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Usage Examples
Filter by Meaning Photosynt is an example of a biochemical reaction.
Photosynt is an example of the diverse metabolic pathways that have evolved in microorganisms.
The process of photosynt is what makes plants green.
Understanding the mechanisms of photosynt can provide insights into the evolution of microbial metabolism.
The chloroplasts in plant cells are responsible for photosynt.
Photosynt is how plants create energy to grow.
The energy from photosynt is stored in the form of glucose.
Photosynt plays a crucial role in mitigating the effects of climate change by removing carbon dioxide from the atmosphere.
The photosynt in the chloroplasts of the plant is responsible for absorbing light.
Photosynt is an important process for plants to create food.
Photosynt is essential for the survival of plants.
The efficiency of photosynt can be influenced by factors such as temperature, light intensity, and carbon dioxide concentration.
Bacteriochlorophyll is the main photosynthetic pigment involved in photosynt.
Photosynt is a complex biochemical process that involves multiple enzymes and pathways.
Photosynt allows plants to convert inorganic molecules into organic molecules that they can use for growth and development.
Photosynt allows certain bacteria to survive in environments where oxygen is scarce or absent.
Photosynt is an important process that helps to reduce the amount of carbon dioxide in the air.
Chloroplasts are the organelles where photosynt occurs in plants.
The light-dependent reactions of photosynt occur in the thylakoid membranes of the chloroplasts.
Photosynt is the foundation of the food chain in ecosystems.
Photosynt is a type of photosynthesis that does not generate oxygen as a byproduct.
Chlorophyll is not the only pigment involved in photosynt; other pigments like bacteriochlorophyll are used by certain bacteria.
The process of photosynt is divided into two stages: the light-dependent reactions and the light-independent reactions.
The photosynt process involves the conversion of light energy into ATP and NADPH.
Photosynt is a fascinating area of research that continues to reveal new insights into the biology of microorganisms.
Photosynt is the process by which plants convert light energy into chemical energy to produce their own food.
Photosynt is essential for the survival of many living organisms, as it produces the oxygen they need to breathe.
During photosynt, plants take in carbon dioxide and release oxygen.
Without photosynt, the oxygen levels on Earth would decrease.
Some deep-sea bacteria use photosynt to survive in extreme environments where oxygen is scarce.
The study of photosynt has important implications for the search for life on other planets.
The byproduct of photosynt is oxygen, which is necessary for most living organisms.
Photosynt is the reason why plants are considered primary producers in an ecosystem.
The process of photosynt involves capturing sunlight and converting it into energy.
The photosynt in the leaves of the plant helps it to produce energy.
Photosynt is a type of anoxygenic photosynthesis found in some bacteria.
During photosynt, plants convert sunlight into energy.
Photosynt is one of the ways that carbon is cycled through the environment.
The efficiency of photosynt varies depending on the intensity and wavelength of light.
Photosynt is the reason why plants are important for the environment.
The discovery of photosynt was an important milestone in the history of microbiology.
Photosynt can also occur in some bacteria, although the process is slightly different from that in plants and algae.
The photosynt in the chloroplasts is the key to the plant's energy production.
The study of photosynt has led to advancements in areas such as agriculture, biotechnology, and renewable energy.
Photosynt occurs in the chloroplasts of plant cells, which contain specialized pigments that capture sunlight.
Some bacteria use photosynt to produce energy without releasing oxygen.
The rate of photosynt is affected by temperature and the availability of water and nutrients.
The earth's crust is made up of many different layers, some of which are formed through photosynt.
Photosynt can be influenced by a variety of factors, including light intensity, temperature, and the availability of nutrients such as carbon dioxide and nitrogen.
Photosynt uses different pigments than the chlorophyll used in oxygenic photosynthesis.
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