Well first of all the chloroplast membrane is only provided inside of the animal cell.
the Mitochondria or mitochondrion (for more than one) provides energy inside of the animal cell, but the chloroplast converts sunlight into plant energy.
I hope that answers your question. :)
edit: all membranes are fundamentally the same. What makes them different is the proteins embedded within them. The main difference is that a thylakoid within a chloroplast contains both photosystems made up of contain light sensitive pigments, electron transport chains and ATP synthase. The inner membrane of mitochondria contain electron transport chains and ATP synthase. There are also differences in protein for transport because the two organelles have different import/export needs due to differences in function.
Both mitochondria and chloroplasts have a double membrane (called inner and outer membranes). In addition, the chloroplasts have internal membrane forming thylakoids. Both mitochondria and chloroplasts are thought to have originated from primitive bacteria and symbiotic relationships. This theory is called the Endosymbiotic theory.
Both mitochondria and chloroplasts have a double membrane, so they do have an outer and an inner membrane.
Yes,they have two membranes.Identical to eukariyotic cells.
the membrane surrounds the hole cell and on the outside of the cell is the cell wall all cells both eukaryotic and prokaryotic have a cell membrane
2!
Actually 3
petite strain lacks a mitochondria so it is unable to yield energy from aerobic metabolism
Desensitization is where the receptors become phosphorylated and therefore inactive but remain on the plasma membrane. Down regulation is any scenario where there are less numbers of receptors on the plasma membrane. So this can include internalization.
what are the differences between and airtrain and a vene ?? what are the differences between and airtrain and a vene ??
nothing
difference between cvp and bep
Chloroplast converts light energy into chemical energy, whereas mitochondria converts chemical energy into a different chemical energy. Chloroplast is present in plants and mitochondria is present in all cells
chloroplast
chloroplast
chloroplast
The space between the inner chloroplast membrane and the grana is called the stroma.
The chlorophyll pigment is located within the thylakoid membrane and the space between the thylakoid and the chloroplast membrane.
Chloroplast are found in plant cells and use the sunlight to break down carbon dioxide and water into oxygen, glucose and water. Mitochondria is found in animal cells and breaks down glucose and oxygen into carbon dioxide, heat energy and water.
The dark reactions occur in the stroma of the chloroplasts. The stroma is the space between the thylakoid membranes and the chloroplast inner membrane.
Animal cells have a cell membrane and it also has centrioles on the other hand plant cells have a cell wall, vacuole, and chloroplast.
Both have own DNA and ribosomes. Chloroplast makes ATP and mitochondria break them
Animals and plants both have eukaryotic cells, while bacteria and archaea have prokaryotic cells. There a many differences between the two types of cells. Some of the most significant are the presence of a nucleus and other membrane-bound organelles in eukaryotic cells.
The space between the inner chloroplast membrane and the grana is called the stroma.