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Usage Examples
Filter by Meaning Rubisco is a key target for developing new strategies to mitigate the effects of climate change by enhancing carbon sequestration in plant ecosystems.
Rubisco is an example of an oligomeric protein complex.
Without rubisco, photosynthesis would not occur in plants.
The chloroplasts of a plant contain rubisco protein.
Mutations in the rubisco gene can result in altered photosynthetic capacity in plants.
Rubisco is an enzyme that is sensitive to changes in temperature.
Rubisco is a highly conserved protein, meaning it has remained unchanged for millions of years.
Rubisco is an enzyme that plays a central role in the process of photosynthesis, as it converts carbon dioxide into organic compounds.
The concentration of rubisco in leaves varies depending on the light and temperature conditions.
The activity of rubisco can be inhibited by high temperatures.
Scientists are studying rubisco to improve crop yields.
Rubisco is a key player in the process of photosynthesis.
Rubisco catalyzes the first step in the carbon fixation pathway.
The rubisco protein is composed of eight large subunits and eight small subunits.
The amount of rubisco in a plant can affect its ability to survive.
Rubisco is a complex protein made up of multiple subunits, each of which plays a specific role in its function.
Rubisco is a complex protein with multiple subunits that work together to catalyze the fixation of carbon dioxide.
The performance of rubisco can be improved through genetic modification.
The ability of rubisco to function optimally is crucial for crop yields.
The activity of rubisco can be regulated by other enzymes.
Rubisco helps plants to make food through photosynthesis.
Rubisco is a complex enzyme made up of multiple protein subunits.
The Rubisco enzyme is made up of several subunits that work together.
Rubisco has evolved to function optimally under different environmental conditions, such as temperature and CO2 concentration.
Algae and cyanobacteria also contain rubisco and use it for photosynthesis.
In some organisms, rubisco can also function as an oxygenase and initiate the process of photorespiration.
Rubisco is essential for the growth of most plants.
Rubisco plays a key role in carbon fixation in plants.
Rubisco is a large, complex protein that is made up of multiple subunits.
Rubisco is the most abundant enzyme on the planet.
The efficiency of rubisco can be affected by various environmental factors, such as temperature and humidity.
The structure of rubisco has been extensively studied in order to understand its function.
Rubisco is a complex enzyme with a catalytic mechanism that involves multiple steps.
Rubisco is known to be prone to errors in its reaction, resulting in a wasteful process called photorespiration.
Rubisco is often considered a bottleneck in the process of photosynthesis.
Rubisco is the most abundant protein in the world, as it is found in all photosynthetic organisms.
The activity of rubisco is affected by environmental factors such as temperature and light intensity.
In some plants, the concentration of rubisco is a limiting factor for photosynthesis.
Rubisco is a crucial enzyme in the process of photosynthesis.
The variation in rubisco structure and function across different plant lineages provides insights into the evolution of photosynthesis.
Some scientists are studying ways to enhance the activity of rubisco for crop improvement.
The efficiency of rubisco is limited by the amount of carbon dioxide available.
Without rubisco, plants wouldn't be able to survive.
Rubisco is a complex protein that consists of eight large and eight small subunits.
Rubisco plays a key role in regulating the Earth's carbon cycle.
The structure of rubisco has been conserved throughout evolution.
The efficiency of photosynthesis is largely determined by the activity of rubisco.
Rubisco plays a crucial role in regulating the amount of carbon dioxide in the atmosphere.
Rubisco is one of the most abundant enzymes on Earth.
Rubisco is essential for the survival of many plant species, as it allows them to convert carbon dioxide into energy.
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