There are 64 codons, that code for only 20 amino acids. This make the genetic code redundant - because different codons can code for the same amino acid.
This provides some protection against mistakes - because a replacement of a single base may end up coding for the same amino acid - causing no change to the final protein product.
It means that some amino acids can be specified by more than one codon. Another term for this is the genetic code is degenerate.
Even though two codons can code for 1 amino acid, neither ever specifies any other aminos.
the code presents a tremendous stability and regularity to genetic processes.
Redundant: Some amino acids can be specified by more than one codon.
Unambiguous: Each codon specifies a particular amino acid and only that amino acid.
An amino acid can have more than one three letter codon coding for it Google codon table and you will see this happen.
it is faster and clearer in one method
The genetic code is redundant
The genetic code for protein synthesis is formed from Dna.
mRNA carries the genetic code to a ribosome.
The master copy of an organism's genetic code is the DNA.
strand of DNA
The genetic code is redundant
DNA is the genetic code
Redundant skin. The ICD-9-CM code is 701.9, and to journey it out in the book you start with "redundant".
instruction stored in the gene in the form genetic code.
DNA carries the genetic code.
The genetic code was not invented, it was discovered!
genetic code is genetic information only.
The secondary genetic code is the folding of protein.
The genetic code is carried by the macromolecule DNA. In particular, the sequence of nitrogen bases on the DNA determines the genetic code.
The genetic code is carried in the DNA on the chromosomes.
yes all living things are based on a genetic code.
In CRC, the redundant bits are derived from binary division to the data unit. While in hamming code, the redundant bits are a function of length of the data bits.