Three-base triplets called codons. Each codon will be translated into an amino acid during the process of translation.
DNA is the genetic code
The secondary genetic code is the folding of protein.
why genetic code is arbitraryif yesthen prov ur anser
Im doing a packet in my biology class an was wondering if any of you guys knew about this:) Thanks!
They just dnt need a code!(genetic)
The genetic code is read in a continuous fashion without spaces or punctuation.
A frameshift mutation shifts the reading frame of the genetic code, causing all subsequent codons to be read incorrectly. This can lead to a completely different protein being produced, which can result in a variety of genetic disorders.
DNA is the genetic code
The genetic code is a set of rules that determines how DNA or RNA sequences are translated into proteins. It consists of triplet codons that specify which amino acid should be added to the growing protein chain. These codons are read by ribosomes during protein synthesis.
If a ribosome does not read the genetic code in the correct reading frame, it can lead to a "frameshift" mutation, where the entire genetic code downstream of the mutation is read incorrectly. This results in the production of a non-functional or truncated protein. Frameshift mutations can have significant effects on the structure and function of the resulting protein.
instruction stored in the gene in the form genetic code.
DNA carries the genetic code.
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.
When the DNA code is read, the genetic information stored in the DNA is transcribed into mRNA in a process called transcription. The mRNA is then translated into proteins by ribosomes in a process called translation. This allows the cell to synthesize the specific proteins needed for various cellular functions.
Yes, different codons can code for the same amino acid in the genetic code. This redundancy is known as degeneracy in the genetic code.
Yes, multiple codons can code for the same amino acid in the genetic code. This redundancy is known as degeneracy in the genetic code.