Adenine (A) , Guanine (G), Thymine (T) , Cysteine (C)
The paired bases are held together by hydrogen bonds. Refer to the related link below for an illustration.
The N-bases of DNA paired in the way that adenine nitrogenous base always paired with the thymine (or with uracil in the case of RNA) base and guanine paired with the cytosine .Strong hydrogen bondings are present among them.
DNA ligase--> adds bases in the remaining gaps of sugar-phosphate backbone
DNA is composed of phosphate, proteins, nitogenous bases, sugar. they all maintain the structure of the DNA and are responsible for replicating the DNA accurately during replication.. for example; nitrogenous bases are correctly base paired i. e. A with T and G with C.
Name for a sequence of DNA bases that code for one protein?
the bases are paired by hydrogen bounds
The paired bases are held together by hydrogen bonds. Refer to the related link below for an illustration.
The N-bases of DNA paired in the way that adenine nitrogenous base always paired with the thymine (or with uracil in the case of RNA) base and guanine paired with the cytosine .Strong hydrogen bondings are present among them.
(in apex 2.1.3) T with A, and C with G The DNA bases are paired as follows: Adenine is paired to Thymine Guanine is paired to Cytosine. This is the same for RNA except Adenine is paired to Uracil instead of Thymine.
Adenine pairs with ThymineGuanine pairs with Cytosine
DNA ligase--> adds bases in the remaining gaps of sugar-phosphate backbone
the answer is four (4) billion pairs
Adenine(purine)=========thymine(pyrimidine)Guanine(purine)----------------cytosine(pyrimidine)
DNA is composed of phosphate, proteins, nitogenous bases, sugar. they all maintain the structure of the DNA and are responsible for replicating the DNA accurately during replication.. for example; nitrogenous bases are correctly base paired i. e. A with T and G with C.
DNA polymerase matches the bases on the parent strand.
a DNA molecule has two paired strands. ~
Name for a sequence of DNA bases that code for one protein?