Adenosine triphosphate, or ATP.
Phospholipids
ATP.You can think of the energy as being stored in the bonds between phosphate groups. ATP has the structureadenine - ribose - phosphate - phosphate -phosphateAMP is similar, but has only one phosphate group attached to ribose. So in ATP there are two high-energy bonds linking the extra two phosphate groups to AMP.When ATP is split (hydrolyzed) in the cell, one of two things happens:# Energy is released, a free phosphate group detaches, and ADP remains. # Energy is released, a free pyrophosphate group (P-P) detaches, and AMP remains. In this case the pyrophosphate may itself be split, releasing another packet of energy.
The sugar pentose is connected to the nitrogenous base this is called a nucleotide. nucleotides are joined by phosphodiester linkages between the phosphate of one nucleotide and the sugar of the next.
Catabolic reactions are exothermic and anabolic reactions are endothermic. For endothermic reactions ATP supplies the energy by its hydrolysis to ADP and inorganic phosphate, which can be recycled to ATP by utilizing the energy produced by exothermic reactions. By this way ATP serves as an intermediate linking the catabolism and anabolism.
Peptide
A molecule that stores energy through the process of linking charged phosphate groups near each other is referred to as ATP. ATP stands for adenosine triphosphate.
On the exterior linking the sugar backbones together.
The bond linking a phosphate group to a sugar of a another molecule is called a phosphodiester bond
Phospholipids
YES
ATP synthase
carbon is an element .. but it has a self linking property wherein more than one carbon atoms link together to form a molecule
they form sucrose.
All organic compounds are made of amino acids
Helicase "zips" the newly formed DNA strand back together, linking the corresponding nucleotides back together.
atoms are held together bye positively charged particles (protons) and negatively sharged particles(electrons) and another elementary particle called the nuetron. The nucleus of an atom consists of protons, and neutrons and the shell outside of the nucleus consists of electrons.what holds the protons together (since they are pulled together even though they have the same charge and the nuetrons are not charged at all) is another particle called a muon which holds the protons in place. And since electrons in the outer shell are all negativley charged they are all evenly spaced out in the shell.
ATP.You can think of the energy as being stored in the bonds between phosphate groups. ATP has the structureadenine - ribose - phosphate - phosphate -phosphateAMP is similar, but has only one phosphate group attached to ribose. So in ATP there are two high-energy bonds linking the extra two phosphate groups to AMP.When ATP is split (hydrolyzed) in the cell, one of two things happens:# Energy is released, a free phosphate group detaches, and ADP remains. # Energy is released, a free pyrophosphate group (P-P) detaches, and AMP remains. In this case the pyrophosphate may itself be split, releasing another packet of energy.