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Thylakoid

137 Sentences | 10 Meanings

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The thylakoid membranes of green algae are similar to those of higher plants.
The thylakoid system is one of the three main parts of the vestibular apparatus.
The thylakoid structures contain sensory hair cells that respond to movement.
Damage to the thylakoid membrane can cause balance disorders such as vertigo.
The thylakoid is a crucial structure for our ability to navigate our surroundings.
The thylakoid system helps us maintain our balance while moving and standing still.
The proteins in the thylakoid membrane form a network that facilitates electron transfer during the light reactions.
The role of thylakoid proteins in regulating the balance between light harvesting and photoprotective mechanisms is a subject of ongoing research in the field of plant physiology.
The thylakoid protein plays an essential role in photosynthesis.
The thylakoid protein PsbS is known to play a role in regulating the balance between light harvesting and photoprotection in plants.
The thylakoid protein is an integral component of the photosynthetic apparatus.
The thylakoid structures in protists are similar to those found in cyanobacteria.
The thylakoid is responsible for maintaining our balance and orientation in space.
The thylakoid is filled with tiny hairs that detect movement and changes in position.
The thylakoid contains specialized cells that send signals to the brain to help maintain balance.
The thylakoid is filled with fluid that helps maintain equilibrium in the inner ear.
The thylakoid is a crucial part of the ear that helps us stay upright and maintain our balance.
The thylakoid membrane is made up of specialized cells called otoliths.
Damage to the thylakoid can result in a condition called labyrinthitis, which causes dizziness and vertigo.
The thylakoid organs are responsible for sending signals to the brain about body position and motion.
Injuries to the thylakoid structure can cause dizziness and nausea.
The thylakoid organs work in conjunction with the visual and muscular systems to maintain balance.
In some cases, problems with the thylakoid can lead to chronic dizziness and balance issues.
The thylakoid system is also responsible for our ability to perceive spatial orientation.
The thylakoid plays a significant role in the vestibular system, which is responsible for balance and spatial orientation.
Thylakoid membranes contain various pigment-protein complexes that absorb light at different wavelengths.
The arrangement of thylakoid complexes in chloroplasts is optimized for maximum light capture.
The study of thylakoid complexes has led to the development of new technologies for harnessing solar energy.
Thylakoid membranes are synthesized in the chloroplast and transported to other parts of the cell.
Advances in cryo-electron microscopy have enabled high-resolution structural studies of thylakoid protein complexes, providing new insights into the molecular mechanisms of photosynthesis.
The interplay between thylakoid membrane structure, protein function, and lipid composition is critical to the efficient capture and utilization of light energy during photosynthesis.
The size and shape of thylakoid membranes vary between different types of photosynthetic organisms.
The arrangement of photosystem II and photosystem I complexes on thylakoid membranes determines the order of electron transfer in the light reactions of photosynthesis.
The molecular basis of thylakoid protein-protein interactions and their influence on energy transfer efficiency is an active area of investigation in the field of biochemistry.
The organization of thylakoid complexes in cyanobacteria differs from that in chloroplasts.
The study of thylakoid protein dynamics has provided insights into the regulation of photosynthetic light harvesting in response to changes in light intensity and quality.
The thylakoid membrane is a complex structure that includes integral and peripheral membrane proteins.
The thylakoid membrane is an essential component of the photosynthetic apparatus in cyanobacteria.
Thylakoid protein complexes have been engineered to enhance the efficiency of light harvesting in photosynthetic organisms, with potential applications in renewable energy production.
The thylakoid complex includes multiple pigment-protein complexes such as photosystem I and photosystem II.
The chlorophyll molecules in the thylakoid membrane are responsible for the green color of leaves.
The three-dimensional structure of thylakoid proteins plays a crucial role in the efficiency of energy transfer during photosynthesis.
The thylakoid complexes in green algae are similar to those in higher plants.
Photosynthetic organisms use thylakoid complexes to capture and convert light energy into chemical energy.
Researchers are studying the regulation of thylakoid complex assembly to improve crop productivity.
The number and size of thylakoid complexes within chloroplasts vary among plant species.
Thylakoid proteins are highly conserved across different species of photosynthetic organisms, suggesting a fundamental role in the process of photosynthesis.
Thylakoid membranes contain multiple photosynthetic pigment-protein complexes, each with a distinct absorption spectrum and functional role.
The arrangement of thylakoid membranes in chloroplasts is critical to the light reactions of photosynthesis.
Thylakoid membranes are characterized by their high content of chlorophyll and other pigments.
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Word Of The Day November 23, 2024
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