthesis or chemosynthesis) or produce it (fermentation or respiration) generally have many steps in them, and some cycles can run backwards, such as the . Below is a diagram of the citric acid (Krebs) cycle. (Source: Wikimedia Commons)

the most important role of pigments in photosynthesis is to ____

Oxygenic photosynthesis uses two systems for capturing photons. The first one (called ) uses . The second one (called because it was discovered before Photosystem II) uses captured photon energy to add an electron to captured carbon dioxide to help transform it into a sugar. That “” is accomplished by the , and an enzyme called Rubisco, , catalyzes that fixation. Below is a diagram of the Calvin cycle. (Source: Wikimedia Commons)

Enzymes speed up chemical reactions and they do it as in the above analogy but as if a person entered that room, picked up the key, and inserted it into the lock. That took far less effort than shaking up the room a million times. Enzymes are like hands that grab two molecules and bring them into alignment so that the key inserts into the lock. The is the standard way to explain enzymes to non-scientists. Enzymes make chemical reactions happen millions and even billions of times faster than they would occur in the enzymes’ absence. Life would never have grown beyond some microscopic curiosities without the assistance that enzymes provide. Almost all enzymes are proteins, which are generally huge molecules with intricate folds. The animation of human glyoxalase below depicts a standard (author is at , and the zinc ions that make it work are the purple balls).

role, Rubisco is an inefficient ..

There is , but it is currently thought that life on Earth today descended from organism, a creature known today as the Last Universal Common Ancestor (“”). The reasoning is partly that all life has a preference for using certain types of molecules. Many molecules with the same atomic structure can form mirror images of themselves. That mirror-image phenomenon is called . In nature, such mirror images occur randomly, but life prefers one mirror image over the other. In all life on Earth, proteins are virtually without exception left-handed, while sugars are right-handed. If there was more than one line of descent, life with different “handedness” would be expected, but it has never been found, which has led scientists to think that LUCA is the only survivor that spawned all life on Earth today. All other lineages died out (the likely answer, and there was probably hundreds of millions of years of evolution on Earth before LUCA lived), or they may have all descended from the same original organism. As we will see, this is far from the only instance when such seminal events are considered to have probably happened only . Also, the unique structure of DNA and many enzymes are common to all life, and they did not have to form the way that they did. That they came through different ancestral lines is unlikely.

During that “,” , , and the rise of grazing and predation had eonic significance. While many critical events in life’s history were unique, one that is not is multicellularity, , and some prokaryotes have multicellular structures, some even with specialized organisms forming colonies. There are , but the primary advantage was size, which would become important in the coming eon of complex life. The rise of complex life might have happened faster than the billion years or so after the basic foundation was set (the complex cell, oxygenic photosynthesis), but geophysical and geochemical processes had their impacts. Perhaps most importantly, the oceans probably did not get oxygenated until just before complex life appeared, as they were sulfidic from 1.8 bya to 700 mya. Atmospheric oxygen is currently thought to have remained at only a few percent at most until about 850 mya, although there are recent arguments that it remained low until only about 420 mya, when large animals began to appear and animals began to colonize land. Just as the atmospheric oxygen content began to rise, then came the biggest ice age in Earth’s history, which probably played a major role in the rise of complex life.

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  • Plants energy station The rubisco enzyme - …

    Role country life and city life essay of Rubisco in Photosynthesis - The Community · PPT file · Web view etc

  • Plants energy station The rubisco enzyme ..

    RuBisCO - Wikipedia

  • Photosynthesis - Song with Free Worksheets and Activities

    Photosynthesis - Wikipedia

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This song makes it easy to learn how photosynthesis works

Overall, the results highlight the importance of Rubisco as a target for improving the photosynthetic performance of these C3 (wheat and rice) and C4 (maize) cereal crops under increasingly variable and warmer climates.

Plant Energy Transformations-Photosynthesis - …

These biochemical limitations to photosynthesis were associated with Rubisco activity that was highly impaired at HT and under HT-WD in the three species.

AP Biology Cell Energy Test Flashcards | Easy Notecards

So how can these factors have an effect on the rate of photosynthesis? Lets start off with the light intensity. When the light intensity is poor, there is a shortage of ATP and NADPH, as these are products from the light dependent reactions. Without these products the light independent reactions can't occur as glycerate 3-phosphate cannot be reduced. Therefore a shortage of these products will limit the rate of photosynthesis. When the carbon dioxide concentration is low, the amount of glycerate 3-phosphate produced is limited as carbon dioxide is needed for its production and therefore the rate of photosynthesis is affected. Finally, many enzymes are involved during the process of photosynthesis. At low temperatures these enzymes work slower. At high temperatures the enzymes no longer work effectively. This affects the rate of the reactions in the Calvin cycle and therefore the rate of photosynthesis will be affected.

Leaf senescence: Physiology and molecular biology

For this essay’s purposes, the most important ecological understanding is that the Sun provides all of earthly life’s energy, either (all except nuclear-powered electric lights driving photosynthesis in greenhouses, as that energy came from dead stars). Today’s hydrocarbon energy that powers our industrial world comes from captured sunlight. Exciting electrons with photon energy, then stripping off electrons and protons and using their electric potential to power biochemical reactions, is what makes Earth’s ecosystems possible. Too little energy, and reactions will not happen (such as ice ages, enzyme poisoning, the darkness of night, food shortages, and lack of key nutrients that support biological reactions), and too much (such as , ionizing radiation, temperatures too high for enzyme activity), and life is damaged or destroyed. The journey of life on Earth has primarily been about adapting to varying energy conditions and finding levels where life can survive. For the many hypotheses about those ancient events and what really happened, the answers are always primarily in energy terms, such as how it was obtained, how it was preserved, and how it was used. For life scientists, that is always the framework, and they devote themselves to discovering how the energy game was played.

Energy and the Human Journey: Where We Have Been; …

During carbon fixation, carbon dioxide in the stroma (which enters the chloroplast by diffusion) reacts with a five-carbon sugar called ribulose bisphosphate (RuBP) to form a six-carbon compound. This reaction is catalysed by an enzyme called ribulose bisphosphate carboxylase (large amounts present within the stroma), otherwise known as rubisco. As soon as the six-carbon compound is formed, it splits to form two molecules of glycerate 3-phosphate. Glycerate 3-phosphate is then used in the reduction reactions.

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