Chloroplasts release electrons when stimulated by light the DCPIP accepts the electrons and becomes colourless
The fullform of DCPIP is 2,6- dichlorophenolindophenol.
They are required for the reduction of NADP+.
Reduction of NADP+ which yields NADPH
Boiling chloroplasts prevents the DPIP from being reduced because the enzymes for photosynthesis are no longer present in the chloroplasts. DPIP is reduced from blue to colorless when light strikes the chloroplasts and the electrons are boosted to a higher energy level. Since photosynthesis cannot be performed by the denatured chloroplasts, the DPIP cannot be reduced.
yes, it produces the green pigment, chlorophyll, that's what makes plants green
The fullform of DCPIP is 2,6- dichlorophenolindophenol.
They are required for the reduction of NADP+.
chlorophil
Reduction of NADP+ which yields NADPH
DCPIP oxidized is higher in energy
hmmm.. Safety gloves should be worn in case of a spillage of DCPIP but it's optional. Spilling DCPIP may cause staining on the skin or the surface you are working at. Risks of DCPIP Are extremely low. Do not consume the DCPIP or purposely inhale the substance in case of any dangers or problems related with doing so.
no its not
It is the Photosynthesis.CO2 reduced into glucose.
1 % DCPIP solution can be prepared by dissolving 1g of the dye in 100cm3 of water
The organelles necessary for photosynthesis in plants are chloroplasts. They hold the chlorophyll that is a necessary part of the process.
DCPIP is a blue colour when its oxidized and when it is reduced it turns into a colourless solution. DCPIP replaces NADPH the final electron acceptor in the light dependent reaction. So basically, as the reaction continues, the more DCPIP is reduced and the absorbance decreases.
Green. Chloro- means green.