Structural integrity of Dna's backbone.
ATP = Adenosine triphosphate, it contains 3 phosphate groups, the structure of this molecule consists of a purine base (adenine) attached to the carbon atom of a pentose sugar (ribose). The 3 phosphate groups are attached to another carbon atom of the pentose sugar.
Phosphates and sugars.
Nucleotides - A, U, G or C, connected together by the usual phosphate- (ribose) sugar backbone.
3 phosphate groups
ATP stands for Adenosine Tri-Phosphate. This means there are three phosphate groups stuck together on the tail of the molecule. Packing that many negatively charged groups together takes energy which is stored in the structure. When the bond between the second and third phosphates is broken, energy is released and the molecule becomes ADP or Adenosine Di-Phosphate.
A ribose sugar linked by phosphate groups.
FALSE! ;; phosphate groups
Pentose sugars and Phosphate groups
No it is not. There are three phosphate
Deoxyribose and phosphate.
Phosphate and Deoxyribose sugar are the two parts that form the backbone of DNA. They are joined by ester bonds.
A phosphate group bonded covalently to a sugar molecule.
Sugar molecules and phosphate groups
3 phosphate groups, 1 ribose, and 1 adenine
Deoxiribose and phosphate.
A phosphate, a sugar, and an adenine group. Or there are 3 phosphates together.
ATP = Adenosine triphosphate, it contains 3 phosphate groups, the structure of this molecule consists of a purine base (adenine) attached to the carbon atom of a pentose sugar (ribose). The 3 phosphate groups are attached to another carbon atom of the pentose sugar. The link below shows the molecule.