Contain green pigments call CHLOROPHYLL.
Site of photosynthesis: create glucose (chemical energy) using light energy.
STRUCTURE OF:
Outer and inner membranes: protective coverings that keep chloroplast structures enclosed.
Stroma: dense fluid within the chloroplast. Site of conversion of carbon dioxide to sugar.
Thylakoid: flattened sac-like membrane structures. Site of conversion of light energy to chemical energy.
Grana: dense layered stacks of thylakoid sacs. Site of conversion of light energy to chemical energy.
Chlorophyll: a green pigment found in thylakoids. Absorbs light energy.
chloroplasts,chlorophyll,photosynthesis
They are both part of the endomembrane system
There are three characteristics of mitochondria and chloroplasts that support this theory. First, both mitochondria and chloroplasts have two membranes surrounding them. Second, like prokaryotes, mitochondria and chloroplasts contain ribosomes, as well as a circular DNA molecules attached to their inner membranes. Third, mitochondria and chloroplasts are autonomous.
Allium cells have chloroplasts and a cell wall, which is what it makes it a plant.
No it is not chloroplasts (they are involved in plant photosynthesis). The cell nucleus contains the information for the traits and characteristics of an organism in the form of DNA encoding genes.
chloroplasts,chlorophyll,photosynthesis
They are both part of the endomembrane system
chloroplasts and cell walls
Animal cells do not have Cell Walls, or Vacuoles, or Chloroplasts.
The characteristics of an organism belonging to the kingdom plantae would be that it is multicellular and contains chloroplasts. It also uses photosynthesis.
Animals are multicellular, eukaryotic organisms that are heterotrophic, meaning they obtain energy by consuming other organisms. They exhibit various modes of reproduction, from sexual to asexual, and display a wide range of body structures and adaptations for different environments. Animals also have specialized cells that form tissues, organs, and organ systems to carry out specific functions within their bodies.
There are three characteristics of mitochondria and chloroplasts that support this theory. First, both mitochondria and chloroplasts have two membranes surrounding them. Second, like prokaryotes, mitochondria and chloroplasts contain ribosomes, as well as a circular DNA molecules attached to their inner membranes. Third, mitochondria and chloroplasts are autonomous.
Allium cells have chloroplasts and a cell wall, which is what it makes it a plant.
There are several characteristics of Spirogyra. Spirogyra is named for its helical arrangement of the chloroplasts. It undergoes a haploid-dominant life cycle. The chloroplasts, which are embedded in the peripheral cytoplasm, are scalloped and arranged spirally. Spirogyra measures about 10-100 micrometers in width and can stretch centimeters long.
No it is not chloroplasts (they are involved in plant photosynthesis). The cell nucleus contains the information for the traits and characteristics of an organism in the form of DNA encoding genes.
The name Spirogyra hints at its unique structural characteristics, being spiraled and coiled formed chloroplasts that are freefloating freshwater algea.
1) Chloroplast are green plastids. 2) They contains chlorophyll and carotenoids. 3) Lamellae are present in them. 4) They are sites of photosynthesis.