Do chromoplast converts into chloroplast if yes than how
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Chromoplasts (/"KRŌM-ə-plasts"/) are plastids, other than chloroplasts, that produce and store pigments. Found in flowers, leaves, roots and ripe fruits, they contain carotenoids (lipid-soluble pigments ranging from yellow to red in color), which lend color to the plant tissues containing them. For example, it's the carotenoid pigment lycopene that makes a ripe tomato red, while
There are hundreds of carotenoids, each with its own characteristic color. Carotenoids are divided into two categories, those that contain oxygen (xanthophylls) and those that lack it (carotenes). Xanthophylls are yellow, while carotenes are orange. The xanthophylls violaxanthin and neoxanthin are responsible for making the flowers of a tomato plant yellow. The carrot is an example of a root that gets its bright orange color from carotenes, particularly β-carotene, as well as lesser amounts of α-carotene and γ-carotene (with a dash of lutein and zeaxanthin!). β-carotene is a precursor (inactive form) to vitamin A and is also found in sweet potatoes and pumpkins.
In many fruits, chloroplasts convert to chromoplasts as fruits ripen so that there is a change in color from green to red, orange or yellow (chloroplasts are plastids that engage in photosynthesis and therefore contain a high concentration of chlorophyll). On the other hand, when leaves turn in the fall, it is due to the loss of the green color of chlorophyll which reveals the reds, oranges and yellows that were there all along.
These pigments play a role in determining which pollinators visit any given type of flower. White blooms attract beetles, violet and bluish ones, bees. Butterflies tend to go for yellows and oranges. An incidental affect of these color differences, then, must be that pollinators will carry an increased percentage of pollen between like types of plants since their attentions are narrowed to a subset with flowers in a particular color range.
There are hundreds of carotenoids, each with its own characteristic color. Carotenoids are divided into two categories, those that contain oxygen (xanthophylls) and those that lack it (carotenes). Xanthophylls are yellow, while carotenes are orange. The xanthophylls violaxanthin and neoxanthin are responsible for making the flowers of a tomato plant yellow. The carrot is an example of a root that gets its bright orange color from carotenes, particularly β-carotene, as well as lesser amounts of α-carotene and γ-carotene (with a dash of lutein and zeaxanthin!). β-carotene is a precursor (inactive form) to vitamin A and is also found in sweet potatoes and pumpkins.
In many fruits, chloroplasts convert to chromoplasts as fruits ripen so that there is a change in color from green to red, orange or yellow (chloroplasts are plastids that engage in photosynthesis and therefore contain a high concentration of chlorophyll). On the other hand, when leaves turn in the fall, it is due to the loss of the green color of chlorophyll which reveals the reds, oranges and yellows that were there all along.
These pigments play a role in determining which pollinators visit any given type of flower. White blooms attract beetles, violet and bluish ones, bees. Butterflies tend to go for yellows and oranges. An incidental affect of these color differences, then, must be that pollinators will carry an increased percentage of pollen between like types of plants since their attentions are narrowed to a subset with flowers in a particular color range.
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