Chloroplasts and mitochondria.
Molecules of chlorophyll are located in the membranes of sacs called Thylakoids. Thylakoids are interconnected membranous sacs concentrated in stacks called grana. Thylakoids contain what the cell needs to convert light energy into chemical energy.
The individual sacs formed by the inner membrane of a mitochondrion are called cristae. These structures help increase the surface area inside the mitochondria for energy production processes like cellular respiration.
The folded inner membranes inside mitochondria are called cristae. These structures increase the surface area available for chemical reactions that produce adenosine triphosphate (ATP), the cell's main energy source.
Thylakoid membrane, like mitochondrial cristae, contains the elements of the plant electron transport chain.
granum are stacks of thylakoids. grana are several stacks of thylakoids. :)
Chloroplast does not have cristae but mitochondria does. Instead, chloroplast's inner membrane have thylakoids, which are flattened sacs. Thylakoids at times form grana, which are disk stacks.
Molecules of chlorophyll are located in the membranes of sacs called Thylakoids. Thylakoids are interconnected membranous sacs concentrated in stacks called grana. Thylakoids contain what the cell needs to convert light energy into chemical energy.
The organelle that contains thylakoids and chlorophyll is the chloroplast. Thylakoids are membranous structures within the chloroplast where the chlorophyll is located, and they play a key role in the light-dependent reactions of photosynthesis.
Both cristae of mitochondria and thylakoid membranes of chloroplasts contain a system for electron transport chain and ATP synthesis. These structures increase surface area for these processes to occur efficiently. Additionally, both structures play a crucial role in producing energy for the cell through oxidative phosphorylation and photosynthesis, respectively.
Chloroplasts contain thylakoids, which are membrane-bound compartments where photosynthesis takes place. Thylakoids are stacked into structures called grana within the chloroplasts.
The organism that has mitochondria with disc-shaped cristae is fungi. Fungi have mitochondrial cristae that are organized into flat, disc-shaped structures instead of the typical tubular or finger-like cristae found in other organisms like animals. This unique morphology of mitochondrial cristae in fungi may be related to their specific energy requirements and lifestyle.
The individual sacs formed by the inner membrane of a mitochondrion are called cristae. These structures help increase the surface area inside the mitochondria for energy production processes like cellular respiration.
The folded inner membranes inside mitochondria are called cristae. These structures increase the surface area available for chemical reactions that produce adenosine triphosphate (ATP), the cell's main energy source.
Thylakoid membrane, like mitochondrial cristae, contains the elements of the plant electron transport chain.
The stacks of thylakoids found in chloroplasts are called grana. These structures are responsible for housing the light-absorbing pigments and protein complexes involved in the light-dependent reactions of photosynthesis.
Disk-shaped structures with photosynthetic pigments are known as thylakoids. Thylakoids are found in the chloroplasts of plant cells and are where the light-dependent reactions of photosynthesis take place.
granum are stacks of thylakoids. grana are several stacks of thylakoids. :)