DNA representations are usually shown by single letters on the crossbars between the sides of the helix. DNA is a polymer. The monomer units of DNA are designated by these letters and each represents a nucleotide. Each nucleotide is made up of:
Each of the four different types of nucleotides found in DNA have a different nitrogenous baseand are identified by one letter abbreviations for convenience. They are:
The order of the bases (guanine,cytosine,adenine,thymine), dedicate what proteins will be made.
It helps the DNA to be stored.
Deoxyribonucleic Acid
A, G, C, U whereas in DNA we have A,G,C,T in conclusion we have uracil that substitutes thymine in an RNA sequence
DNA has coded instructions for making proteins, and RNA translates the code.
AGCU or AGCT are letters that stand for 4 nucleobases. In RNA, the bases are Adenine, Guanine, Cytosine, and Uracil (RNA bases). In DNA, the bases are Adenine, Guanine, Cytosine, and Thymine (DNA bases).
The form of nucleic acid that allows it to be used as a code is DNA. This is because DNA is the genetic code for everyone's genetic make up.
The form of nucleic acid that allows it to be used as a code is DNA. This is because DNA is the genetic code for everyone's genetic make up.
A: Adenine, T: Thymine, C: Cytosine, G: Guanine
a t c and g they represent adenine thymine cytosine and guanine
A, G, C, U whereas in DNA we have A,G,C,T in conclusion we have uracil that substitutes thymine in an RNA sequence
DNA has coded instructions for making proteins, and RNA translates the code.
DNA could be compared to the alphabet in that different combinations of genes in DNA all together make up an entire person. Similarly, all the letters in the alphabet make up our entire language.
AGCU or AGCT are letters that stand for 4 nucleobases. In RNA, the bases are Adenine, Guanine, Cytosine, and Uracil (RNA bases). In DNA, the bases are Adenine, Guanine, Cytosine, and Thymine (DNA bases).
The form of nucleic acid that allows it to be used as a code is DNA. This is because DNA is the genetic code for everyone's genetic make up.
The form of nucleic acid that allows it to be used as a code is DNA. This is because DNA is the genetic code for everyone's genetic make up.
The form of nucleic acid that allows it to be used as a code is DNA. This is because DNA is the genetic code for everyone's genetic make up.
The form of nucleic acid that allows it to be used as a code is DNA. This is because DNA is the genetic code for everyone's genetic make up.
These four letters are abbreviation of four nucleotides that make up DNA.
They're just four chemicals that make up the genetic 'code'.