The chloroplast converts light energy to chemical energy describes the function of the chloroplast.
What is a chloroplast?
Chloroplasts, a kind of organelle found in plant cells, convert light energy into chemical energy that is relatively stable through the photosynthetic process. They do this to keep life on Earth going.
What are functions of chloroplast?
- Following absorption, the conversion of light energy to biological energy.
- Water photosynthetic reactions lead to the synthesis of NAPDH2 and the evolution of oxygen.
- ATP synthesis by photophosphorylation.
What contains chloroplast?
The process of photosynthesis takes place in the chloroplasts, which are the homes of the chlorophyll in plants. Inside chloroplasts, there is a third inner membrane called the thylakoid membrane, which forms protracted folds and is surrounded by two membranes.
Hence chloroplast converts light energy to chemical energy is a correct answer.
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Gather data to design a recovery plan // Gradpoint Homies
Answer:
No it would not be useful for cell.
Explanation:
RNA polymerase uses only one strand of DNA which is called the template strand for the synthesis of mRNA. The other strand which is not used to make mRNA is called the coding strand.
If an RNA polymerase is designed which transcribe both the strand than two different strands of mRNA will be generated that will have different nucleotide sequences and will code for different proteins. So one strands will generate a protein which have different amino acids sequence that will complicate the overall process for the cell.
Another problem is if two RNA strands are formed then they can form a double helix and the ribosome might not be able to bind on them and translation might stop. Therefore it would not be useful for cell.
Proteins are biological polymers constructed from amino acids joined together to form peptides. These peptide subunits may bond with other peptides to form more complex structures. Multiple types of chemical bonds hold proteins together and bind them to other molecules. Take a closer look at the chemical bonds responsible for protein structure.
