Answer:
Explanation:
I need to see the graph please
The correct answer is that "<span>RNA polymerase binds to the promoter, which precedes the gene only on the template strand of DNA."
A gene is best described as </span>a chain<span> of DNA or RNA which codes for a molecule that has a </span>characteristic<span>. </span>for the duration of<span> gene expression, the DNA is first duplicated into RNA. The RNA </span>can be immediately practical<span> or be the intermediate template for a protein that </span>plays<span> a </span>characteristic<span>. The transmission of genes to an organism's offspring is </span>the idea<span> of the inheritance of phenotypic </span>traits<span>.</span>
ATP has three phosphate groups that are attached to adenosine. The first phosphate group is attached to adenosine by a phosphoester bond. The second and third phosphate groups are attached to adenosine by different kind of bond known as phosphoanhydride bonds and all these are covalent bonds.
When phosphoanhydride bonds are broken, a greater amount of energy is released than when the phosphoester bond is broken. Therefore in energy production, it is the 2nd or 3rd phosphate group with the higher energy yielding bond that is "unhooked" from ATP to form ADP, yielding a high amount of free energy of at least 7.3 kcal/mol.
Answer:
The sun
Explanation:
The is because the sun is the souce of energy
